KeySIGN THE COMPREHENSIVE SIGN DESIGN PROGRAM

Version 19.2.1 TOC

Chapter 1 – Introduction 16

1.1 Welcome to KeySIGN 16

1.2 Overview of this Manual 17

1.3 Conventions Used in this Manual 18

1.4 Help is at Hand 19

Chapter 2 – Drawing Commands 21

2.1 General Concepts 21

2.2 The AutoCAD Window 22

2.2.1 The Command Line 23

2.2.2 The Ribbon Menus (R2009 or later; KeySIGN support from R2010) 24

2.2.3 The Pull-down Menus 24

2.2.4 The Toolbar Menus 24

2.2.5 The AutoCAD Status Bar 25

2.2.6 The Drawing ‘Canvas’ in a New Document 25

2.3 File Handling Commands 26

2.3.1 Starting New Drawings: NEW, QNEW 26

2.3.2 Opening Existing Drawings: OPEN 26

2.3.3 Saving Your Work: SAVE, QSAVE, SAVEAS 27

2.4 Basic AutoCAD Commands and Functions 27

- 2 - 2.4.1 The Snap Drawing Aid 27

2.4.2 Command Selection 28

2.4.3 Object Selection 29

2.4.4 The Pan Command: PAN 30

2.4.5 The Zoom Command: ZOOM 31

2.4.6 The Line Command: LINE 32

2.4.7 The Polyline Command: PLINE 33

2.4.8 The Arc Command: ARC 33

2.4.9 The Move Command: MOVE 34

2.4.10 The Copy Command: COPY 35

Chapter 3 – Overview of Sign Design with KeySIGN 37

3.1 Design Methodology 37

3.2 The GRID Drawing Aid Used for Sign Design 37

3.3 The SNAP Drawing Aid Used for Sign Design 38

3.4 Command Selection 38

3.5 KeySIGN Text 39

3.5.1 Transport Fonts 39

3.5.2 Drawing Transport Font text 42

3.5.3 Mixed X-height Signs 43

3.6 Inserting Symbols and Arrows: SYMBOL, ARROW 44

3.6.1 Inserting Symbols: SYMBOL 45

3.6.2 Inserting Arrows: ARROW 46

- 3 - 3.7 Drawing Map Type Signs 47

3.7.1 Some Basic Principles 47

3.8 Drawing Borders 49

3.9 Detailing the Finished Designs 49

Chapter 4 – Detailed Command Reference 51

4.1 Text Commands 51

4.1.1 Transport Font Text: HEAVY, MEDIUM, MWAY and MBAY 51

4.1.2 Destination Block: DESTINATIONBLOCK 53

4.1.3 Drawing Routes and Route Patches: ROUTE 55

4.1.4 Route Cancelled Slash: RTCANCEL 58

4.1.5 Changing the Appearance of Sign Text: DOTON, DOTOFF and DUPLEX 59

4.1.6 Initial Text Settings: KTS_TEXTREPRESENTATIONSETTINGS 61

4.1.7 Distance Text: MILES 63

4.1.8 Conversion of Text to REAL TEXT: Various Commands 64

4.1.9 Text Limits: UKCMARK 64

4.1.10 Adding Tile Marks to Any Sign Elements: CMARKBOX 65

4.1.11 Primary and Regional Destinations: DESTINATIONS 65

4.2 Bilingual Signing in Wales 66

4.2.1 WELSH, WELSHACCENT, WELSHBRACKETS (for Bilingual Route), MULTIROUTEPATCH and LOADWELSHMENU 66

4.3 Map Symbol Drawing Commands 69

- 4 - 4.3.1 Standard Round Roundabout 70

4.3.2 Oval Roundabouts 70

4.3.3 Mini Roundabouts 71

4.3.4 Other Layouts 71

4.3.5 Adding an Entry Arm to a Roundabout Symbol: ENTRYARM 72

4.3.6 Adding an Exit Arm to a Roundabout Symbol: EXITARM 73

4.3.7 Adding a Stub Arm to a Roundabout Symbol: STUB 74

4.3.8 Adding a ‘Ghost’ Stub to a Roundabout Symbol: GHOSTSTUB 74

4.3.9 Inserting a Cul-de-sac Symbol on a Roundabout Exit Arm: CULDESAC 75

4.3.10 Implementing the ‘Two Thirds’ Rule on Horizontal Arms: ARM 75

4.3.11 Anchoring Map Approach Arms Down to a Border: ENTRY 76

4.3.12 Stretching Exit Arms at any Angle: ARMSTRETCH 76

4.3.13 Signs on Junction Arms: TRIARM, ROUNDARM 77

4.3.14 Cross Roads Map Symbols: XRDS 78

4.3.15 Road Bend Symbols: TITECURV, FASTCURV 79

4.3.16 Adding a destination arm: MAPARM 80

4.3.17 Drawing Multi-way Junctions: MAPBUILD 80

4.3.18 Colour Filling Map Symbols: MAPSYMBOLJOIN 81

4.3.19 Filleting Joints Between Manually Drawn Map Arms: FILLET1 82

4.4 Alignment, Construction and Spacing Tools 82

4.4.1 ‘Shrink-to-fit’ Construction Boxes: SBOX 82

- 5 - 4.4.2 Showing the 1 s/w Rule Implemented in a Route: SPLITROUTE 82

4.4.3 Destination Block Spacing Tool: BLOCKSPACING 83

4.4.4 Variable Block Spacing: VBLOCKSPACING 84

4.4.5 Alignment Tools: Various commands 85

4.4.5.1 ALIGNLEFTS, ALIGNTOPTOBOTTOM etc. 86

4.4.5.2 ALIGNCENTRES and ALIGNMIDDLES 86

4.4.5.3 CENTREGROUPH and CENTREGROUPV 87

4.5 Border Drawing Commands 88

4.5.1 Sign Border Drawing Commands: ONESTACK, TWOSTACK, THREESTACK AND FOURSTACK 88

4.5.2 Direction ‘Flag’ Sign Borders: FLAG 89

4.5.3 MoD Panel and Flag: MODFLAG, MODPANEL 90

4.5.4 Adding Route Patch Borders to Route Text: PATCH 90

4.5.5 Panel Borders: PANEL 91

4.5.6 Panel Borders with a Cut-out Corner: LPAN 92

4.5.7 Finger Post Border: FINGER 93

4.5.8 Panels and Sign Borders: Automatically resizing for contents 94

4.5.9 Adding Backing Boards: BACKINGBOARD 95

4.5.10 Drawing Sign Border to Size: XBlock 97

4.5.11 Light Baffle / Side Border Extension: BAFFLE 98

4.6 The Automatic Sign Commands 98

4.6.1 The AutoFLAG Command: DDFLAGSIGN 98

- 6 - 4.6.2 Automatic OneSTACK Sign Command: DDONESTACK 104

4.6.3 AutoPARK Sign Command: DDPARK 106

4.6.4 Automatic Text Only Signs Command: DDSIGN 109

4.6.5 Bus Lane Signs: BUSLANE 111

4.6.6 Other Automatic Standard Sign routines: SIGN 112

4.6.7 Sign / Supplementary Plate Command: SIGNANDSUPPPLATE 113

4.6.8 Parking Symbols and Signs: PARK 115

4.6.9 Inserting Bus Symbols: BUS 117

4.6.10 Inserting Hospital Symbols: HOSPITAL 117

4.7 Miscellaneous Sign Design Commands 119

4.7.1 Inserting Direction Arrows: ARROW, ARROWS 119

4.7.2 Colour Filling Signs: BORDERFILLSIGN 120

4.7.3 Changing a Border Colour: CHANGEBORDERCOLOUR 121

4.7.4 Reversing a Sign Colour Fill: UNDOBORDERFILL 123

4.7.5 Removing Symbol Fills: REMOVESYMBOLFILL 123

4.7.6 Adding a Small Colour Flash to Borders: BGROUND 123

4.7.7 Adding Detail to the Completed Signs: DDETAIL 124

4.7.8 Adding Panel Details: PANDET 131

4.7.9 Edit a Panel Detail Block: EDITPANELDETAILS 134

4.7.10 Post and Foundation Design: WINDANALYSIS 134

4.7.11 Drawing Frames 1, 2, 3 & 4: FRAME 135

4.7.12 Posts - WBPOST, PPOST & SIGNLIGHT 135

- 7 - 4.7.13 Lane Signs and Arrows: LANESIGNS, LANESIGNARROWS 136

4.7.14 Lane Sign Underline: LANEUNDERLINE 136

4.7.15 Overhead Gantry Arrow: OHARROW 137

4.7.16 Motorway Junction Number Patches: MJUNCT 138

4.7.17 Junction Number Ahead at Distance Sign: JCTNUM 139

4.7.18 Cycle Route Number Patches: CYCLEROUTENUMBER 139

4.7.19 Adding Diversion Symbols: DIVERSIONS 139

4.7.20 Real Text Colour Changing: RT-DUPON and RT-DUPOFF 140

4.7.21 TSRGD Diagram 2716 Underline: DIAG2716UNDERLINE 140

4.7.22 KeySIGN Options: ASIGNCONFIG 140

4.8 Selection Assisting Tools 141

4.8.1 Selection Commands: COPYSIGN, MOVESIGN, SELECTSIGN, ERASESIGN 142

4.8.2 Selection Commands: SGROUP, XSGROUP, MOVEGROUP and GROUPSEL 142

4.8.3 Moving/Copying a Finished Sign to a Map: MOVESIGNTOMAP, COPYSIGNTOMAP 143

4.8.4 Export Sign Design for Use on a Location Plan: EXPORTFORMAPLOCATION 143

4.8.5 Insert a Sign Design from File: INSERTSIGN 145

4.9 Dimensioning and Scaling Commands 145

4.9.1 Scaling Standard Signs: SCALESTANDARDSIGN 145

4.9.2 Stroke Width to Millimetres Conversion with Offset: MMOFFSET 147

- 8 - 4.9.3 ScaleMToSW and ScaleSWToM 148

4.9.4 Setting the Current X-Height: SET_XHEIGHT 148

4.9.5 Dimension Commands: ATS_DIMVERTICAL, ATS_ DIMHORIZONTAL 148

4.9.6 Adding the Design Dimension to Dimensions: SWINDIMS 150

4.9.7 Checking the Size of a Finished Sign: SIGNSIZE 150

4.9.8 Rounding Sign Dimensions: ROUNDING 151

4.9.9 Producing Scaled Output in a Model View: SCALEVP 153

4.9.10 Quick, Semi-automatic Sign Dimensioning: SDIM 154

4.10 Display Changing Commands 155

4.10.1 Text Display Options: DOTON, DOTOFF and DUPON 155

4.10.2 Toggle the TILE Layer On or Off: TILE 156

4.10.3 Toggle the NOGO Layer On or OFF: NOGO 156

4.10.4 Colour Fill Toggle: BFIL 156

4.10.5 Drawing Background Colour Options: BLACKBACK, GREYBACK, GREYBACK2 and WHITEBACK 157

4.10.6 Changing the Colour of Transport Heavy Text: HEAVY2MAG, HEAVY2WHI 157

4.11 Drawing Labelling Utilities 158

4.11.1 Label Yellow Route Text: YELLOWROUTELABEL 158

4.11.2 Label Standard Sign or Symbol: BLOCKTEXT 158

4.11.3 Label X-Height: LABELXHEIGHT 159

4.11.4 Sign Location Symbol: SIGNSYMB 159

- 9 - 4.12 Miscellaneous Utilities 160

4.12.1 Zoom to Sign Design Area: SIGNSHOP 160

4.12.2 Zoom to Location Map coordinates: ZOOMTOMAP 160

4.12.3 Save MAP View for Quick Zooming: SAVECURRENTMAPVIEW 161

4.12.4 Drawing Titles: DWGTITLE 161

4.12.5 Edit Permitted Sign Variants: SDDATTE 162

4.12.6 Explode and Convert Permitted Variants to Text: UNBLOCK 162

4.12.7 Drawing Tidy Up: DWGTIDYUP 162

4.12.8 Automatically Purging the Drawing: APURGE 165

4.13 Miscellaneous System / Program Commands 167

4.13.1 The ‘What’s New’ Guide: ASIGNWHATSNEW 167

4.13.2 Reloading the KeySIGN Menu: RELOADKEYSIGNMEU 167

4.13.3 Reloading KeySIGN: KSIGN 168

4.13.4 Reset KeySIGN and AutoCAD System Variable to Defaults: RESET 168

4.13.5 Updating the Stored Dimensions for a Symbol: REVISEBLOCK 168

4.13.6 Finding Detailed Program Build Information for KeySIGN and other Keysoft Solutions Applications: ABOUTKEYSIGN, ATS_BUILD and KEYABOUT 170

4.13.7 Browse the Sign Library: BROWSESIGNS 171

4.13.8 KeySIGN Command Aliases: ASIGNALIAS 171

Chapter 5 – Standard TSRGD Signs 173

5.1 Warning Signs 175

- 10 - 5.2 Regulatory Signs 177

5.3 Informatory Signs 178

5.4 Bus, Tram and Cycle Signs 179

5.5 Schedule 12 Signs 180

5.6 Bus Lane Signs: BUSLANE 181

5.7 Other Commands Relating to Standard Signs 184

5.7.1 Adding a Backing board: BACKINGBOARD 184

5.7.2 Standard Sign with Supplementary Plate: SIGNANDSUPPPLATE 185

5.7.3 Automatic Standard Sign Routines 185

Chapter 6 – Post and Foundation Design (Wind Loading) 187

6.1 Exporting Sign Face designs from KeySIGN 187

6.2 Launching KeyPOST from KeySIGN 189

6.3 Returning results to KeySIGN 190

Chapter 7 – Sign Design Tutorials 192

7.1 The Flag and Stack Type Signs 192

7.2 Stack Type Advanced Direction Sign (ADS) 1: Creating Destination Blocks. 197

7.3 Stack Type Sign Design 2 204

7.4 Map Type Signs Tutorial 1: A Roundabout ADS. 207

7.5 Map ADS Toolbar. 209

7.6 Map type Signs Tutorial 2: Simple Roundabout Sign 212

7.7 Warning & Regulatory Signs on Stack type ADSs. 218

- 11 - 7.8 Plotting 226

Chapter 8 – Real Text 229

8.1 General Issues 229

8.2 The Commands 230

8.2.1 Applying Real Text to All Text in a Drawing 230

8.2.2 Applying Real Text to Selected Lines of Text: RTEXT_SELECT 231

8.2.3 Placing Real Text Letters Along a Line or Arc: RTL 231

8.2.4 Type Real Text Letters: RTEXT_TYPE 231

8.2.5 UNDO Real Text: REVERSERTEXT 232

8.2.6 Purge Real Text Letters from a Drawing: PURGERTEXT 232

Chapter 9 - Manufacturing Features 233

9.1 Cutter Bed ‘Plotting’ Routines 233

9.1.1 The Cutter Bed Commands: CUTBED, BESPOKECUTBED and PLANK 233

9.1.1.1 Standard Cutter Bed: CUTBED 233

9.1.1.2 Bespoke Cutter Bed: BESPOKECUTBED 234

9.1.1.3 Determine Best Plank Sign Design: PLANK 235

9.2 Sign Costing Routines: SIGNCOSTINGQUERY 235

9.3 Large Sign Cut: MPLOT 235

Chapter 10 – Customising KeySIGN 237

10.1 The KeySIGN Options dialog: ASIGNCONFIG 237

10.2 Editing the Materials List and Rates 242

- 12 - Chapter 11 – Glossary of KeySIGN commands 245

Chapter 12 – Button Directory 262

12.1 Main KeySIGN Toolbars 262

12.2 Map ADS Symbol Toolbar 264

12.3 Text Command Toolbar 266

12.4 The Arrows Toolbar 268

12.5 The Real Text Toolbar 268

12.6 The General Symbols Toolbar 269

12.7 The Border Command Toolbar 270

12.8 The Signs – All Toolbar 271

12.9 The Tourist Symbols Toolbar 272

12.10 Utilities (drawing) Toolbar 273

12.11 Utilities (general) Toolbar 274

12.12 Post and Foundation Design Toolbar 275

12.13 Move toolbar 275

12.14 Fill Utilities Toolbar 276

12.15 Alignment Toolbar 277

12.16 KeySIGN Program Toolbar 278

Chapter 13 – A History of KeySIGN 279

13.1 Release History 279

Chapter 14 – Installation 283

14.1 Before you start 283

- 13 - 14.2 Hardware and Software Requirements 283

Hardware requirements 283

Software requirements 284

14.3 Starting the installation program 285

14.3.1 The Installation Wizard 285

14.3.2 User Name and Password screen 285

14.3.3 Creation of Shortcuts and AutoCAD Profile 286

14.3.4 Manual creation of the shortcut 286

14.3.5 Creating or editing the KeySIGN Profile in AutoCAD 287

14.3.6 First time starting 288

14.3.7 KeySIGN Loading Sequence: 289

14.4 Command Errors 292

14.5 Licensing Errors 293

Chapter 15 – Installation and Configuration of KeyOSC Tiler 295

15.1 Compatibility of KeyOSC with AutoCAD 295

15.2 Running the installation procedure 295

15.3 Configuration of KeyOSC Tiler 296

15.3.1 ‘Installing’ KeyOSC into AutoCAD Manually 296

15.3.2 Manually Setting the Path to the Map Tiles 298

15.4 Street Name Finder Database 299

Chapter 16 – Glossary of Terms 300

Glossary 305

- 14 - Index 306

- 15 - Chapter 1 – Introduction

1.1 Welcome to KeySIGN

We are grateful that you have purchased our product and trust that you will find it of great assistance in the production of Traffic Sign drawings.

KeySIGN originated as a joint development between Traffic Engineers from Humberside County Council and Key Systems. Since its launch at the beginning of 1987, KeySIGN has become the Traffic Sign Design program in the British Isles. At the present time over 1000 licenses are being used by different Authorities, Consultants and Manufacturers, and an active User Group has been formed. The Group regularly meets in the UK to dis- cuss developments and applications. Those who take out the Service Agreement auto- matically join the Group and are most welcome to send representatives to attend the meetings.

You will discover that not only will KeySIGN save time in the production of drawings but the flexible way in which sign layouts can be altered easily will enable more efficient designs to be achieved. Savings in time and materials mean a saving of money. We feel sure that this system will soon repay its cost.

KeySIGN does not remove the need for the expertise of the Traffic Sign Designer. It is assumed that the operator is familiar with the rules for Traffic Sign Design contained in current DfT publications including "Traffic Signs Manual Chapter 7” published by the Department for Transport; with the “Traffic Signs Regulations and General Directions” (TSRGD) and its amendment Regulations; all published by TSO; and lastly the Working Drawings published by the DfT on their web site.

- 16 - What KeySIGN does do, is enable designers to make more efficient use of their time and create a more enjoyable and satisfying atmosphere in which to practise their art.

Users will soon appreciate the opportunities available to modify the system to meet their own needs. KeySIGN will continue to be developed and updates will be available from time to time. We are grateful for any suggestions for improvements to the routines and manual. Forms are included at the end of this manual for users to pass on their com- ments. Users who have paid the Annual Service Fee are entitled to updates at no extra charge.

1.2 Overview of this Manual

This Manual gives an initial overview of AutoCAD, and then the KeySIGN add-on sys- tem. It then demonstrates many of the features of KeySIGN. This is followed by detailed tutorial examples of the creation of a Flag Sign, a Stack Sign, an Advanced Direction Map Sign and so on.

A brief summary is given of the way in which the posts and foundation sizes can be cal- culated. This is followed by a chapter devoted to the Manufacturing applications of KeySIGN. A short summary is provided of the way users can customise KeySIGN to their own needs and this is followed by a full Glossary of all KeySIGN commands and a ‘But- ton’ directory for the commonly used toolbar commands operate. A History of Revisions is given followed by a chapter dealing with the installation of the software.

Once users have become familiar with KeySIGN they will undoubtedly wish to explore the many possibilities open to them through AutoCAD, for example for the production of location plans using the bundled add-on application KeyOSC. Additional information can be found in the AutoCAD Manual, and on-line help file.

- 17 - This Manual assumes that the following hardware specification is in place, is installed and fully functioning:

1) PC running Microsoft windows with an Autodesk supported full version of AutoCAD installed; or other AutoCAD ‘vertical’ such as Map 3D or Civil 3D;

2) Colour screen, with resolution 1280 x 768 or greater;

3) Mouse (or digitiser) preferably with a third wheel button and

4) Plotter or printer.

See Chapter 14 – Installation for a more detailed hardware and software specification.

1.3 Conventions Used in this Manual

Paragraphs covering KeySIGN and AutoCAD commands will show the appropriate Rib- bon/Toolbar icon that can be selected to start each command. Not all commands have an icon and in these cases it will be the pull-down menu item that is indicated. This will be indicated for example for the KeySIGN Options command thus: PD: ‘KeySIGN > Pro- gram > Options’

In order to avoid repetition of words, the following conventions are used:

ENTER - means press the ENTER key. This is also known as the RETURN key or NEWLINE key. You will also find that the right button on the mouse usually performs the same function as the ENTER key, although this behaviour can be customised in AutoCAD.

- 18 - ESC – means press the ‘Esc’ key which is found on the top left hand corner of the key- board. This has the effect of cancelling commands, but may need to be pressed more than one time to come all the way out of some commands.

PICK - means press the left hand mouse button to select an item from a menu, an icon from a Ribbon/Toolbar, or an object or coordinate on screen.

CTRL –The ‘Ctrl’ key usually on the left hand end of the keyboard.

SHIFT – The ‘Shift’ key to be found on either side of the keyboard. This key is normally used for capital letters or for special characters such as fractions and spaces (see key- board mapping in Figure 3.4 – Keyboard Mapping for Special Keys and Spaces).

1.4 Help is at Hand

Those that have a Service Agreement are encouraged to use the telephone helpline. Although you are unlikely to face many problems, when you do you can spend unne- cessary time trying to resolve it yourself. A phone call will usually resolve the problem in a matter of minutes. Feel free to call us, we are here to help. We can be contacted in any of the following ways:

By Post

Keysoft Solutions Ltd

Ardencroft Court

Ardens Grafton

Alcester

Warwickshire

- 19 - B49 6DP

By Telephone or Fax

Tel - 03451 30 30 40

Fax - 03451 30 31 41

By Email or Web

Email - [email protected]

Web - http://www.keysoftsolutions.com

- 20 - Chapter 2 – Drawing Commands

2.1 General Concepts

This chapter contains detailed information about both AutoCAD and KeySIGN com- mands. It starts with a brief tour of the AutoCAD screen itself. We will also examine the drawing facilities command by command. As such this manual is intended to be used both as a reference and tutorial guide, and to supplement the AutoCAD Manual.

First, run KeySIGN from the installed shortcut, usually to be found on the Windows Desktop. SeeChapter 14 – Installationfor full information about installing KeySIGN.

When AutoCAD starts it should load an untitled drawing (called Drawingn.dwg where n is a number starting from 1). The new drawing started at launch will, and all new draw- ings started from the pull-down or Ribbon/Toolbar menu items subsequently, should be based on the template drawing supplied ‘Sign.dwt’. Figure 2.1 – The ‘New drawing’ dialog showing the valid template file shows the ‘New file’ dialog. Select the file shown when starting new drawings. See paragraph 2.3.1 Starting New Drawings: NEW, QNEW for more information about starting new drawings.

- 21 - Figure 2.1 – The ‘New drawing’ dialog showing the valid template file

On the very rare occasions in KeySIGN when a completely fresh drawing, not explicitly set-up for sign design, is required, select the small down arrow adjacent to the ‘Open’ button to reveal an option to start the new drawing from scratch.

2.2 The AutoCAD Window

Commands can be started in a number of ways. Provided are pull-down menus and tool- bars, and from R2010 onwards, a fully featured Ribbon menu is also available. The Rib- bon menu system is tabbed and commonly used commands are better highlighted by virtue of larger icons. KeySIGN is supplied with a Ribbon menu from R2010 onwards. Also available, described in the next paragraph, the icons are available on the more tra- ditional Toolbars.

- 22 - Toolbars are arranged around the graphics screen. These can be dragged to new pos- itions around the screen if it is so desired. Moving the tool bar close to the sides, top or bottom of the graphics screen will cause it to dock against the side etc. Toolbars can be opened from the ‘View > Toolbars’ pull-down menu and closed by picking the X in the top right hand corner of the Toolbar.

New commands can be selected when the command line displays “Command:”. Com- mands can be cancelled by pressing ESC. If a command is in progress when a menu item is selected, this will be cancelled.

Movements of the mouse results in an equivalent movement of the crosshairs on the graphics screen. A more accurate control of the crosshairs can be achieved by holding down the CTRL key and pressing the cursor keys on the keyboard.

Figure 2.2 – The AutoCAD Command Line

2.2.1 The Command Line

At the bottom of the AutoCAD window is an area called the Command Line. Whilst AutoCAD is quite unusual in presenting a command line area, it is a very useful way for users to interact with commands. It shows the command ‘dialogue’, and is the area where prompts for values such as text height or location will be presented.

- 23 - 2.2.2 The Ribbon Menus (R2009 or later; KeySIGN support from R2010)

Shown above is the main KeySIGN Ribbon Tab. See the appendix for full coverage of this menu system, available in KeySIGN from AutoCAD R2010 onwards.

2.2.3 The Pull-down Menus

Along the top of the screen there is a series of pull-down menus which can be activated by placing the cursor over the item and pressing the pick button. The pull-down menu will be revealed. Often further cascading sub-menus can be opened by picking the appro- priate item on the pull-down.

When the pull-down menus are referred to, e.g. where no Ribbon/Toolbar item exists for the command, it is using the following convention PD: ‘KeySIGN > Program > Options’, which means to select from the KeySIGN pull-down menu an item labelled ‘Options’ on the Program sub-menu. Explore the menu system to learn about KeySIGN and start using commands.

2.2.4 The Toolbar Menus

Button icons are displayed in a series of Toolbars. These activate commands by picking the appropriate icon. Pausing with the mouse cursor over the icon will result in a Tool Tip (written description) being displayed over the button and additional help is also shown on the AutoCAD status bar (see Figure 2.3 – The AutoCAD Status Bar). See Chapter 12 – Button Directory for the KeySIGN Button Directory.

- 24 - An icon with a black triangle in the lower-right corner indicates that a further display of icons will open up when it is selected. This is called a toolbar ‘Flyout’, and can be accessed by clicking and holding down the left mouse (pick) button. After a short delay the flyout appears. An icon on a toolbar flyout can be selected by placing the mouse cursor over the required item and releasing the mouse pick button.

2.2.5 The AutoCAD Status Bar

This is shown in Figure 2.3 – The AutoCAD Status Bar and is very important for assessing the status of various settings and values. For example on the left hand end, the currently loaded version of KeySIGN is shown. The SNAP and GRID setting should generally be on (represented by the ‘button’ shown pressed in) as in the figure.

R2008:

R2011 and later:

Figure 2.3 – The AutoCAD Status Bar

2.2.6 The Drawing ‘Canvas’ in a New Document

KeySIGN displays a grid of dots on the graphics screen, the (normally) black area in the middle of the AutoCAD Window. This is set at a spacing of four units. Each unit, the drawing unit, equates to one stroke width (s/w), i.e. the basic unit used in traffic sign design. The grid acts like graph paper, providing a simple visual guide for the spacing and alignment of sign elements.

- 25 - 2.3 File Handling Commands

The commands shown here are, from left to right QNEW, OPEN and SAVE/QSAVE.

2.3.1 Starting New Drawings: NEW, QNEW

The QNEW command is accessed from the toolbar (left hand toolbar icon as shown above) as shown above. This starts a new drawing based on a template drawing if one has been specified in the AutoCAD Options dialog. If one has not been specified, or when the command is selected from the File pull-down menu (the ‘New’ menu item calls the NEW command), the user is invited to start the new drawing either based on a tem- plate which can be selected from a list as shown in Figure 2.1 – The ‘New drawing’ dia- log showing the valid template file or a drawing from scratch. The new drawing started at launch and all new drawings started from the pull-down or toolbar item subsequently, should be based on the template drawing supplied ‘Sign.dwt’ (See Figure 2.1 – The ‘New drawing’ dialog showing the valid template file). This file is stored in the AutoCAD release specific folder e.g. C:\Sign162\R2004. If the file is not listed in the file selection dialog, it will be necessary to check the set-up. Check the ‘Drawing Template File Location’, and the drawing specified for the QNEW command in the AutoCAD Options dialog (Files tab).

2.3.2 Opening Existing Drawings: OPEN

OPEN (middle toolbar icon as shown above) allows you to go into an existing drawing to edit it. You will find also the file history on the File pull-down menu useful, and also see documentation in the user manual with regard to the Autodesk Design Centre Window which also maintains a history of edited drawings.

- 26 - 2.3.3 Saving Your Work: SAVE, QSAVE, SAVEAS

Type or pick the SAVE command (right hand toolbar icon as shown above) to save the drawing that you are working on to file. It will normally be saved onto the hard disk, but often it will be best to save it to a location on the network filing system if your organ- isation has one. When issuing this command, if the drawing has not yet already been saved, the normal File Save dialog will be shown. The SAVEAS command always causes the file dialog to be shown. The QSAVE command will show the dialog if the file has not yet been saved, but will simply save the file to its same name if it has.

The QSAVE command (right hand toolbar item as shown above) should be invoked from time to time, especially after a period of intensive work. Like the rest of us, you will prob- ably not use this command often enough, and may live to regret it! It’s a good rule of thumb to SAVE before starting a plot of a drawing. Also be aware that AutoCAD can gen- erate an automatically saved file at predetermined intervals. See the AutoCAD Options dialog (PD: ‘Tools > Options’), on the ‘Open and Save’ tab, ‘File Safety Precautions’.

2.4 Basic AutoCAD Commands and Functions

2.4.1 The Snap Drawing Aid

KeySIGN makes use of ‘SNAP’ functionality which assists with the spacing and align- ment of sign elements. The Snap function should remain switched on to assist with the layout of sign elements, but may occasionally have to be switched off to enable the selec- tion of objects. Turn Snap on by clicking on the button shown on the status bar (see Figure 2.1 – The ‘New drawing’ dialog showing the valid template file) or by press- ing the F9 function key on the keyboard.

When snap is turned off, the crosshairs can be moved to indicate or select any coordin- ate in the drawing. When enabled, the snap function restricts the coordinates that can be accessed to ½ stroke width (s/w) intervals. Thus spacing of elements can often be achieved by counting a number of ‘jumps’ of the crosshairs across the screen.

- 27 - 2.4.2 Command Selection

Moving the crosshairs, to the pull-down menus along the top of the screen results in menus items being highlighted. Pressing ENTER or the PICK button on the cursor selects the item which is highlighted. Picking the icon buttons on the Toolbars will pro- duce the same result.

The third alternative for command selection is to type in the appropriate word on the key- board and then ENTER. Many commands have a predefined shorthand version, which can be added to or customised. You will probably find that you use a combination of all methods of command selection as you become familiar with the system.

Many of the commands have a default response. This is identified within the < > brack- ets. In the example below, the start point for the text is required by default. When the appropriate command is selected a second press of ENTER automatically selects the standard default value. Many commands also present options, for example the text jus- tification options presented with the HEAVY command. To access these options, type any letter(s) that are shown in capitals e.g. TR for top right text justification.

Example command dialogue:

Command: HEAVY

HEAVY13 is the current text style.

or [Center/BLeft/BRight/TLeft/TRight/MLeft/MRight/Height/Rotation]: (point selected on-screen)

Height: 8.0, Rotation angle: 0.0

Enter text: Destination ↵

Enter text: ↵

- 28 - Command:

2.4.3 Object Selection

Many commands prompt the user to select objects. For example if some objects in a drawing are not wanted then the ERASE command will be used, for which it is neces- sary to select those objects that should be removed from the drawing. When requested to ‘Select objects’ the screen crosshairs change to a small square (the Pickbox). Using the mouse cursor, move the small square until it lies on top of one of the objects in the drawing for example a line, then press the PICK button. The line changes to a dotted (highlighted) format, to confirm which object has been selected. If you now press ENTER to complete the object selection process, the object(s) selected will be removed from the drawing.

If the wrong line has been selected, before pressing ENTER, you can either press ESC to cancel the command completely, or use the SHIFT key, and reselect the object wrongly selected to remove the object from the current ‘selection set’. Alternatively, enter ‘R’ to access remove ‘mode’ thus removing any objects which you subsequently pick, from the ones previously selected. In remove mode, if you wish to select more objects, to be added to the selection group, enter ’A’ to access ‘add’ mode again, before completing object selection, and select more objects. Always press ENTER to complete the object selection process.

It is also possible to define a window in which all objects totally enclosed in it can be selected. Using the cursor, select a point above and to the left of any lines drawn on the screen and press the PICK button. Move the cursor to the right, and a rectangular win- dow with a solid edge appears. Adjust the position of the cursor until all lines are enclosed within the window and press the PICK button again. The lines selected change to dotted, and pressing ENTER causes them to be selected.

- 29 - An alternative way to define this selection rectangle is to select a point to the right of the items to be selected for the first rectangle corner, then a point upwards (or downwards) and to the left. The window that appears has a dotted edge. This is a crossing window and will select all items within and those that cross the rectangle so defined.

There are several other ways to select objects such as Last, ALL, Fence, WPolygon, CPolygon and Previous and several more. See the AutoCAD manual for further inform- ation.

2.4.4 The Pan Command: PAN

The graphics screen can be regarded as a small window behind which is a piece of paper of unlimited size. The window can be moved across the face of the paper by using the PAN command or moved nearer or further away by the ZOOM command. Whilst these are standard AutoCAD commands that can be picked from the pull-down of toolbar menus, it is more usual these days to use the middle wheel button on the mouse where available. Clicking the wheel button down initiates the Pan function until the wheel is released. Position the mouse pointer, which changes when the wheel is clicked down to show a small picture of a hand, at a suitable location in the drawing area. For example if it is required to see a portion of the drawing to the right of the current view, position the cursor to the right of the view. Then click and hold the wheel button, and move the cursor to the new location, i.e. to the left to see a portion of the drawing to the right of the current view. Drag the drawing with the wheel pressed down to reposition the drawing with respect to the drawing window.

The PAN command works slightly differently. Start the command for example by select- ing the icon (shown above) from the Standard AutoCAD toolbar. Position the mouse pointer, which will have changed to show a small picture of a hand, at a suitable location in the drawing area. For example if it is required to see a portion of the drawing to the

- 30 - right of the current view, position the cursor to the right of the view. Then click and hold the left mouse button, and move the cursor to the new location, i.e. to the left to see a por- tion of the drawing to the right of the current view. This can be repeated as required. Exit from the command by pressing ENTER, ESC or by choosing ‘Exit’ from the right-click menu.

2.4.5 The Zoom Command: ZOOM

The graphics screen can be regarded as a small window behind which is a piece of paper of unlimited size. The window can be moved nearer or further away from the face of the paper by using the ZOOM command. Whilst this is a standard AutoCAD com- mand that can be picked from the pull-down of toolbar menus, it is more usual these days to use the middle wheel button on the mouse where available. Rolling the wheel button initiates the Zoom function. Rolling the wheel away from you allows the drawing to be more closely examined, and away allows larger areas of drawing to be shown in the drawing window. It can be seen that the drawing is enlarged or made smaller around the location of the cursor when the wheel is rolled.

The ZOOM command works slightly differently. Typing the command allows the selec- tion of a particular mode of operation. Type ‘W’ for the ‘Zoom by window’ method, or select the icon shown in the middle of the group of three above. You will be asked to spe- cify the first corner of a rectangular area. Do so by moving the cursor crosshairs to one corner of the area which you wish to enlarge, then press the PICK button. You are then asked for the other corner. As the crosshairs move over the screen a rectangular window appears, altering in size as the cursor is moved. When the area contained in the window covers the amount of screen you wish to examine, press the PICK button. The screen will be redrawn with the area of the window enlarged to fill the screen. It is not essential to specify the 'W', picking the first point will cause the computer to assume a window is required.

- 31 - To return to the previous view select the ZOOM command again. Now enter ‘P’ (for pre- vious) on the keyboard to return to the previous view. Alternatively, select the icon shown on the right of the group of three above.

The Zoom command offers other options, for example ‘E’ (for Extents) to fill the screen with everything that has been drawn on the drawing.

2.4.6 The Line Command: LINE

To illustrate the simple way in which the drawing system operates let’s draw a few straight lines. Select the command from either the ‘Draw’ pull-down menu, or from the toolbar icon shown above. On the command line AutoCAD prompts with the question ‘From point’. Move the mouse cursor to a suitable point on the screen and PICK a coordinate (click the left mouse button). The command line now shows ‘To Point’. Select another suitable point, using the cursor, and press the PICK button. A line will be drawn between the two points. Successive line segments can be drawn in this way.

The sequence is completed by pressing ENTER in response to the ‘To Point’ request. Note that if the 'rubber band' line is pulled out in a particular direction (use the ORTHO switch F8 to force Vertical or Horizontal directions) and the distance is typed from the keyboard, the line will be drawn out in the selected direction for the specified distance. This technique for specifying coordinates, in this case a polar coordinate (distance entered directly, and angle taken from angle of the rubber band line) is called Direct Distance Entry.

Note KeySIGN uses different linetypes to implement different rules from TSM Chapter 7. To ensure that the correct linetype is used when drawing map symbols for example, a

- 32 - warning will be given when using this command. See paragraph 3.7.1 Some Basic Prin- ciples for more information.

2.4.7 The Polyline Command: PLINE

Select the command from either the ‘Draw’ pull-down menu, or from the toolbar icon shown above. Choose a starting point on the screen and press the PICK button. Draw a straight line by moving the crosshairs to another point and press the PICK button in the same way as the LINE command above. If you wish to draw an arc enter ‘A’ in response to the request for “Endpoint of line”. Arcs will then be drawn tangential to the previous line and passing through the next selected point. To return to straight line respond with an ‘L’ and ENTER to the request for “Endpoint”.

You can also draw arcs which are not tangential to the previous line by responding with ‘S’ (for Second point) and ENTER. An arc will then be drawn through the end of the pre- vious line, the second point and the next point PICKED. The sequence is once again ended by pressing ENTER in response to ‘Endpoint”.

Note KeySIGN uses different linetypes to implement different rules from TSM Chapter 7. To ensure that the correct linetype is used when drawing map symbols for example, a warning will be given when using this command. See paragraph 3.7.1 Some Basic Prin- ciples for more information.

2.4.8 The Arc Command: ARC

- 33 - Select the command from either the ‘Draw’ pull-down menu, or from the toolbar icon shown above. Choose a starting point on the screen and press the PICK button. Select two subsequent points to complete the arc in the default way that these are drawn.

A very useful tip for drawing map type symbols, to achieve an arc tangential to a line seg- ment, is to press ENTER after drawing a line instead of picking a first point on-screen. The point given by pressing ENTER in response to the ‘Specify start point of arc’ prompt will be the end of the previously drawn line, and the arc then drawn will be tangential to the line.

Arcs can also been drawn in a number of other ways, depending on options chosen dur- ing the command. The choice of these options can be automated by selecting the required command from the ‘Draw > Arc’ pull-down sub-menu, for example by specifying a start and end point, and then centre for the arc.

Note KeySIGN uses different linetypes to implement different rules from TSM Chapter 7. To ensure that the correct linetype is used when drawing map symbols for example, a warning will be given when using this command. See paragraph 3.7.1 Some Basic Prin- ciples for more information.

2.4.9 The Move Command: MOVE

Object(s) can be repositioned in the drawing using the MOVE command. Select the com- mand from either the ‘Modify’ pull-down menu, or from the toolbar icon shown above. You are asked to ‘Select objects’ that are to be moved in the drawing, and you will notice that a small square (the Pickbox) has replaced the screen crosshairs at the mouse cursor position.

- 34 - Move the square pickbox until it is over an object such as a line on the drawing and press the PICK button. The line will change to a dotted one to signify that the line has been selected. AutoCAD also reports the selection of the object on the command line, and the total number of objects currently selected. If the line forms part of a block or poly- line, the whole of it will become dotted. Always press ENTER to complete the object selection process.

Note that where a number of lines need moving, you can either pick each line as above or use a window by responding with a ‘W’ for window or ‘C’ for crossing, to the request ‘Select objects’. Only lines and blocks wholly within the solid edged window will be selected. Whereas objects within and crossing the dotted edged 'C' window will be selec- ted.

You are now asked to specify a ‘Base point’. This is just a reference point used to determine the starting point of the movement. The second point requested specifies the finishing point of the move. Use the mouse PICK button to carry out this sequence. You will see that the items selected have moved by the specified displacement between the first and the second points selected. Note that this displacement can also be specified using Direct Distance Entry (see the LINE command for information about this in para- graph 2.4.6 The Line Command: LINE).

Should you wish to reverse the move just carried out, enter ‘U’ at the command line to Undo the move, or select the Undo icon.

2.4.10 The Copy Command: COPY

- 35 - You may wish to copy certain details of the drawing from one part to another without eras- ing the original. This can be done using the COPY command. It works in a similar way to MOVE. The main difference is that instead of objects moving to the new location they are copied to the new location. In addition, if you respond with an ‘M’ to the request ‘Specify base point or displacement:’, you will be able to make multiple copies of the objects selected to a number of different points in the drawing (this is the default behaviour in AutoCAD R2005 or later, but a Multiple option will need to be selected for multiple cop- ies in earlier versions). See the MOVE command above for more information about this command.

- 36 - Chapter 3 – Overview of Sign Design with KeySIGN

The facilities available are described in general terms in this chapter, in detail in the next chapter, and in operation in the hands-on example tutorials.

3.1 Design Methodology

The individual elements of the signs are assembled using a range of text and symbol commands. These can be positioned using the editing commands to achieve for example left or central alignment or spaced using automatic functions. Route text may need to be included in a patch border and some groups of these sign elements, des- tination blocks etc will need to be enclosed in panel borders. When all the parts of a sign or section of a multi-stack sign are arranged, sign border drawing routines complete the design and allow the finished design to be dimensioned.

3.2 The GRID Drawing Aid Used for Sign Design

KeySIGN displays a Grid of dots on the graphics screen, set at a spacing of four units. Each unit, the drawing unit, equates to one stroke width (s/w), which is the basic unit used in traffic sign design. Sign face items should be visually aligned with this grid as an aid to correct placement, although much of object alignment and spacing is handled by way of the KeySIGN and AutoCAD commands. After commands have been used to place objects, correct alignment can often be checked visually by reference to the Grid.

Figure 3.1 – The AutoCAD Status Bar

- 37 - 3.3 The SNAP Drawing Aid Used for Sign Design

KeySIGN uses a drawing aid called the Snap setting. This is set-up to constrain the movement of the crosshairs across the screen to ½ stroke width (s/w) intervals. Hold down the CTRL key then each press of the cursor key moves the crosshair ½ s/w. Eight presses of the cursor right key moves the crosshairs 4 s/w to the right, i.e. the same dis- tance as the Grid dot spacing.

Pressing the F9 function key or clicking the SNAP button on the status bar, switches this setting on and off. In the off position the movement of the crosshairs by cursor keys is not constrained.

3.4 Command Selection

Commands can be started by selecting items on various kinds of menu system. In prac- tice many will select commands from a range of places, some from the toolbars, some from the pull-down menus, and some commands started by typing their name or shortened alias. All available commands are shown on the pull-down menus, and many, more commonly used commands are available in an array of toolbars, some shown under a toolbar flyout.

Generally, however, the toolbar items will be used as the main method to select com- mands. The mouse pointer is placed over the appropriate button on the tool bar and the PICK button pressed. The presence of a toolbar flyout is indicated by a small black tri- angle at the bottom right hand corner of the toolbar icon. Press and hold the left mouse button for a moment to indicate that AutoCAD should show the flyout. The flyout will show a range of commands related to the top item. Release the left mouse button when over the required icon. Toolbar flyouts are provided as full toolbars in their own right should these be required.

- 38 - The third alternative for command selection is to type in the appropriate word on the key- board and then ENTER. There are a range of default command aliases for many KeySIGN and AutoCAD commands, for example ‘L’ for the LINE command, or ‘HV’ for the HEAVY Transport Font text command. You will probably find that you use a com- bination of all methods of selection as you become familiar with the system.

Many of the commands have a default response. This is identified within the < > brack- ets. When options are shown with a default in <> brackets, a press of the ENTER key selects (accepts) the default value.

3.5 KeySIGN Text

3.5.1 Transport Fonts

Figure 3.2 – The KeySIGN Text Command Toolbar

AutoCAD is supplied with a set of standard text fonts, but for the purposes of KeySIGN a new set has been designed, based on the Department for Transport fonts Heavy, Medium and Motorway.

Please note that any Transport True Type fonts (ttf files) supplied with KeySIGN are dia- grammatic only. They are not accurate enough for sign creation, hence why KeySIGN uses its own lettering with the ‘Medium’ and ‘Heavy’ commands.

- 39 - In previous versions of KeySIGN much use was made of the AutoCAD text styles and their font property. However new from version 18, all the transport text have been replaced by a special improved object, which can display the text in numerous ways to suit your requirements.

The KeySIGN transport can be displayed in three different ways. Simple (design font), Outline (real letters but unfilled) and thirdly Real (fully coloured letters). In each of three representations of the text, the characters can be shown within tile corner marks or the whole word can be shown within a dotted box like Chapter 7 of the Traffic Signs Manual. The different font displays are shown in Figure 3.3 – Different Transport Font Dis- plays.

The tile marks (in cyan) and/or the Chapter 7 box (in dotted black) can be turned on or off in any combination with any of the three text display representations.

Figure 3.3 – Different Transport Font Displays

When signs are plotted out at a fairly small scale, for example on location plans, the tile marks spoil the appearance of the drawing and often render the destinations etc unread- able. This also affects the Outline display. It is therefore useful to be able occasionally to show a ‘clean’ view. This is achieved by selecting the Simple representation from the text toolbar or entering SIMPLEREP at the command prompt. These commands can also be found on the ‘KeySIGN > Other Text’ pull-down sub-menu.

- 40 - See paragraph 4.1.5 Changing the Appearance of Sign Text: DOTON, DOTOFF and DUPLEX for further information and refer also to Chapter 8 – Real Text on Real Text for other ways of dealing with text display.

Note Even though AutoCAD is not able to accommodate the kerning rules, the KeySIGN text object apply kerning exactly. These specify alternate spacing between the capitals T, V or Y when followed by a lower case a, e, g, r or u; and when an upper case W is fol- lowed by an upper case T, V, X, Y or Z. KeySIGN also accommodates the kerning rules, in the SBOX (paragraph 4.4.1 ‘Shrink-to-fit’ Construction Boxes: SBOX ) and the UKCMARKS (paragraph 4.1.9 Text Limits: UKCMARK ) commands.

Text is normally drawn at a default height of 8.0 drawing units i.e. 8 stroke widths (this is 2 times x-height). For mixed x-height signs, the text commands HEAVY, MEDIUM, MWAY and MBAY provide an option to enter different heights. Adjustments can also be made at a later stage. Text is typed line by line on the keyboard as normal, i.e. in the same manner as the AutoCAD DTEXT command.

- 41 - Figure 3.4 – Keyboard Mapping for Special Keys and Spaces

Several keys on the keyboard are ‘mapped’ to characters not available on the keyboard such as fractions. Spaces in text are normally proportioned to the text especially with fully justified text such as in this paragraph. However, in sign design a space can only be one of a small number of different specific tile widths. The space bar is used for the stand- ard 2.5 s/w space (4 s/w in the case of motorway fonts); the’|’ key (Shift + ‘\’) enters a single s/w space, the '<' key (Shift + ',') enters a ½ s/w space and the ’^’ key (Shift + ‘6’) enters a 7 s/w space. Press ENTER when the text line is completed. Figure 3.4 – Key- board Mapping for Special Keys and Spaces shows the special key mapping. This can be viewed in AutoCAD when no command is running by selecting the appropriate item on the ‘Sign Help’ pull-down menu.

3.5.2 Drawing Transport Font text

- 42 - The two main Transport fonts can be drawn using commands of the same name most easily selected from the main KeySIGN toolbar. The HEAVY and MEDIUM text com- mands closely mimic the standard AutoCAD DTEXT command. When placing text, this should ideally be lined up with the Grid. In order to differentiate between the subtly dif- ferent HEAVY and MEDIUM fonts, on the screen, heavy text appears in a magenta col- our. When plotted out the text can appear black, if the plotter/printer is set up to achieve this. However, it should be remembered that the manufacturer will also benefit from this font differentiation, in order to reduce manufacturing mistakes.

Access to other text styles may be required when producing titles for drawings etc. Three of these, Simplex, Complex and Bold are provided on the ‘KeySIGN > Other Text’ pull- down menu. More detailed information about text can be found in the AutoCAD manual.

3.5.3 Mixed X-height Signs

It may be necessary to use two sizes of text on the same sign. Note the default text height of 8.0 s/w (drawing units) should be used for all but supplementary text such as ‘avoiding low bridge’. Supplementary text is scaled to 80% of the main x-height (TSM Ch7, Figure 4-15, page 39).

ONLY where there is more than one size of text on a sign will there be a need to change the size of any from 8 units high.

When drawing Transport Font text using either the HEAVY or MEDIUM text commands, an option is presented to allow a change to the current text height. So if creating sup- plementary text that is normally 80% of the main x-height choose the ‘H’ option, and enter either the percentage value of the actual absolute value (6.4 for 80% high text). Text already drawn can also be scaled down using the standard AutoCAD SCALE com- mand.

- 43 - Since the relationship of x-height to stroke widths is based on the tile height of 8 s/w, the main x-height of a sign will be that to be used for the un-scaled text at 8 s/w tile height and not that of the 80% high text.

Note it can be seen also that if the main x-height text is scaled up to 10 s/w thus pre- serving the 80% relationship with the supplementary text, the sign would be deemed to be based on that for the supplementary text i.e. the ‘main’ x-height would be the smaller of the two. On the face of it, this approach would seem to be equally valid, however it is incorrect and will result in incorrect border spacings and widths.

3.6 Inserting Symbols and Arrows: SYMBOL, ARROW

Symbols are mostly positioned automatically by reference to a selected set of objects, for example arrows are inserted adjacent to destinations, with the correct spatial rela- tionship, by selecting the destination text.

If symbols have to be moved or copied to a new location, this can be done using the sym- bol’s insertion point. The insertion point for most symbols is the correct horizontal dis- placement from the symbol (usually 2.5 s/w) and is 0.5 s/w below the symbol’s centre line. As such, placement of the symbol along the centre line

- 44 - Figure 3.5 – The Symbol Insertion Dialog

of the text tiles has the correct result of centring the symbol on the text within the tiles (see TSM Chapter 7, Figure 3-9, page 20). Thus any symbol can be moved from its inser- tion point so that this lines up with the right (or left) hand tile marks of a destination and midway between the upper and lower tile marks of the destination.

3.6.1 Inserting Symbols: SYMBOL

- 45 - The SYMBOL command can be typed at the keyboard if the symbol reference is known. It is more common, however, that the command will be initiated by selecting a symbol from a pull-down, icon or thumbnail image menu. For many symbols a dialog box appears, shown in Figure 3.5 – The Symbol Insertion Dialog allowing the selection of the symbol colour. This is usually specified in relation to the sign class OR on rare occa- sions by directly selecting the symbol colour. For example the ferry symbols are either black with white vehicles for non-primary signs, or white with black vehicles for dark background signs and panels.

The dialog also requests the sign direction. For many symbols this is the only inform- ation required as only one symbol colour is available, for example with tourist symbols. When the symbol is to be used on a sign indicating the straight ahead direction, this is regarded as making a left ‘pointing’ sign, unless in exceptional cases the straight ahead arrow is placed on the right of the destination text. Most symbols are placed on the opposite side of the arrow, i.e. on the right of the destination for left turns. Exceptions to this are parking and airport symbols which are always placed on the left and right of the destination name respectively. The airport symbol is also rotated to point the same was as the direction arrow; or due ‘east’ or ‘west’ on flag signs.

Also specified on the symbol insertion dialog is the placement position with respect to the destination text. For lorry routes where the lorry symbol is typically placed centred beneath the text, choose the options ‘Centred below text’. Final placement of symbols is done by selecting objects or a point on screen at which point the symbol will be drawn.

3.6.2 Inserting Arrows: ARROW

- 46 - The ARROW command can be typed at the keyboard if the arrow reference is known. It is more common, however, that the command will be initiated by selecting an arrow from a pull-down, icon or thumbnail image menu.

Arrows are inserted using any of the menu items, for example from the Arrows Toolbar (or flyout on the main KeySIGN toolbar), or from the pull-down sub-menu ‘KeySIGN > Arrows’. See the ARROW command covered in detail in paragraph 4.7.1 Inserting Dir- ection Arrows: ARROW, ARROWS.

3.7 Drawing Map Type Signs

3.7.1 Some Basic Principles

Map type signs of any type can be drawn very easily within the AutoCAD/KeySIGN envir- onment. Whilst there are very many routines available from KeySIGN to assist with the drawing of road symbols often returning to simple 2D drafting techniques will prove use- ful. Automating the drawing of map layouts to too high a degree can be restrictive for the designer. The flexibility of AutoCAD completely frees the designer.

Figure 3.6 – The LINE, ARC and PLINE Commands Redefined

Note some spacing rules are unique to Map symbols, and KeySIGN implements these by using a special linetype to draw them. You will see that when any KeySIGN routine,

- 47 - function or block is used or drawn that the linetype called ASIGNMAP is used by default. However, when designing using standard AutoCAD commands, the user must remem- ber to set the ASIGNMAP linetype before drawing. This property can be changed at a later stage, but this must be done before the sign borders are drawn. This important rule is further stressed through a redefinition of the standard AutoCAD commands. When either of the LINE, ARC or PLINE commands is used, the warning message in Figure 3.6 – The LINE, ARC and PLINE Commands Redefined is shown. This warning can be disabled by placing a tick in the box labelled ‘Don’t show this to me again’.

Whether map symbols are drawn with KeySIGN or AutoCAD commands or a mixture, one rule is worth remembering. For example, on a right-turn sign such as that shown in TSM Chapter 7, Figure 5-3, page 42, an increased gap of 4 s/w (1.5 added to the normal 2.5) is required to the sign border. In the case of the XROADS command a small section of red line, on the NOGO layer is created which KeySIGN picks up when calculating the extents of the contents of the sign, and these small lines need to be included in the selec- tion of objects to be included in a sign border. Thus it is important that these short lines do not become out of position with respect to the map symbol. If any map symbol is to be moved in a drawing, ensure that all the construction lines are also moved. In addition, when map symbols are drawn manually a similar small section of line 1.5 s/w from the symbol should be included.

KeySIGN provides several map type symbol toolbars, but it may be preferred to use only the ‘Map Signs (all)’ toolbar when this kind of sign is repeatedly drawn.

Figure 3.7 – The Map Signs (all) Toolbar

- 48 - 3.8 Drawing Borders

After the various contents of a sign have been assembled together, it is a small matter to add a shrink-to-fit border to these. Most of the border drawing commands require the sign contents to be selected and this is normally done by way of clicking two corners of a rect- angle (selection window) surrounding the objects. See paragraph 2.4.2 Command Selection for more information about object selection. When KeySIGN has calculated the extents of the selected objects a border with the appropriate widths and spacings from the contents will be drawn. After the border has been completed the sign detail dia- log may (optionally) appear.

Note these dimensions are always based on text at 8 s/w high which should always be the main x-height.

If a change needs to be made to the design, it will be necessary to erase and redraw the border after the change has been made.

3.9 Detailing the Finished Designs

When a sign design is complete it is usually required that some detailed information be placed with the design. This can include the x-height and colours used in the sign, its overall area and material etc. This process is handled by the DDETAIL command, which can be accessed after any sign border is completed. See paragraph 4.7.7 Adding Detail to the Completed Signs: DDETAIL for information about the DDETAIL com- mand.

- 49 - A user base sign detail block or drawing frame can be used in place of the standard ‘Detail’ sign detail block. It will be worth basing any user based block on the supplied file Frame4.dwg, which should be found in the installed folder. This drawing contains the necessary block attributes, with the correct attributes Tags to make this work correctly. See the AutoCAD manual for more information about block definitions and attributes. All but one of the properties of the attribute definitions found in Frame4.dwg can be changed, but the attribute Tags must remain the same as these identify the correct place for each piece of information.

- 50 - Chapter 4 – Detailed Command Reference

4.1 Text Commands

4.1.1 Transport Font Text: HEAVY, MEDIUM, MWAY and MBAY

These commands are used to create destination, route, distance etc text. See the gen- eral discussion about transport fonts in paragraph 3.5.1 Transport Fonts. They allow any item of text to be created, however, much of the text placed on signs will be created using other commands such as DESTINATIONBLOCK, ROUTE, MILES etc. These largely supersede the HEAVY, MEDIUM etc commands and will implement borders, spa- cing rules and so on, within each command procedure.

These text commands closely mimic the standard AutoCAD DTEXT command. When placing text, this should ideally be lined up with the Grid to allow a visual check of align- ments when the design is complete. In order to differentiate between the subtly different Heavy and Medium fonts, on the screen, Heavy and Motorway Black (temporary signs) text appears in (by default) a magenta colour Note this colour can be configured so may vary.

Start the command from the main KeySIGN toolbar, or from the ‘KeySIGN > Other Text’ pull-down menu items. You will be asked to pick a start point for the text in the drawing as well as a number of options:

Command: or [Cen- ter/BLeft/BRight/TLeft/TRight/MLeft/MRight/Height/Rotation]:

- 51 - The default justification option is bottom left, i.e. that the point selected in the drawing will be the lower left corner of the text. Unlike the DTEXT command you will not then be prompted for the height and rotation for the text. This is assumed to be 8 and 0 respect- ively. If another height or rotation is required this can be defined by accessing the options in the normal way, by typing the letters that are capitalised in the list of options. If choosing a different height, this can be done by an absolute value of drawing units, or by way of a percentage of the default height. For example on TSRGD sign diagram number 2108 the ‘supplementary’ text is scaled to 80% of the main x-height text. See paragraph 2.4.2 Command Selection for an example command dialogue.

As each line of text is typed, pressing ENTER allows additional lines of text to be typed. Additional lines will appear directly below previous lines, with a zero vertical spacing gap. This is appropriate for example when a destination is split onto two lines (in this case using the centre justification option). A different starting point can be selected on screen for successive lines of text if these should be separated on the sign. To finish the text commands, press ENTER twice. To achieve correct block spacing use the BLOCKSPACING command.

Sometimes it may be necessary to centre one destination above another, or to right jus- tify a route with respect to a destination. This can be done by choosing the appropriate justification option at the beginning of the text commands. For example typing ’C’ for centre in response to “Starting Point...” the point selected will be used for a centre point for the text typed. Lines typed with a justification option will be justified at the end of the command.

To end the command when all text has been entered simply press ENTER twice. The first ENTER is taken as a prompt for a new line of text below the preceding line, the second ENTER (no further text entered) is taken as a cue that no further text is required.

- 52 - 4.1.2 Destination Block: DESTINATIONBLOCK

This command is used to create complete destination blocks. In TSM Chapter 7, para- graph 3.22, page 21, a destination block is described as ‘a place name and its asso- ciated route number’. This can take several different forms and layouts, and may or may not actually include a route number. The DESTINATIONBLOCK command provides a ‘one-stop’ method to create these, and automates the choice of transport font and colour, whether a route patch is required, and any spacing rules.

First choose the class of route on which the sign will be sited, e.g. if on a Primary route the sign will be of class Primary. Next the destination(s) can be entered, and the route used to access these. On occasion it will be necessary to specify that the actual route itself is to be shown on a direction sign as a destination. In this case simply check (ensure a tick is shown in) the check box labelled ‘Route is Destination’.

The command will also examine the route text to determine the class of route entered. If this contains the letter ‘M’ the Route class choice will be changed to motorway; if ‘B’ to Non-primary; and if ‘A’ it will be change from Motorway. Note no change will be made if the existing choice is shown as primary or non-primary (A roads are not necessarily primary routes). Depending on the choice of route and sign/panel class the dialog should show whether a route patch is required and whether a border is appropriate (i.e. on dark background signs).

Normally the route object(s) will be placed to the right of the destination text, but the optional arrangement, which may reduce the width of a sign is to place the route below the destination(s) can be accommodated. If this is required, simply choose the appro- priate position for the route with respect to (w.r.t) the destination. If more than one des- tination is entered, and the route adjacent to (the right of) the destination, this will be

- 53 - centred on the destinations. When three destinations are entered, the route text should be placed below these. This avoids any potential confusion that a route centred on three destinations is the route only for the central destination. The choice for placement will be adjusted automatically when three destinations are entered.

Figure 4.1 – The Destination Block Command Dialog

When the required destination(s) and route have been entered, click the draw button to choose a position for the text items in the drawing. The point selected will be used for the lower left corner of the first destination. The ‘Group items’ option will apply only to the route and its patch border(s). After the text is drawn, the dialog will reappear, allowing

- 54 - multiple destination blocks to be created, each below or above the preceding one. Press ‘Finish’ to complete the command.

4.1.3 Drawing Routes and Route Patches: ROUTE

This command, also found on the ‘KeySIGN > Other Text > Route’ pull-down menu, brings up the dialog box shown in Figure 4.2 – The Route Dialog, in which all aspects of routes on signs are controlled.

The ROUTE command is a simple ‘one-stop’ means to create route numbers and takes away the need to know which transport font is appropriate, whether a route patch is required, and the precise spacing rules.

- 55 - Figure 4.2 – The Route Dialog

Enter the route in the box at the top of the dialog. This can be entered as simply as a13 for example, or m69. The dialog examines the entry and processes it accordingly. It will ensure that the text entered is capitalised, contains a one stroke width gap character ‘|’ and has brackets if appropriate i.e. for a motorway route on a primary route sign (the motorway can be reached via the route shown).

The command will also examine the route text to determine the class of route entered. If this contains the letter ‘M’ the Route class choice will be changed to motorway; if ‘B’ to Non-primary; and if ‘A’ it will be change from Motorway. Note no change will be made if the existing choice is shown as primary or non-primary (A roads are not necessarily primary routes). Depending on the choice of route and sign/panel class the dialog

- 56 - should show whether a route patch is required and whether a border is appropriate (i.e. on dark background signs).

If the sign or panel class shown is not as required, select the appropriate one. Depend- ing on the choice selected, the dialog should again show whether a route patch is required, and whether this will need a border.

An optional arrangement which may reduce the width of a sign is to place the route below the destination(s). If this is required, simply choose the appropriate position for the route with respect to the destination. If more than one destination is reached via a route, when placed adjacent (to the right of) the destination, the text will be centred on the des- tinations. When three destinations are entered, the route text should be placed below these. This avoids any potential confusion that a route centred on three destinations is the route only for the central destination. The choice for placement will be adjusted auto- matically when three destinations are entered.

- 57 - Figure 4.3 – Route Cancelled Slashes

When the required route and options have been selected, click the OK button to choose a position for the route text in the drawing. This is done by selecting destinations. Altern- atively, press enter to select a position in the drawing not associated with a destination. The point selected will be used for the lower left corner of the route.

The ‘Group items’ option applies to the route when it is drawn in a patch and makes selection of the route items a little easier. Group selection can be disabled. See the AutoCAD manual for more information on the PICKSTYLE setting. KeySIGN provides a means to control this setting also by way of a simple command on the ‘Sign Utils > Selec- tion > Enable group selection’ pull-down menu.

4.1.4 Route Cancelled Slash: RTCANCEL

Also available on the 'KeySIGN > Other Text > Route cancelled slash' pull-down menu, this routine generates a route cancelled slash (TSM Ch7 2003, page 99, 11.1 to 11.3, required in situations when a road has been renumbered.

To place a route cancelled slash, simply select a single (route) text object. Only one item is expected as there are no specified rules to apply a slash to a patched route. This means that selection of the item cannot be done by way of a window or crossing box. As soon as the text item has been selected, a red bar will be immediately drawn over the route text. This consists of two elements, a surrounding border placed on layer ‘Outer_ Border’ and a coloured fill (solid hatch) is placed on the ‘Redfil’ layer.

- 58 - 4.1.5 Changing the Appearance of Sign Text: DOTON, DOTOFF and DUPLEX

There are three ways of displaying the transport text in a sign.

These commands can also be typed at the Command line, selected from the pull- downs menus or toolbar icons.

SIMPLEREP – should be used for most design activities.

OUTLINEDREP – used for cutting actual signs and outline type of sign drawings.

REALREP – used for fully colour text and sign faces.

An example of the different displays is shown in the Figure below. The commands also modify layer settings to suit the purpose for which each font display was intended.

In previous versions all text had to be one font throughout a drawing, now a new feature introduced from version 18 enables individual text items to be switched about between the three different text representations. This enables some signs to be shown one way whilst other shown another way. The Simplerep, Outlinedrep & Realrep commands ask for the text to be selected and then change just those selected items.

- 59 - Figure 4.4 – Different Font Displays

Each of the three text displays can have the tile marks or a chapter 7 box added or turned off individually. This can be done through the ‘edit text’ dialog, by double clicking a text object.

Figure 4.5 – The edit text dialog

- 60 - Figure 4.6 – Different Font Displays with tile marks

4.1.6 Initial Text Settings: KTS_TEXTREPRESENTATIONSETTINGS

This command allows you to have the transport text just the way you like it. With all the different combinations and options in the way text is displayed then different users have different preferences for the display of their transport text. In order that you don’t need to keep changing text after it is drawn, this command allows you to pre-set the default way any text is created from the Medium, Heavy, DestinationBlock, etc. commands.

- 61 - Figure 4.7 – Default text representations dialog

There are three sections of defaults you can choose within this command.

The first part allows you to say all text created will be Simple, Outlined or Real depend- ing on your preference.

The second part allows you to say ‘if simple then display the tile marks’, ‘if real then dis- play the chapter 7 boxes’, etc. Then whenever the representation is changed or new text is added the display of the representation can be pre-set.

The third part is an option for the Medium & Heavy buttons. Rather than have these but- ton mimic the AutoCAD dtext command then it is possible to set this to ‘dialog’ which will open the ‘edit text’ dialog to create transport text where you can type the destination into the dialog and it will appear on the screen as you type. This would allow you to alter the representation and display as you type the destination.

If you alter these settings then you can ‘save’ these new defaults which will save the defaults for next time, or if you just want to alter them for the current drawing session these use the ‘set for session’ button.

- 62 - 4.1.7 Distance Text: MILES

This command invites you to specify the various mileages required and creates them with the appropriate 7 s/w separations indicated with a red construction line. There are two sets of rules for laying distance text out dependent on the number of distances 10 miles or greater (in double figures). Where there is one or no distances in double figures, the distances are centred on the units column (TSM Ch. 7 2003, paragraph 4.15, page 35, Figure 4-11 diagram 2103). Otherwise the fractions, units, tens and hundreds are centred in columns respectively (TSM Ch. 7 2003, paragraph. 3.32, page 26, Figures 3- 22 and 23).

Figure 4.8 – Mileage Layout

To lay distances out automatically select this command from the toolbar or ‘KeySIGN > Other Text > Mileages’ pull-down menu. You will be prompted to enter one or more dis-

- 63 - tances (top down). To finish entering distances press ENTER to choose the Transport font that they will be drawn out in.

Select a position at the end of the longest destination (it is helpful here for accuracy to use an object snap such as end point in combination with either text corner marks or a construction box). The distances will be laid out and a construction line shown 7 s/w away from the distance text. After the text is drawn it can be selected and moved so that the minimum gap of 7 s/w, measured between the distance and the place name on the same line, on the line immediately above or on the line immediately below each is main- tained.

4.1.8 Conversion of Text to REAL TEXT: Various Commands

RTL, RTEXT_SELECT, RTEXT_GLOBAL, RTEXT_TYPE, REVERSERTEXT

These routines convert the AutoCAD based font characters to individual character blocks which are accurate for manufacturing purposes and for producing fully coloured signs. See Chapter 8 – Real Text for more details.

4.1.9 Text Limits: UKCMARK

This routine allows the user to highlight the corners of a line of legend with tile corner marks which will remain after the DOTOFF routine has been used. You are prompted to select the items of text to which the corner marks will be applied. A choice is also given as to whether this should be done globally to all the Transport font text in the drawing. When the required text has been selected press ENTER and the corner marks will then

- 64 - automatically appear. If kerning rules apply the tile corners of the text limits are adjusted accordingly and therefore may not match the visible tile corners of the DOTON text.

The UKCMARK command allows the manual positioning of text by reference to the corners of a text object using AutoCAD object snaps. However, the command has been superseded by the SBOX command and the alignment tools for this purpose.

4.1.10 Adding Tile Marks to Any Sign Elements: CMARKBOX

In a way similar to the UKCMARK command, it is possible to place the cyan tile corner marks around any selected sign element(s). This can be done on newly created custom symbols unique to a specific authority, for example the symbol for the new Wembley Sta- dium. When a custom symbol is used in KeySIGN it should ideally be drawn with corner marks as other symbols, on a layer called TILE with the colour property BYLAYER. These can be drawn automatically using this command. At the end of the command, the size (rectangular extents) of the selected objects is reported.

4.1.11 Primary and Regional Destinations: DESTINATIONS

This dialog based routine shown below, is only accessible from the pull-down menu. It provides the list of DfT approved destinations allowed in each county, and the main regional destinations for example The NORTH, The MIDLANDS or SCOTLAND.

Choose a country/region category, followed by a county (if available) and finally a primary destination. Ensure that the destination text will be created in the appropriate

- 65 - Transport font, heavy or medium. Click the OK button to select a position for the bottom left corner of the destination text in the drawing. If the Heavy font is selected this will be drawn in the colour configured for Heavy text.

Figure 4.9 – Primary Destinations Dialog

4.2 Bilingual Signing in Wales

4.2.1 WELSH, WELSHACCENT, WELSHBRACKETS (for Bilingual Route), MULTIROUTEPATCH and LOADWELSHMENU

These routines can be accessed from the ‘KeySIGN > Other Text > Welsh’ pull-down menu (NB that the Welsh pull-down menu can be placed on the main pull-down menu bar using the LOADWELSHMENU command at the bottom of this menu). They are

- 66 - specific to rules that are varied from Chapter 7 for the purposes of bilingual signing in Wales.

The bilingual place name command, WELSH presents a list of destinations in Wales which have either an English alternative or the same name in both Welsh and English. Select the English name and the alternative Welsh one is displayed. If both names are required they can be inserted at a selected point on the screen.

The appropriate accents can be applied to selected text using the WELSHACCENT com- mand. First select the required accent from the dialog shown, the select the text to which the accent is to be applied. See Figure 4.11 – Adding Accents to Welsh Text for the command dialogs. KeySIGN will then show a list format dialog from which the letter requiring the accent can be selected. This will then be placed as an AutoCAD block above the letter. Note that these blocks include a fill, which may or may not be required, and may or may not be visible. Visibility of colour fills can be altered using the BFIL com- mand.

Figure 4.10 – Welsh Place Name Gazetteer

- 67 - English and Welsh equivalents of the compass points, associated with bilingual route numbers, can be incorporated in a single set of large brackets. The WELSHBRACKETS command is used for this, and application of the brackets is effected by way of selecting the text to which they are required. Again, note that the bracket blocks include a fill, which may or may not be required, and may or may not be visible. Visibility of colour fills can be altered using the BFIL command.

Figure 4.11 – Adding Accents to Welsh Text

A special route patch can incorporate the route numbers with the large bracketed inform- ation. The normal PATCH command expects only a single object to be selected for the patch so MULTIROUTEPATCH command allows the selection of the various objects required for a dual language route which incorporates a direction as in the example below. Simply select the objects required for the patch and press ENTER to finish select- ing. The command follows on from there as for the normal PATCH command. A colour choice dialog is shown in which the requirement for a border (patch on dark background sign i.e. motorway route on a primary sign) can be specified.

- 68 - Figure 4.12 – Bilingual Route Patch

4.3 Map Symbol Drawing Commands

Figure 4.13 – The Map Signs Toolbars

These routines allow various map symbols for junctions to be created. They are drawn with an outline that will plot black (on white paper), with a red border which represents the minimum separation between the map symbol and any object placed along side them. In other words the red ‘NOGO’ lines indicate a no-go area. These red lines are held on a separate layer called ‘NOGO’ which can be toggled on or off, independently of other object’s layers. If the NOGO lines are not visible the NOGO layer will need to be switched on to ensure that objects are not placed too near to any map symbol. See the NOGO command for information about how to toggle the visibility of this layer.

- 69 - Note KeySIGN uses a specific linetype to determine the appropriate border spacing. If drawing map type symbols manually ensure that these are drawn with the ASIGNMAP linetype.

4.3.1 Standard Round Roundabout

Insert the symbol at a point selected in the drawing. This should be shown with its sur- rounding NOGO line indicating the minimum separation from the roundabout to any object placed near it. If it is not already showing, when the symbol has been placed in the drawing, the map toolbar should be shown. As with many of these basic symbols the actual geography of the junction will be built up using additional commands such as ENTRYARM, EXITARM and STUB.

4.3.2 Oval Roundabouts

The procedure for Oval roundabouts is very similar to that for circular ones apart from some initial adjustments to ensure that the cut out is correctly positioned in relation to the vertical. To see how this works pick the oval roundabout symbol and select a position in the drawing where it will be inserted. Rotate it, with the cursor, to a suitable alignment, for the layout of the junction. An automatic cut-out is now performed at the correct angle from the horizontal, if the roundabout is not rotated too far from the vertical. The rule shown in TSM Chapter 7, Figure 5-13, page 50 is followed. Once the cut out encroaches onto the parallel sides it ceases to function correctly and manual trimming and filleting (radius 1 s/w) may be required to finish the cut-out. When the cut-out is aligned along a straight edge, it is preferable to ensure that the gap is parallel.

- 70 - As with many of these basic symbols the actual geography of the junction will be built up using additional commands such as ENTRYARM, EXITARM and STUB.

4.3.3 Mini Roundabouts

Two sizes of mini roundabout and double mini roundabout are provided. The smaller one should NOT be used with primary route arms and the user is prevented from adding such arms. As with many of these basic symbols the actual geography of the junction will be built up using additional commands such as ENTRYARM, EXITARM and STUB.

4.3.4 Other Layouts

A small number of special junctions are available by picking this command as shown in the thumbnail image menu shown in Figure 4.14 – The Roundabout and Other Lay- outs Image Menu.

- 71 - Figure 4.14 – The Roundabout and Other Layouts Image Menu

4.3.5 Adding an Entry Arm to a Roundabout Symbol: ENTRYARM

This command presents the dialog shown in Figure 4.16 – The Entry Arm Width Selec- tion Dialog offering a choice of entry arm width. For Primary routes select the 6 s/w option, for numbered Non-primary routes select the 4 s/w option and for un-numbered local routes select the 2.5 s/w option. Once the appropriate width has been selected, select the outer circumference of the roundabout symbol. The entry arm will immediately be placed on the roundabout symbol at the bottom.

- 72 - 4.3.6 Adding an Exit Arm to a Roundabout Symbol: EXITARM

This command presents the dialog shown in Figure 4.16 – The Entry Arm Width Selec- tion Dialog offering a choice of exit arm width. For Primary routes select the 6 s/w option, for numbered Non-primary routes select the 4 s/w option and for un-numbered local routes select the 2.5 s/w option. Once the appropriate width has been selected, select the outer circumference of the roundabout symbol. It is then necessary to indicate the rotation of the exit arm which is done simply by moving the crosshairs around the roundabout as required. Select a point on-screen to finalise the angle. Don’t be tempted to press Enter as this will indicate the default angle which is to the east (right) of the sym- bol unless of course this is the required angle.

Figure 4.15 – A Straight Ahead Exit Arm on a Roundabout

The exit arm will look something like the one shown in Figure 4.15 – A Straight Ahead Exit Arm on a Roundabout leaving the junction straight ahead. It can be seen from the Figure that there are multiple NOGO lines. These indicate various rules which come into play depending on the destinations to be placed adjacent to the arm, and of course to the angle of the arm. See TSM Chapter 7, Figure 5-2, page 41 and Figure 5-4, page 42 for more information about the correct use of these red lines.

- 73 - 4.3.7 Adding a Stub Arm to a Roundabout Symbol: STUB

This command presents the dialog shown in Figure 4.16 – The Entry Arm Width Selec- tion Dialog offering a choice of stub arm width. For Primary routes select the 6 s/w option, for numbered Non-primary routes select the 4 s/w option and for un-numbered local routes select the 2.5 s/w option. Once the appropriate width has been selected, select the outer circumference of the roundabout symbol. It is then necessary to indicate the rotation of the stub arm which is done simply by moving the crosshairs around the roundabout as required. Select a point on-screen to finalise the angle. Don’t be tempted to press Enter as this will indicate the default angle which is to the east (right) of the sym- bol unless of course this is the required angle.

Figure 4.16 – The Entry Arm Width Selection Dialog

4.3.8 Adding a ‘Ghost’ Stub to a Roundabout Symbol: GHOSTSTUB

On signs similar to TSRGD Diagram 2010.1, adding exit arms as ghost stubs only, improves the clarity of the route being indicated to avoid a prohibition. This command fol- lows the same format for the STUB command excepting that there is no option for the

- 74 - width of the stub. For the other ‘T’ and crossroad junction stubs, insert the signs 2010.1 and 2010.2, or use the symbols available from the ’Other Layouts’ thumbnail image menu.

4.3.9 Inserting a Cul-de-sac Symbol on a Roundabout Exit Arm: CULDESAC

This command is used to place a cul-de-sac symbol on a roundabout exit arm. The com- mand prompts for the background of the sign, either dark or light. Then, as with the EXITARM command, select the outer circumference of the roundabout symbol and lastly, select a point on-screen to indicate the angle for the exit arm. On dark background signs the red bar will have an additional white border around it.

4.3.10 Implementing the ‘Two Thirds’ Rule on Horizontal Arms: ARM

This is a routine which will allow you to stretch automatically a horizontal exit arm of a map type sign so that its length is two thirds of the distance along the Destin- ation/Panel/Symbol combination below it. The rule is shown in TSM Ch 7, figure 5-2, Page 41. After picking the command ARM from the toolbar you are asked to select the objects below the arm, so that their extents and a two thirds point can be calculated. Alternatively, enter ‘p’ to pick the objects’ extents manually. With this option, the prompts ask for a point to be selected to indicate the inside edge of the destination etc, and then the outside edge of the destination etc. If the objects have been selected, it is necessary to specify which way the arm is facing. The routine will then automatically extend the arm for the required distance, two thirds along the elements below the arm. This routine is only designed for use on horizontal exit arms.

- 75 - Example command dialogue:

Command: Arm

Pick Tip of Arm: (point at tip of arm selected on-screen)

Select objects below exit arm or [Pick extents manually]: (objects selected on-screen)

Select objects: 3 found

Select objects: ↵

Direction of exit [Left/Right] : ↵

Command:

4.3.11 Anchoring Map Approach Arms Down to a Border: ENTRY

This command is designed for use on any junction ‘entry’ arm which should be stretched to a point 1.5 s/w above the bottom inner border. The routine should be used once the outer border of the sign has been drawn. You will be asked to "Select the mid point of the approach arm" (bottom edge) then the "Inner border at the Bottom of the sign". The entry arm is then stretched to a point the appropriate distance within the sign border.

4.3.12 Stretching Exit Arms at any Angle: ARMSTRETCH

Enables a non-horizontal arm to be stretched along the alignment of the arm. It is found

- 76 - on the ‘KeySIGN > Map Signs > Stretch any angle arm’ pull-down menu. The command requires a point on one side of the exit arm to be selected, followed by a point at the tip of the arm. A temporary polar snap angle is set-up allowing for a visual (dotted) guide line to be created whenever the cross hairs are lined up along the angle of the selected arm. To complete the stretch, select a point along the guide line.

Figure 4.17 – Signs on Junction Arms

4.3.13 Signs on Junction Arms: TRIARM, ROUNDARM

Where warning is required, of a hazard or regulation which is reached via a route leav- ing the junction, this is indicated by various signs inset into the appropriate leaving arm.

These routines allow such signs on arms to be drawn. You have to indicate the lightness of the sign background to ensure the appropriate additional white border is provided when dark background (Primary, Tourist and Motorway) signs are being designed.

Pick the triangular symbol for Warning signs and the Circular symbol for Regulatory signs from the toolbar or pull-down menu. A thumbnail image menu is presented

- 77 - showing all the signs authorised for use on map signs TSM Chapter 7, Appendix D, page 149). Click the sign required and then the "Insert" button. Select the arm size and click one of the light or dark background options. Yellow and white backgrounds are the only light colours.

Select the roundabout symbol and drag the direction of the route out, or pick a point on a map symbol, where the route of the arm is to be centred, then drag out the direction of the arm. Signs of the appropriate size, at the normal distance, with the correct gaps and borders (if needed) will be drawn. The outer section of the warning sign arm will have to be adjusted and some other manual adjustments (use STRETCH) may be required to ensure correct clearances, from adjacent elements of the sign, are maintained.

Circular signs are inserted without the need for further attention excepting where it is not appropriate to show a continuation of the exit arm beyond the sign e.g. No Entry round- els. However, the triangular signs require the use of TRIM and STRETCH to finish off the design. The exit arm stub should be a minimum length = width and the length of the continuation tips should be 1.5 x width.

WARNING remember to remove the tip of the arm when associated with a No Entry sign.

4.3.14 Cross Roads Map Symbols: XRDS

Selecting this routine opens the dialog shown in Figure 4.18 – The Crossroads Dialog. Select the appropriate size of arm for each leg of a cross roads. Selecting the "None" option will create a T junction. The "Draw" button invites you to pick the location for the centre of the map symbol.

- 78 - One rule is worth remembering. For example, on a right-turn sign such as that shown in TSM Chapter 7, Figure 5-3, page 42, an increased gap of 4 s/w (1.5 added to the normal 2.5) is required to the sign border. In the case of this XRDS command a small section of red line, on the NOGO layer, is created which KeySIGN picks up when calculating the extents of the contents of the sign. Thus it is important that these short lines do not become out of position with respect to the map symbol. If any map symbol is to be moved in a drawing, ensure that all the construction lines are also moved.

Figure 4.18 – The Crossroads Dialog

4.3.15 Road Bend Symbols: TITECURV, FASTCURV

These curved arms can be used as a basis for a non standard map sign. Within the inser- tion routine an option to specify bend to right or left is given and the appropriate symbol is displayed. It would normally be followed by use of the MAPARM routine.

- 79 - 4.3.16 Adding a destination arm: MAPARM

It may be necessary to add an additional arm to an existing map symbol for example as shown in Figure 4.19 – Adding a Destination Arm.

This routine invites you to select a point on an existing symbol where the route of the new arm is to be centred. Drag out the direction in which the arm should point then con- firm if the filleting at the base of the arm is correct. Joining the various elements and col- our filling the competed symbol can then be carried out with the MAPSYMBOLJOIN command (see paragraph 4.3.18 Colour Filling Map Symbols: MAPSYMBOLJOIN ).

Figure 4.19 – Adding a Destination Arm

4.3.17 Drawing Multi-way Junctions: MAPBUILD

- 80 - This routine allows you to create a non-roundabout junction such as that shown in Fig- ure 4.20 – Building Complex Crossroad Junctions.

Arms of specified sizes, at irregular angles can be selected. Note the arms are created in a clockwise direction following the initial insertion of the approach arm. The option to join and fill the map symbol is included in the routine. Arms can subsequently be stretched using the ARMSTRETCH command (see paragraph 4.3.12 Stretching Exit Arms at any Angle: ARMSTRETCH ). Note the fill will not be stretched so if further edit- ing of the drawn symbol is required, e.g. lengthening of any exit arm, or conversion to a stub arm choose the option not to fill the symbol when this is offered.

Figure 4.20 – Building Complex Crossroad Junctions

4.3.18 Colour Filling Map Symbols: MAPSYMBOLJOIN

The MAPSYMBOLJOIN command provides a routine that is used on the map type sym- bols used on ADS signs. It converts the individual lines that make up the map symbol into a continuous polyline by joining these. A black or white colour fill is then applied. This process is now built in to the BORDERFILLSIGN command (see paragraph 4.7.2 Colour Filling Signs: BORDERFILLSIGN).

- 81 - 4.3.19 Filleting Joints Between Manually Drawn Map Arms: FILLET1

When a situation arises, which requires two map arms to be joined, this should usually be done using a fillet (small curve) with a 1 s/w radius. This simple command can be used in place of the standard AutoCAD FILLET command, and will set the fillet radius to 1 automatically. See the AutoCAD help manual for more information about the FILLET command.

4.4 Alignment, Construction and Spacing Tools

4.4.1 ‘Shrink-to-fit’ Construction Boxes: SBOX

A construction box is created around selected entity or entities e.g. text symbols etc. The user can then use the box and its contents to centre either horizontally or vertically using the Object Snap MIDPOINT or ENDPOINT for an appropriate corner or side. The com- mand essentially replaces the UKCMARKS command for construction lines.

The construction lines created are placed on the NOGO layer in the linetype specified in the KeySIGN options dialog (see Chapter 10 – Customising KeySIGN ).

4.4.2 Showing the 1 s/w Rule Implemented in a Route: SPLITROUTE

To emphasise the need for a 1 s/w space between the letter and numbers of route text, and to ensure that the rule has been correctly implemented this command is designed to break route text into its two components. In addition, a construction box will be drawn around the two new elements of text, in the linetype defined in the KeySIGN options

- 82 - dialog (see Chapter 10 – Customising KeySIGN ). The default linetype ‘KeySIGNDot’ when applied using this command, will allow a display showing the 1 s/w gap between the numerals and character similar to that used for the same reason in TSM Chapter 7, for example in Figure 3-8, page 18, and also in Figure 4.21 – Vertical Block Spacing Examples below.

To use the command, simply select the route text to be split. If the route has not been cor- rectly drawn, a clear warning of this will be given. The command will then correct any mistake, split the route into two text items and draw the construction box (SBOX) around each.

Note if a correction has been made, it will be necessary to ensure that other elements of the sign do not need repositioning.

4.4.3 Destination Block Spacing Tool: BLOCKSPACING

This command is used to position destination blocks. In TSM Chapter 7, paragraph 3.22, page 21 a destination block is described as ‘a place name and its associated route num- ber’. This can take several different forms and layouts, and may or may not actually include a route number. It is important that the spacing between these is correctly achieved to give a consistent and clear layout. Once destination blocks have been cre- ated, perhaps by the DESTINATIONBLOCK command (see paragraph 4.1.2 Destin- ation Block: DESTINATIONBLOCK) the BLOCKSPACING command correctly aligns and spaces selected destination blocks. Some examples of vertical block spacing are shown in Figure 4.21 – Vertical Block Spacing Examples.

- 83 - As with the alignment tools, the command will move one selected set of objects in rela- tion to a second selected set of objects which will not be moved in the drawing. The two sets of objects are selected in turn, separated by a press of the ENTER key to complete each selection. The first set of objects selected will be moved in the drawing. The second set is described as the reference or static objects.

Figure 4.21 – Vertical Block Spacing Examples

4.4.4 Variable Block Spacing: VBLOCKSPACING

This command does the same as the BLOCKSPACING command (see paragraph 4.4.3 Destination Block Spacing Tool: BLOCKSPACING) but allows for any value to be

- 84 - entered for the spacing. This command would be used to achieve the non-standard spa- cing used between bilingual destinations or groups of these, or to cater for other non- standard spacing rules on various standard TSRGD signs.

4.4.5 Alignment Tools: Various commands

The following tools are for automatically aligning sets of sign face objects. One selected set of objects will be moved in relation to a second selected set of objects which will not be moved in the drawing. The two sets of objects are selected in turn, separated by a press of the ENTER key to complete each selection. The first set of objects selected will be moved in the drawing. The second set is described as the reference or static objects.

If it is imagine that a shrink-to-fit rectangle is drawn around the selected objects, ref- erence points such as the edges of the rectangle around one set is lined up with the other, So for example with the ALIGNLEFTS command at the end of the command the two sets of objects’ left hand edges will be positioned on the same vertical line or coordinate in the drawing. Note that each tool will move objects in only one direction, thus often two commands will be needed to make objects touch. To this end, the ‘Object/Verb’ way of working is most useful.

The commands support the ‘Object/Verb’ way of working, selecting the objects to be moved without reference to any command. When any alignment command is then selec- ted from the menu with objects already selected and gripped, the commands prompt to select the reference objects. The initial pre-selected set will then remain highlighted and a series of commands can be selected to bring objects into line. Press ESC to unselect the highlighted objects.

- 85 - Also on this toolbar and pull-down sub-menu is a command to centre any objects ver- tically within either a polyline or two selected points; one to centre any objects hori- zontally within either a polyline or two selected points; and a command to centre arrows vertically within a border.

4.4.5.1 ALIGNLEFTS, ALIGNTOPTOBOTTOM etc.

A series of aligning tools are available to line up a set of selected element(s) with another set of selected element(s). The routines are also to be found on the ‘Sign Utils > Align’ pull-down sub-menu.

The ALIGNTOPTOBOTTOM, ALIGNBOTTOMTOTOP, ALIGNLEFTTORIGHT and ALIGNRIGHTTOLEFT commands all align opposite edges of the shrink-to-fit rectangle, and can be used in any order. It is most likely, however, that one set of objects will already be positioned in the drawing and therefore will not want to be moved. Care must be taken to choose the correct combination of command, and the order of selection of the sets of objects.

These commands only move objects in one direction, either to the left or right, or up or down. This direction is indicated by the small arrow on the alignment toolbar icons. To effect a complete move, it may be necessary to use a combination of at least two of these commands.

4.4.5.2 ALIGNCENTRES and ALIGNMIDDLES

- 86 - These two functions enable selected elements to be centred horizontally or vertically with respect to the position of a second group of selected elements.

The routines enable selected element(s) to be moved in a particular direction, by a par- ticular amount. Elements can be selected before or after picking the command from the toolbar.

These commands only move objects in one direction, either to the left or right, or up or down, so it may be necessary to use other commands described in this section to effect a complete move.

4.4.5.3 CENTREGROUPH and CENTREGROUPV

Commands to centre a number of objects within either a polyline or between two selec- ted points, either vertically or horizontally provide for several design rules. For example lane sign arrows must be centred in the ‘lane’ on the sign and the lane width is variable since its size is determined by the length of the destination(s) above it. The objects are centred within the polyline or selected points in terms of the centre of an imagined shrink-to-fit rectangle around them.

If objects are to be centred within a polyline, simply select this and then immediately select the object(s) to be moved. Press ENTER to finish selecting objects. KeySIGN will then make calculations and move the objects accordingly.

If objects are to be centred between two selected points, press ENTER and then select the two points. After these have been selected carry straight on to select the object(s) to

- 87 - be moved. As before press ENTER to finish selecting objects. KeySIGN will then make calculations and move the objects accordingly.

4.5 Border Drawing Commands

4.5.1 Sign Border Drawing Commands: ONESTACK, TWOSTACK, THREESTACK AND FOURSTACK

These routines are used after the text and symbols for a sign face design, have been put together in the correct relationship. They provide the finishing touch encapsulating the finished design into a final form. The terms used to refer to multi direction signs are two ‘stack’, three ‘stack’ and four ‘stack’.

For ‘multi-stack’ signs it is not necessary to place elements from separate parts of the sign accurately on the drawing relative to adjacent parts. All that is required is that the selection sequence for the border commands be adhered to i.e. the straight ahead part selected first to ensure that it appears as the top part of the sign, left pointing next and lastly right pointing for the bottom. The border commands will pull together all of the sep- arately selected parts of the sign into one single multi stack border.

The routines are called up by picking the appropriate border command from the toolbar or pull-down menu system. You will be prompted to select the objects to be included in each part of the sign, and the most effective way is to put a selection window around the items. This requires less accuracy and therefore allows faster operation. A previous option (now removed from this command) allowed for the area of the sign objects to be selected. This should never now be required, however, for those who know and still may like to use this option, new commands have been defined and these are to be found on the ‘KeySIGN > Borders: panels/flags/stack > More’ pull-down sub-menu.

- 88 - The old way of defining the area requires you to pick the opposite corners of the tex- t/symbols. There must in any case be sign elements between these points so it is best to assist with the selection if a construction box has been drawn using the SBOX com- mand. Do not make any allowance for gaps between text etc and border, this is done automatically. If a red cross appears below a symbol or panel use this, if appropriate, when determining the lowest point on the sign.

When the objects or points have been selected the routine pulls each group of tex- t/symbols into position, separating them by the appropriate panel dividers with asso- ciated fillets which differ depending on the contents of the top panel. Junction name text is adjusted in position as are right pointing panels and finally the outer border is drawn.

After the border has been drawn you are asked if you want details of the sign. See para- graph 4.7.7 Adding Detail to the Completed Signs: DDETAIL for more information about adding sign details. See also the DDONESTACK command in paragraph 4.6.2 Automatic OneSTACK Sign Command: DDONESTACK .

4.5.2 Direction ‘Flag’ Sign Borders: FLAG

After picking the flag symbol from the toolbar you are given the option to state whether the flag is left or right pointing and then the items to be included in the border should be selected. The command will automatically draw the chevron and borders at the correct size. Please note that where there is a long line of legend/symbol/mileage in the centre of the block the right pointing sign may need adjustment to reduce the distance from text to chevron to the minimum of 2 s/w. An option to display the 2 s/w NOGO area is offered.

- 89 - After the border has been drawn you are asked if you want details of the sign. See para- graph 4.7.7 Adding Detail to the Completed Signs: DDETAIL for more information about adding sign details. See also the DDFLAGSIGN command in paragraph 4.6.1 The AutoFLAG Command: DDFLAGSIGN.

4.5.3 MoD Panel and Flag: MODFLAG, MODPANEL

The special requirements of flag signs and panels to Ministry of Defence establishments specified in TSM Chapter 7, Figure 3-8, page 19 is catered for with these routines. The flag sign border command MODFLAG colours the border red, with a white background. The panel command MODPANEL colours the borders and background red and white, and offers to draw a white border around this for when the panel is to be used on a dark background sign.

4.5.4 Adding Route Patch Borders to Route Text: PATCH

See also the ROUTE command in paragraph 4.1.3 Drawing Routes and Route Patches: ROUTE which has largely superseded this command.

Note it is most unusual to have Route numbers without brackets when enclosed in a patch.

A patch is the small coloured rectangle around a route number. First type the appropriate Route Number using Heavy text for routes on light background signs (non-primary), and Medium for a route on dark background signs (primary, motorway, tourist or lorry route).

- 90 - Note remember the 1 s/w space required between route letter and number. This is done by pressing the Shift + ‘\’ key combination (the ‘|’ character).

Start the PATCH command from the icon or pull-down menu, noting that this applies to both green and blue patches. You will be prompted to select the route number by picking it directly. The command only expects a single object to be selected so it will not be pos- sible to define a selection window or crossing box. When multiple routes are required such as ‘(M1 North, M25)’ then this should be typed as a single item of text. There is no need to press Enter to move on from the object selection part of the command, a small colour choice dialog (shown below in the PANEL command description) is immediately presented. This is designed with a wheel mouse in mind. Simply roll the mouse wheel to select the appropriate colour. Choose whether the patch will require a white border (on dark background signs only). A small colour flash can also be added if required although this command, covered in paragraph 4.7.6 Adding a Small Colour Flash to Borders: BGROUND and designed to show the sign colouration, has largely been superseded by the BORDERFILLSIGN command covered in 4.7.2 Colour Filling Signs: BORDERFILLSIGN.

4.5.5 Panel Borders: PANEL

Panels are the areas of a sign which are coloured to signify the classification of the exit road from the junction where it differs from the classification of the road on which the sign is sited. For example a non-primary side road off a Primary route would be indicated by a

- 91 - white panel on a green background sign. Where both the background and the panel are dark colours (e.g. blue panel on green background) there is an additional 0.5 s/w border. Select the command from the menu to call the panel routine. You have the option to select the items to be included within the panel by picking them (or use a select window) or DEFINE the size of the panel by picking the bottom left and top right corners of the text tile marks/symbols etc.

Before the border can be drawn the panel colours, and whether a border is required must be specified in a small choice dialog shown above right. This is designed with a wheel mouse in mind. Simply roll the mouse wheel to select the appropriate colour.

4.5.6 Panel Borders with a Cut-out Corner: LPAN

The 1994 Regulations allowed panels to be displayed on the sign face with cut-outs in one corner to allow for a wrap around effect on junction arms. LPAN, functions like the PANEL border command by giving the option to select the items to be included within the panel by picking them (or use a select window) or DEFINE the size of the panel by picking the bottom left and top right corners of the text tile marks/symbols etc.

Figure 4.22 – Correct Use of Cutaway Panels

- 92 - This no longer needs a special command, as ANY normal rectangular panel can be changed into an L-shaped one by using the blue corner grip and dragging that corner inwards. The grip will only be shown when the panel is selected and highlighted. It will also only be on corners that can be altered (if any). The menu command for L shaped panels just draws and normal one then highlights the panel to allow a corner to be dragged inwards. Note the cut-out should be the minimum needed to fit around an arm rather than the maximum cut-out possible determined by the text layout as shown above.

Figure 4.23 – The blue corner grip to create an L shape or cut away.

When the regular panel is drawn (before cutting away the corner), then the panel col- ours, and whether an additional white border is required, must be specified in a small choice dialog. This is designed with a wheel mouse in mind. Simply roll the mouse wheel to select the appropriate colour.

4.5.7 Finger Post Border: FINGER

- 93 - The Regulations incorporate an option for Finger post signs. This routine allows the user to place the simple border around the destination in the same way as other sign border commands operate. A dialog box shown in Figure 4.24 – The Finger Post Dialog allows the shape of the pointed part of the finger to be chosen together with options to fil- let the plate. See TSM Chapter 7, paragraphs 7.13 to 7.17 and Figure 7-5, page 81 for design rules for these signs.

Figure 4.24 – The Finger Post Dialog

4.5.8 Panels and Sign Borders: Automatically resizing for contents

Whether you have drawn a panel or created a 1stack sign etc. then the borders are auto- matically created around those items. These borders also resize automatically if the con- tents alter. This can be particularly useful if you have created the final sign design (even coloured it), then decide to adjust the sign face. The borders will now adjust again to fit

- 94 - where ever the contents are positioned and also any details about the border size and colour will be adjusted to the new size.

This can be seen with the following two signs.

Figure 4.25 – Automatic resizing sign and panel borders

4.5.9 Adding Backing Boards: BACKINGBOARD

- 95 - Where hazards generate a higher than normal concern about safety, high conspicuity backing boards can be used. Signs mounted on common grey backing boards are also often used. This command is found on the Flyout tool bar below the One Stack icon , and also on the ‘KeySIGN > Borders > Backing Board’ pull-down menu. Selecting the command produces the dialog box shown in Figure 4.26 – The Backing Board Dialog. The design rules for these boards can be found in TSM Chapter 7, paragraphs 14.19 – 14.24, pages 136 – 138.

Figure 4.26 – The Backing Board Dialog

Regulatory and Warning Signs options have a fixed border offset but the Direction Sign option allows the user to select width of border. The radius of corner fillets is user defin- able in all cases. The end result of applying a backing board to the steep hill signs is shown above right.

- 96 - If a supplementary plate is required within the backing board, ensure that the standard warning or regulatory sign is scaled correctly. These are all drawn based on an assumed x-height of 100mm which means that when placed alongside a supplementary plate with a different x-height the proportions will not be correct unless the standard sign is scaled. See the command SCALESTANDARDSIGN covered in paragraph 4.9.1 Scal- ing Standard Signs: SCALESTANDARDSIGN. To include a supplementary plate within the backing board, select the plate option and specify the x-height for the plate.

Note if colour filling is required, it is essential that the supplementary plate is colour filled before the backing board is drawn.

4.5.10 Drawing Sign Border to Size: XBlock

Figure 4.27 – The XBLOCK Command Dialog

- 97 - There are some signs in the Traffic Signs Regulations and General Directions (TSRGD) which do not strictly follow the design rules. These are mainly signs of either fixed legend or a limited variation in legend and they appear on plates of a fixed size. These plates are the type which used to be used at road works, for example, bearing legends such as ROAD CLOSED AHEAD.

The command shows a small dialog in which to specify the sign type (stack or flag), if an inner border is required, the x-height, width and height of the plate. The routine then draws a rectangle or flag border of the specified size on which you can arrange the appropriate legend. See also the DDSIGN command in paragraph 4.6.4 Automatic Text Only Signs Command: DDSIGN.

4.5.11 Light Baffle / Side Border Extension: BAFFLE

The addition of an extra piece of usually grey back-plate material to act as a light baffle or to allow a sign to be mounted spanning a wide footpath can be drawn easily. The routine asks the user to select whether a Light Baffle or Side Extension is required, then to pick the DETAIL block of the appropriate sign. Next, the additional height or total width of the extra plate is entered. A new outer border of the whole plate is created which can be placed as required. Once this has been done, an extra block of information is added to the existing DETAIL block showing the overall dimensions of the amended sign.

4.6 The Automatic Sign Commands

4.6.1 The AutoFLAG Command: DDFLAGSIGN

- 98 - Creates a basic flag sign automatically from simple dialog box based entry. As such it offers the user a completely automatic way of creating a variety of simple flag signs with up to three destinations and associated route numbers or symbols. Patches are created (with borders if necessary); text, background and border colours are assigned; and spa- cings introduced automatically. Even the text height is automatically calculated upon entry of the 85%ile speed, if known.

Figure 4.28 – The Automatic Flag Sign Dialog

Call the routine from the menu system or the 'KeySIGN > Automatic Signs' pull-down sub-menu to show the dialog shown below.

Type destinations and routes, or distances or symbols as required. Boxes which have a downward pointing arrow on the right-hand side provide you with alternatives that can

- 99 - be selected. Simply pick the arrow and a list will appear. Pick the appropriate item from the list. In this way the ‘Sign classification’ can be selected e.g. Non-Primary or Tourist or Cycle etc. As this is done the basic colour of the sign appears in the box below. The current x-height is also displayed in this box.

The Class (of road) will automatically change to ‘Motorway’ if an M is used in the Route No., but you will have to indicate if an A class route is ‘Primary’ or ‘Non-Primary’. Route numbers will automatically be placed in patches, if appropriate. A warning message will appear if brackets are missing from Route Nos. in patches.

Destinations sharing route numbers are accommodated by using the ditto “ symbol in the second destination route No. box. In this case the Route No. will be centred vertically on the two destinations. Where three destinations share the same Route No. the number will appear on a fourth line.

Two word destinations such as ‘Market Weighton’ can be entered on one line but if it is required on two lines, type the + sign between the two words’ e.g. ‘Market+Weighton’. The program will then centre one word over the other.

Capital letters will be automatically incorporated if destinations are entered in lower case letters. Spaces will be added to route numbers if omitted.

Mileages can be entered into the ‘Mileage’ box. Fractions can be entered thus ‘2 1/2’. The program will automatically convert the 1/2 characters into the single Transport Font text character. The program will not accept fractions with mileages greater than 3 as required by TSM Chapter 7, paragraph 3.34, page 29.

- 100 - Symbols are added by typing the appropriate reference number in the ‘Symbols’ box. If the reference number is not known type a '?' in the symbols box and ENTER. The Tour- ist Symbols icons will appear. Find and select the appropriate symbol, then pick the "OK"’ button. The appropriate symbol reference will now be displayed.

If you wish to alter the x-height or have it automatically calculated from the 85%ile speed pick the ‘X height & Material options’ button. Enter the new x-height or an 85%ile speed. This screen also allows the type of material to be changed e.g. Class 1 or Diamond grade etc.

Once the details have been entered pick the ‘Draw’ button. You will be returned to the standard KeySIGN screen and asked to select a suitable point to draw the sign. This will be about midway along the top of the sign. If you click “Yes” on the ‘Do you want to add sign detail information?’ prompt, the usual sign detail dialog appears (see paragraph 4.7.7 Adding Detail to the Completed Signs: DDETAIL for more information about the DDETAIL command).

The Automatic Flag routine does not compensate for destinations etc being tucked into the chevron. However an option to insert the 2 s/w NOGO line can be accepted and the stretch routine then used to manually modify the design.

- 101 - Figure 4.29 – The Completed Automatic Flag Sign with Colour Fill

Use the DDETAIL command to change the calculated sizes by selecting the "Border" button. Pick the outer border to automatically recalculate the sign size.

If the routine has been completed by answering all the prompts you will find that the pre- viously entered information is still there if the Automatic Flag Routine is called up again. This enables you to modify the results with very little effort. Note also that left and right pointing flag signs are created by picking the appropriate button in the ‘Direction’ box.

The sign design entered in the dialog can be stored by picking the ‘Save details’ button and specifying an appropriate name for the *.afs file. Picking the ‘Files (browse box)’ will allow any *.afs file to be selected and the details brought back into the Automatic Flag Sign window.

- 102 - Converting the text to the duplex form by typing "DUPLEX" at the command line will show a view similar to the fully colour filled sign shown in Figure 4.29 – The Completed Automatic Flag Sign with Colour Fill.

Note the present Automatic Flag routine does not allow mileages to be specified on signs if route numbers are incorporated nor will it allow mileages with more than one symbol per line. We suggest you create the sign, erase the border, add the additional information then apply the Flag border as described in paragraph 4.5.2 Direction ‘Flag’ Sign Borders: FLAG .

Figure 4.30 – The Automatic One-Stack Sign Dialog

- 103 - 4.6.2 Automatic OneSTACK Sign Command: DDONESTACK

This command creates a one stack sign automatically from destination information. Auto- matic OneSTACK follows similar lines to the Automatic FLAG routine. Pick the toolbar button or select the AutoSTACK item from the ‘KeySIGN > Automatic Signs pull-down sub-menu. The ‘data entry’ dialog is shown in Figure 4.30 – The Automatic One-Stack Sign Dialog.

By specifying that the ‘Humber+Bridge’ line is in a Tourist panel (last column) the pro- gram creates the necessary panel incorporating the tourist symbol and then centres the arrow on the whole assembly. Note the use of the ‘+’ sign to force Humber Bridge onto two lines, one centred automatically over the other.

- 104 - Figure 4.31 – The Completed Automatic One-Stack Sign

Arrows are selected by clicking on the arrow image. The program will automatically sense if a 14 or 16 s/w arrow is required for the straight ahead destinations, dependent on the overall height of the contents of the sign.

Note the straight-ahead arrow is normally on the left of the destination. However where a sign is mounted so that traffic can proceed past either side of the sign e.g. at a motorway slip, it is permissible to show the arrow on the right of the destination to emphasise that ahead destinations are reached by keeping on the main route.

- 105 - Like the Automatic FLAG routine the details of the Automatic One-PAN sign can be saved to a plain text file with the extension *.aop.

When the details have been edited, select an approximate position for the sign to be drawn. The completed sign is shown in Figure 4.31 – The Completed Automatic One- Stack Sign. The full power of these automatic routines can be appreciated by going back into the routine and modifying say, the sign classification from Non-Primary to Primary. With no further input the program changes font styles and adds borders to pan- els and patches before resizing the sign. A further example can be seen if a change is made from a left turn arrow to a right turn, reversible symbols are mirrored.

Note the user can make use of this routine to create groupings of text, patches, symbols and panels etc for use on other types of signs. Just create the single stack sign with "Arrow Box" clicked to "No Border". Then use the SGROUP command (see paragraph 4.8.2 Selection Commands: SGROUP, XSGROUP, MOVEGROUP and GROUPSEL ) to treat the group as one item.

4.6.3 AutoPARK Sign Command: DDPARK

This routine is a very flexible addition to an area of sign design that has many complex rules. Pick the toolbar button or select the AutoPARKING item from the ‘KeySIGN > Auto- matic Signs’ pull-down sub-menu. Pick the area displaying the small sign until one of the desired formats is displayed. The Waiting restriction text is shown to the left. You can modify the times etc to coincide with the Traffic Regulation Order. The dialog based entry is shown in Figure 4.32 – The Automatic Parking Dialog.

- 106 - Figure 4.32 – The Automatic Parking Dialog

Loading restrictions can be added by clicking the "Loading" box and making the appro- priate changes to times etc. Arrows can also be added where appropriate.

- 107 - Figure 4.33 – The Loading Plate Dialog

Signs can be given titles e.g. ‘Pedestrian Zone’ by clicking the Plate title if relevant as for example in TSRGD sign Diagram number 663. Additional plate titles can be added and saved for future use by clicking the "Add" button. NOTE the word spacings used in these signs are not the usual 2.5 s/w so take great care to keep the spacings supplied with the initial signs, when altering times.

Figure 4.34 – The Finished Automatic Parking/Loading Plate

- 108 - NOTE In the above display the MOVE command has been used to relocate the Detail box from below to the side of the sign and the sign has been colour filled.

When the sign is satisfactory, remember to give the sign a reference (you cannot draw the sign without one), click the "Draw" button. The finished sign should look like the one shown in the Figure 4.34 – The Finished Automatic Parking/Loading Plate.

4.6.4 Automatic Text Only Signs Command: DDSIGN

This command is used for text only signs. The routine is selected by picking the icon shown above from the main KeySIGN toolbar, or the AutoTEXT item from the ‘KeySIGN > Automatic Signs’ pull-down sub-menu. The user is presented with a dialog box as shown in Figure 4.35 – The DDSIGN Dialog for Diagram 7015 Variant.

Type in the appropriate sign text, give the sign a reference, select the type of text and choose any special text sizes and line spacings. The routine allows you to save the designed sign as a block which can be recalled without the need to redesign it. Please note, however, that the block definition resides only in the current drawing. To use the sign in other drawings, use the standard AutoCAD WBLOCK command. See the AutoCAD manual for more information about this command.

- 109 - Figure 4.35 – The DDSIGN Dialog for Diagram 7015 Variant

Options are available to create the text without a border and, as on the other automatic sign routines, you can specify an 85%ile speed and the computer will give you the cor- rect x-height to use

Clicking the "Draw" button will produce the sign shown in Figure 4.36 – The Com- pleted Automatic Text Only Sign.

- 110 - Figure 4.36 – The Completed Automatic Text Only Sign

4.6.5 Bus Lane Signs: BUSLANE

Located on the Flyout tool bar below the Informatory Sign Icon, the Bus Lane Sign icon will display the dialog box shown in Figure 5.8 – The BUSLANE Command Dia- log: TSRGD Diagram 960. It is used to create bus lane signs of the type TSGRD dia- gram number 958,959 and 960. See paragraph 4.6.5 Bus Lane Signs: BUSLANE for more information.

- 111 - Figure 4.37 – The SIGN Command Showing Dialog Box Entry

4.6.6 Other Automatic Standard Sign routines: SIGN

There are many signs which are not pre-drawn and part of the Sign Library. A list of these can be found on the ‘KeySIGN > Automatic Signs > Other Signs’ pull-down sub- menu. It is common, however, to use the SIGN command for any standard sign as well as browsing for the signs from the various thumbnail image menus like the one shown in Figure 5.1 – The Transport Warning Signs Image Menu. Simply type the SIGN com- mand and in response to the command enter the sign diagram number for example 547.7. If there is an automatic routine for creating the sign to the diagram number entered, as in this example, a unique dialog of the type illustrated in Figure 4.37 – The SIGN Command Showing Dialog Box Entry is shown. This will give the permitted vari- ants for the sign, for example ‘Disabled’, ‘Blind’ and ‘Deaf’. Since an arrow is also per- mitted for this sign, click for one and its direction by picking on the image of the arrow as required.

- 112 - Figure 4.38 – TSRGD Sign to Diagram 547.7

4.6.7 Sign / Supplementary Plate Command: SIGNANDSUPPPLATE

This dialog based routine contains a pop-list from which the diagram number of a stand- ard sign can be selected. The appropriate alternative supplementary plates available for the sign are then displayed.

Select the sign required (for example 524-1), the type of backing board (say yellow), the alternative supplementary plate (say 525 "Low gear now") and choose the background option (say Background fill). The standard size is displayed and other options can be chosen as appropriate.

- 113 - The sign can now be inserted onto your drawing. If the sign is to be used on a direction sign, it will be drawn at a height in stroke widths as specified in TSM Chapter 7, Appendix D, page 149. Because the steep hill sign has a variable gradient you will be asked to specify this. Don't forget to include the "%" symbol. The text will still be dis- played in the DOTON format so you will need to UNBLOCK the sign and apply Real Text to the gradient to display it in its final form shown in Figure 4.39 – Automatic Sign and Supplementary Plate Dialog.

Figure 4.39 – Automatic Sign and Supplementary Plate Dialog

Note if a different sign size is selected then an appropriate alternative size for the plate lettering must also be used.

- 114 - 4.6.8 Parking Symbols and Signs: PARK

The PARK command brings up a dialog choice shown in Figure 4.40 – The ‘P’ Parking Symbol and Sign Dialog. This allows for a

Figure 4.40 – The ‘P’ Parking Symbol and Sign Dialog

range of the ‘P’ parking symbols and signs to be drawn. Selecting the first option gives the simple ‘P’ symbol on its own. Secondly, a blue patched symbol with no border for use on light background signs. The third option provides the same blue patched ‘P’ sym- bol with a white border for use on dark background signs.

The fourth option provides a blue patched ‘P’ symbol with a number of spaces within the patch. This can be with or without border depending on the sign background colour. This routine can be started using the PSPACES command which should be typed at the com- mand line or can be used as a menu macro for a customised menu.

- 115 - Figure 4.41 – Automatic ‘P’ Sign Dialog

Lastly, the ‘Sign with number of spaces’ hides an array of choices of signs which are vari- ants of TSRGD Diagram numbers 2505, 2506, 2507 and 2508. A variant of a sign (the advanced direction equivalent) is set up ready to draw in the dialog shown in Figure 4.41 – Automatic ‘P’ Sign Dialog. The routine then draws the sign shown in Figure 4.42 – A Variant of TSRGD Sign Diagram 2507.

Figure 4.42 – A Variant of TSRGD Sign Diagram 2507

- 116 - 4.6.9 Inserting Bus Symbols: BUS

This item shows the dialog in Figure 4.43 – The BUS Command Dialog from which the required bus symbol can be selected. Simply click on the required symbol. Unlike other symbols where the sign direction needs to be entered, the direction is chosen by way of the different symbols. For example it can be seen that the left pointing bus shows the pas- senger door, whereas the right pointing symbol shows the driver’s window.

Figure 4.43 – The BUS Command Dialog

4.6.10 Inserting Hospital Symbols: HOSPITAL

This item shows the dialog shown in Figure 4.44 – The HOSPITAL Command Dialog from which the required hospital symbol can be selected. The symbols are for use on dir- ection signs, and if used on a dark background sign, require a white outer border. The

- 117 - symbols are inserted in the same way as other symbols, and include a colour fill. If these are required in other arrangements, for example with the ‘A & E’ patch to the side of the ‘H’ patch then the symbol will need to be broken down into its component parts using the standard AutoCAD EXPLODE command. The individual elements can then be manip- ulated as required.

Note these symbols should not be confused with TSRGD diagram number signs

- 118 - Figure 4.44 – The HOSPITAL Command Dialog

4.7 Miscellaneous Sign Design Commands

4.7.1 Inserting Direction Arrows: ARROW, ARROWS

It is unlikely that the ARROW command will ever be typed. If it is, the command will prompt for the required arrow reference. Arrows are referenced on (approximate) clock numbers such as ‘9o’ and ‘3o’ for left and right arrows respectively. The full list is as fol- lows: 12o14 and 12o16 (the suffix relates to the arrow height), 11o, 10o, 9o, 7o, 1o, 2o, 3o and 5o. Entering a ‘?’ at the command prompt to see a slide on-screen for a quick ref- erence.

More commonly, however, the command will be started by selecting a menu item, either from the Arrows toolbar (or flyout of the main KeySIGN toolbar) or from the ‘KeySIGN > Arrows’ pull-down menu. Alternatively, the ARROWS command shows a thumbnail image menu from which any available arrow can be selected.

The arrows will normally be inserted by selecting the destinations etc that will be reached by taking the direction shown. For example in the sign shown Figure 4.42 – A Variant of TSRGD Sign Diagram 2507 in Figure 4.42 – A Variant of TSRGD Sign Dia- gram 2507 the ‘Saturday only’ text and the patched ‘P’ symbol will be selected. Like other symbols the arrow is placed such that its centre line is 0.5 stroke widths above the centre line of the selected text. As such, placement of the symbol along the centre line of the text tiles has the correct result of centring the symbol on the text within the tiles (see TSM Chapter 7, Figure 3-9, page 20). If an arrow is required to be placed in non-stand- ard positions for example a straight ahead arrow to the right of a destination, it is pos- sible to press Return when the command is expecting objects to be selected, for manual

- 119 - insertion. Arrows can be centred in a sign border using the CARROW command (shown on the right hand end of the toolbar above) covered in paragraph 4.4.7 Centre Arrows within a Sign Border: CARROW.

Overhead gantry sign arrows are drawn using the OHARROW command (see paragraph 4.7.15 Overhead Gantry Arrow: OHARROW ). Arrows for lane signs, found on a sep- arate menu, are inserted against lane sign elements manually, and can be centred hori- zontally within the ‘lanes’ on the sign using the CENTREGROUPH command (see paragraph 4.4.5.3 CENTREGROUPH and CENTREGROUPV).

4.7.2 Colour Filling Signs: BORDERFILLSIGN

Should a fully coloured view of any sign be required, all that is required with this com- mand is to select all the entities that comprise the finished sign design. The command will colour fill borders and backgrounds and correctly order them in the display (see also the pull-down menu item ‘Tools > Display Order’), so that when printed the correct col- ours are displayed. Note problems may occur if using this routine on a drawing created with KeySIGN version 15 or earlier.

If the sign includes a map type symbol it may be necessary to select its outline in response to the next prompt. If it hasn’t already been, the map symbol is automatically joined as a closed polyline, and filled in. Text is automatically converted to Real Text and everything else (standard signs and symbols) is colour filled as appropriate.

The colour filling process can be undone at any time using the UNDOBORDERFILL command (see paragraph 4.7.4 Reversing a Sign Colour Fill: UNDOBORDERFILL). This command requires simple selection of the sign detail block or the sign border.

- 120 - Selection of the sign border is possible reliably even if the colour fill hatches are show- ing.

The previous command BORDERFILL has been retained for compatibility with sign designs created with version 15 or earlier of KeySIGN. See also the BGROUND com- mand for adding simple colour flash to the corner of sign, panel and patch borders.

4.7.3 Changing a Border Colour: CHANGEBORDERCOLOUR

On occasion, it may be necessary to change a sign border’s colour. Standard AutoCAD methods can be used to visually change just the colours, but for the purposes of colour filling, this command must be used. The CHANGEBORDERCOLOUR command will change the colours of the sign borders as required, and also some internally stored information that is used in the colour filling stage (BORDERFILLSIGN command covered in paragraph 4.7.2 Colour Filling Signs: BORDERFILLSIGN).

Note beware, however, that if changing from a dark background sign to a light back- ground, or vice versa that the sign will need to be redesigned. In other words where for example Transport Medium is the appropriate font for a dark background sign such as on a Primary route, conversion to a non-primary sign with a light background would require the Transport Heavy text. Due to the different character tile widths, spacings to routes, between destination blocks etc. would need to be altered. In addition route patches and many symbols would require additional patch borders to be removed or added.

This command, which can be found as the ‘Sign Utils > Colour Fill > Change Border Col- our’ pull-down menu item, will normally be run by selecting two outer sign borders. Since it can also be used to edit panels and patches it may also be used to select just a single

- 121 - inner border for changing. The dialog shown in Figure 4.45 – Changing Sign Class (Border Colours) should show the colours of the inner (and outer) border(s) selected. To change these, simply select a sign class. If non-standard colours are required choose ‘Choose Colours’ from the list of sign classes, then browse for these by pressing the “Select” buttons.

Figure 4.45 – Changing Sign Class (Border Colours)

- 122 - 4.7.4 Reversing a Sign Colour Fill: UNDOBORDERFILL

Use this command to reverse the changes made to a finished design after applying col- our fills using the BORDERFILLSIGN command (see paragraph 4.7.2 Colour Filling Signs: BORDERFILLSIGN). Simply select the sign border to remove the colour fills, and to reverse the conversion of text to Real Text.

4.7.5 Removing Symbol Fills: REMOVESYMBOLFILL

If it is required to show a finished design in both its design (DOTON) appearance along- side a fully coloured up sign (after applying the BORDERFILLSIGN command), then the first thing to note is that since the colour fill layers need to be switched on, any symbol or standard sign in the drawing will also show its colour fills. So any symbol on the DOTON, un-filled sign will in fact also be shown filled. To achieve a display with no fills at all, whilst also showing colour fills elsewhere in the drawing, this command can be used to remove individual fills from symbols and arrows etc.

Simply select the symbol, standard sign or other block as required. The colour fills will be removed and the block redefined with a suffix ‘-unfilled’. Note if the colour fill layers are not switched on at the time, no change can be seen, but use of the BFIL command (see paragraph 4.10.4 Colour Fill Toggle: BFIL ) will show that the fills have been removed.

4.7.6 Adding a Small Colour Flash to Borders: BGROUND

- 123 - If you would like to indicate background colours without using the full colour option, you can add a ‘flash’ of the background colour to any corner of the sign. Use the BGROUND command to achieve this. Click on the icon shown above from the ‘Fill Utilities’ toolbar flyout, or from the ‘Sign Utils > Colour Fill > Colour Flash’ pull-down menu item. Select any inner corner of the sign border by placing the selection box over the inner radius. It is best to select the mid point of the corner radius. The solid triangle will be drawn in the colour previously specified as the background colour for the sign. See the command CHANGEBORDERCOLOUR command for specifying the background colour in para- graph 4.7.3 Changing a Border Colour: CHANGEBORDERCOLOUR. The colour flashes are drawn on the same colour fill (*FIL) layers as other coloured backgrounds. See the BFIL command in paragraph 4.10.4 Colour Fill Toggle: BFIL for information on how these can be shown or hidden from view.

4.7.7 Adding Detail to the Completed Signs: DDETAIL

This routine is offered each time a sign border has been drawn. A dialog box is presen- ted with information about the sign reference; x-height; the colours of letters, background and borders; and class of material etc. These are then used to calculate the final height, width and cost of the sign.

The specified and calculated details, sign face colours and material class etc may be inserted below the sign. The details can include a scheme reference, although the sign detail can be displayed in any form. Since the detail drawing or block that is used is set in the ‘KeySIGN Tools > Program > Options’ dialog, any drawing can be selected such as a drawing frame containing attributes and the logo for the organisation. Any changes made to the scheme name in this dialog are saved immediately.

- 124 - A sign reference must be entered. This would be a reference used in the contract doc- umentation, sign schedules and location plans. It is not possible to proceed from the dia- log (except using the Cancel button) until a sign reference has been entered.

Figure 4.46 – The DDETAIL Sign Detail Dialog

An appropriate sign face material should be selected. The list of materials presented, and the default material is fully configurable. See Chapter 10 for further details. The pri- cing option, should this be required, is linked to the sign area and the material choice.

- 125 - The two buttons labelled “Border” and “Select” will only be used to identify a specific sign to add detail to, or to edit an existing sign detail. Thus if this dialog is shown directly after a sign border has been drawn, it will not be necessary to use these buttons.

In the ‘Sizes’ area, an x-height can be directly entered if a suitable one is known. If not, an appropriate size can be selected, based on either Local Transport Note 1/94, Appendix A, or the method to be described in TSM Chapter 2. Both of these are depend- th ent on a measured 85 percentile speed. In the example dialog shown to the right, a speed of 45 mph was measured, and this results in a recommended x-height of 100mm for advance direction signs (ADS). If space is short in terms of the available width for the sign, a smaller x-height can be selected to check for fit.

- 126 - The alternative and recommended method, however, is to be included in the forthcoming TSM Chapter 2, and provides a calculated x-height based on several criteria. These th include the actual measured 85 percentile speed, the distance from middle of the out- ermost driving lane to the edge of carriageway, the sign offset, the half width of the sign and the number of destinations shown on the sign. Since the calculations include the sign width, and are used to calculate an x-height, itself used to arrive at the sign width, the calculation process is an iterative one.

It is possible to further refine the finished sign dimensions either by entering a width or height in millimetres in the main dialog. When a value is entered in each box, the other two boxes are updated to reflect the new value. The design height in stroke widths remains unchanged. All calculated values can optionally be rounded to the nearest 5mm if the appropriate check box is ticked.

- 127 - Included with the details should be the main sign face colours, text, sign background and border, This is selected by way of a pop-list showing available road classes and sign type such as Non-primary, Primary or Motorway.

If you click to place a tick in the ‘Price’ check box in the dialog, a material rate file can be selected from a normal file selection dialog to put a price to the sign. The default file sup- plied, ‘Material.rat’, contains prices set against each material, and a series of sign area price bands. Alternatively, a rate can be entered directly in the ‘Rate’ box.

Note the prices in the default file supplied should not be used. See the MATERIALS com- mand in Chapter 10 for more information about configuring the available list of materials, the default material and the rates and area bands.

A user based sign detail block or drawing frame can be used in place of the standard ‘Detail’ sign detail block. It will be worth basing any user based block on the supplied file Frame4.dwg, which should be found in the installed folder. This drawing contains the necessary block attributes, with the correct attributes Tags to make this work correctly. See the AutoCAD manual for more information about block definitions and attributes. All but one of the properties of the attribute definitions found in Frame4.dwg can be changed. The attribute Tags must not be changed, as these identify the correct place for each piece of information.

- 128 - Figure 4.47 – The Use of Multiple Sign Detail Blocks

A different sign detail block can be selected before exiting this dialog, if for example a dif- ferent block is required for a specific sign. Many users prefer to use a drawing frame for the sign detail, but may temporarily want to use the standard KeySIGN detail block to detail each individual sign on a common backing board. One example of such a drawing is shown in Figure 4.47 – The Use of Multiple Sign Detail Blocks. In this case ‘Fram4’ is configured in the Options dialog (see Chapter 10), but the individual signs have been detailed using the standard detail block selected before exit from the DDETAIL dialog.

- 129 - Figure 4.48 – The Standard Sign Detail Dialog

If a user based block contains additional attributes such as location information and notes, it will be necessary to place a tick in the ‘Edit other details next’ check box so that these can also be edited.

It is also possible to place a detail block for standard signs. The detail used for this has the same name as the detail block configured in the KeySIGN Options dialog, with the prefix ‘ss_’. See Chapter 10 for more information about configuring the detail block. If a user based, customised block is used such as a drawing frame to contain and display the sign details, then there must be one with this prefix available to AutoCAD, either in the KeySIGN folder or somewhere on AutoCAD’s Support File Search Path.

To detail a standard sign, simply insert the sign in the drawing, and then start the DDETAIL command. Click the button labelled ‘Border’ to create a new detail block. When a standard sign is selected, a different dialog will be shown as shown in Figure

- 130 - 4.48 – The Standard Sign Detail Dialog. This works similarly to the standard detail dia- log with the exception that a list of standard heights, and the default for the selected sign will be shown, the area calculations are handled differently and a mounting height can be entered. The area calculations can be made to show the true sign area where for tri- angular signs the rounding of the corners leads to a reduction in the area calculated. A warning of the basis for the calculations will be shown in the detail block.

Figure 4.49 – A Standard Sign Detail

4.7.8 Adding Panel Details: PANDET

The increasing use of panels and supplementary plates on signs mean that the standard sign detail block does not always convey sufficient information. This routine adds

- 131 - supplementary boxes to the side of signs which contain information about the colour of panel backgrounds and text. A leader connects the panel detail box to the appropriate panel.

Pick the PANDET command from either the ‘Utilities (general)’ toolbar, the flyout on the main KeySIGN toolbar (under the DDETAIL command icon) or from the ‘Sign Utils > Labels and Detailing’ pull-down menu. You will be prompted to select the coloured bor- der, even if an outer border is appropriate for the panel. It is, however, possible to select the outer white border. Either way, when the panel is surrounded by a white border, the command should determine the colours, and the dimensions of the outer border. In these cases, both borders will be highlighted by AutoCAD using the normal broken line appear- ance.

Figure 4.50 – The Panel Details Dialog

- 132 - Once the panel border(s) have been selected, a dialog is presented, shown in Figure 4.50 – The Panel Details Dialog in which it is possible to review and/or adjust the panel dimensions and colours. As with the DDETAIL command, the x-height, width and height dimension boxes are linked dynamically, altering values in one (on pressing ENTER) updates values in the others. The actual design size for the panel is shown in stroke widths (s/w).

Before pressing the OK button to place the panel detail, please check all the values in the dialog are as required. The final actions are to select a location for the panel detail, a point in the middle of the block shown in Figure 4.51 – A Panel Detail, and lastly a point to attach the leader to the block. Note that the leader starts at the point selected on the panel, thus if the position for the panel detail is to the left of the sign, select a point on the panel, when prompted at the start of the command, on the left hand side of the panel. It would even make sense to use the midpoint object snap to select the panel edge.

Example command dialogue:

Command: PANDET

Pick COLOURED panel border (at point for leader start):

Select object: (coloured polyline selected on-screen)

Outer border found.

(the dialog shown in Figure 4.50 – The Panel Details Dialog appears)

Pick panel detail location: (point selected on-screen)

Pick edge of Panel Detail Box (leader end): (point selected on-screen)

Command:

- 133 - Figure 4.51 – A Panel Detail

4.7.9 Edit a Panel Detail Block: EDITPANELDETAILS

Please refer to the PANDET command covered in 4.7.8 Adding Panel Details: PANDET. The difference with this command to edit an existing panel detail is that unlike the PANDET command which requires the panel border to be selected, this command requires a panel detail to be selected.

If the position of the panel detail is to be changed, it is possible to use standard AutoCAD commands such as stretch, or it may even be easier to simply erase the exist- ing detail and create a new one in the required location using the PANDET command.

4.7.10 Post and Foundation Design: WINDANALYSIS

See Chapter 6 – Post and Foundation Design (Wind Loading) for complete inform- ation about wind loading calculations, and post and foundation design.

- 134 - 4.7.11 Drawing Frames 1, 2, 3 & 4: FRAME

This routine offers the user alternative drawing frames to incorporate around the designed signs. You are prompted for a frame number, then height and scale of plot in order for an appropriately sized drawing frame to be dragged into position. Obviously if the sign design spills over the side of the frame, you should cancel the routine and spe- cify a smaller scale of plot. Remember to use the same plot scale when outputting the final drawing. Frame 1 is a simple A4 (portrait format) rectangle Frame 2 is a simple A3 (landscape format) rectangle Frame 3 is available for users to customise to their own use Frame 4 is a fully titled A4 (portrait format) drawing frame with automatic prompts for sign and post details etc. Frame 5 is a fully titled A4 (landscape format) drawing frame with automatic prompts for sign and post details etc. For scaled plots, however, it will be best to insert the drawing frames in a Paper Space Layout in combination with the SCALEVP command (see paragraph 4.9.9 Producing Scaled Output in a Model View: SCALEVP).

Note you can edit these FRAME drawings in the same way as any other drawing, and indeed we expect this to be done, or the existing drawings to be substituted for ones incorporating your own organisations name, logo etc. Frames should be drawn to the printable areas of the various paper sizes on the plotter which will be used.

4.7.12 Posts - WBPOST, PPOST & SIGNLIGHT

The posts are only shown in diagrammatic form but they are correctly dimensioned when the user answers the prompts with actual design values. A symbolic light unit can be inserted on the top of signs. Use the OSNAP - ‘Quad’ option to fit the light unit exactly on the top point of triangular and circular signs. A symbol for sign plate and post is also available for location display on an OS map (see paragraph 4.11.4 Sign Location Sym- bol: SIGNSYMB).

- 135 - 4.7.13 Lane Signs and Arrows: LANESIGNS, LANESIGNARROWS

The icon on the left above, and the 'KeySIGN > LANE signs and symbols' pull-down menu item give access to a thumbnail image menu showing the different types of symbol used on Lane Signs. Make sure the NOGO layer is switched on when these are being used so that the insertion point of the various symbols will become apparent. The thumb- nail image menu shown also includes a collection of pre-drawn TSRGD standard lane signs.

The icon shown above on the right gives access to a thumbnail image menu of lane sign arrows etc and some further lane signs (variants of TSRGD Diagram number 877).

4.7.14 Lane Sign Underline: LANEUNDERLINE

On Lane signs, where two or more lanes lead to the same direction, a horizontal bar is used (TSM Chapter 7, paragraph 6.3, page 72). See TSRGD for examples of this, e.g. Diagram 2018 or 2019. In previous versions, a simple block was inserted that had to be stretched to fit the width of the shared destination(s). This new command asks for the des- tination block(s) to be selected, the width is calculated and the line is drawn below accordingly.

The routine will also prompt for the sign class so that if the lane underline is included on a colour filled sign, that this is coloured correctly. This step may disappear in future ver- sions.

- 136 - 4.7.15 Overhead Gantry Arrow: OHARROW

The arrow used on overhead gantries, is available on the arrow toolbar and via the pull- down menus. This command calculates, from the number of lanes, the lane width and the x-height, the correct position of the required number of lane arrows. These can be moved vertically to be incorporated into one or more overhead gantry signs.

The TSM Chapter 7 states in paragraph 9.4 (page 86) that ‘downward pointing arrows should be centred over the traffic lanes to which they apply. In some cases it may be necessary to extend the width of the sign to cover the appropriate lanes. When this is done, the horizontal spacing rules do not change, except that the gaps to the side bor- ders are increased (the legend being centred horizontally on the sign). The horizontal bar is always positioned 2.5 s/w from each side border (i.e. it may extend beyond the legend above). The sign should cover at least three-quarters of the width of any lane to which it applies.’

To this end, when the situation arises through a combination of lane width and x-height, red lines are drawn to ensure when selected for a border to be drawn that the correct bor- der gaps are introduced. This rule is specified to remind users by way of the dialog shown in Figure 4.52 – TSM Chapter 7, Paragraph 9.4 (page 86) Rule Alert.

- 137 - Figure 4.52 – TSM Chapter 7, Paragraph 9.4 (page 86) Rule Alert

Example command dialogue:

Command: OHarrow

Number of lanes <2>: 3 ↵

Lane width (millimeters) <3650>: ↵

Enter x-height (mm) <100.0>: ↵

One s/w is 25.0mm, therefore distance between arrow tips is 146.0 s/w.

Select insertion point over nearside lane, on bottom of destination underline: (point selec- ted on-screen)

Command:

4.7.16 Motorway Junction Number Patches: MJUNCT

This command is also available on the pull-down 'KeySIGN > Borders > Motorway Junc- tion No.’. Junction numbers were frequently designed at the wrong size partly because the x-height has to be one size below that of the main text. The current regulations now

- 138 - have the text size always 80% of the main size. When you pick the symbol you are asked to specify the junction number. You are advised to place the junction number into position after placing the border round the main sign. The new regulations allow the junc- tion number to be placed at locations other than the bottom left corner.

4.7.17 Junction Number Ahead at Distance Sign: JCTNUM

Generates a junction number sign with the distance to the junction incorporated. The details of the design of this sign can be found in TSM Chapter 7, Figure 10-9, page 97.

4.7.18 Cycle Route Number Patches: CYCLEROUTENUMBER

Generates a route number associated with cycle routes, and places this against a cycle symbol. The cycle symbol is inserted at the start of the command procedure in the same way as any other symbol insertion.

4.7.19 Adding Diversion Symbols: DIVERSIONS

The range of Diversion symbols, proscribed in the Regulations, are available from the general symbols toolbar flyout, or from the ‘KeySIGN > Diversion Symbols’ pull-down menu item.

- 139 - 4.7.20 Real Text Colour Changing: RT-DUPON and RT-DUPOFF

RT-DUPON changes the colour of Transport Heavy Real Text blocks from magenta to white and RT-DUPOFF reverses the change. The command mimics the DOTON and DUPLEX commands in this respect and, as with these commands helps to ensure that the manufacturer knows which font is intended.

Figure 4.53 – TSGRD Diagram 2716 Sign Showing Underline

4.7.21 TSRGD Diagram 2716 Underline: DIAG2716UNDERLINE

Whilst this underline is not for use on a Lane sign, the command can be found on the Lane Signs and Symbols thumbnail image menu alongside the lane sign underline com- mand. The underline used on this specific diagram number follows rules not imple- mented anywhere else and so can be drawn by way of this command. Simply select the text to be underlined. See Figure 4.53 – TSGRD Diagram 2716 Sign Showing Under- line for an example of the finished design.

4.7.22 KeySIGN Options: ASIGNCONFIG

- 140 - This routine calls up a dialog box which allows a number of variables to be altered, either for the duration of the Current drawing session or saved for future use. Please see Chapter 10 – Customising KeySIGN for complete information about this dialog and the configuration and set-up of KeySIGN. The KeySIGN Options dialog is also shown in Fig- ure 4.54 – The KeySIGN Options Dialog below.

Figure 4.54 – The KeySIGN Options Dialog

4.8 Selection Assisting Tools

These commands assist with the selection and editing of signs and groups of sign ele- ments. The various elements of a sign, including constructions lines, fills, tile marks etc

- 141 - are placed on separate layers to enable different views to be defined, e.g. for man- ufacture or for display/consultation purposes. Unless all layers are turned on, it can be possible to fail to select all sign elements.

4.8.1 Selection Commands: COPYSIGN, MOVESIGN, SELECTSIGN, ERASESIGN

COPYSIGN, MOVESIGN and SELECTSIGN can be used to ensure all sign elements are selected. Selection is simply by way of a single click on either the outer sign border or of the sign detail block. Three commands are provided, for moving or copying sign ele- ments, and secondly for editing the sign in any other way such as for erasing or rotating for example. All three commands turn all the sign design layers on so that all the various elements can be selected. The copy and move commands will then restore the layers to their states prior to the use of the command, the SELECTSIGN command simply leaves the sign elements selected for use with any standard AutoCAD command in the object/- verb method. The previous layer states will need to be restored manually using the stand- ard AutoCAD command LAYERP.

4.8.2 Selection Commands: SGROUP, XSGROUP, MOVEGROUP and GROUPSEL

The SGROUP command enables the user to select a group of items, such as destination with route number and associated patch, and group them together so that they can be treated as a single item for the purposes of moving, copying, scaling etc. The command is only available on the ‘Sign Utils > Selection Tools > Group sign elements’ pull-down menu. The command XSGROUP will undo the group link i.e. ‘explode’ the group. Note this may be necessary before applying the BORDERFILLSIGN routine.

- 142 - GROUPSEL toggles the ability to select a group of elements with the pick of one item within the group, and simply toggles the value of the standard AutoCAD variable PICKSTYLE.

MOVEGROUP is an older command that is perhaps a little redundant, having now been overtaken by the construction box command SBOX. However, it does provide a ready way to move a selection of objects, without the need for a construction box to be drawn. When a set of sign elements has been selected, a rectangle is placed onto the crosshair- s/cursor that can be moved into position as required, e.g. a set of destinations over a map type exit arm. Pressing space before selecting a final position for the elements changes the ‘insertion’ point for the rectangle, cycling between lower left, lower middle, lower right etc.

4.8.3 Moving/Copying a Finished Sign to a Map: MOVESIGNTOMAP, COPYSIGNTOMAP

This command automates both the selection of the sign and zooming between the design space (SIGNSHOP) and the OS map coordinates. It is provided to cater for the situation whereby AutoCAD cannot perform a sufficiently large zoom from the location of the sign design in a drawing to the OS coordinates for indicating it’s location on a map. As AutoCAD improves this is increasingly less likely, however, when it is not possible to zoom to the map during a move or copy operation, the sign must often be moved more than once.

4.8.4 Export Sign Design for Use on a Location Plan: EXPORTFORMAPLOCATION

This command covers the situation when, for the purposes of showing a sign’s location, an image of the sign is to be placed in another drawing. Whilst copying and pasting the selected sign to and from the Windows clipboard (from the pull-down menu ‘Edit > Copy

- 143 - (Ctrl + C)’), can be used, this method does not take into account any scaling factors that are appropriate in terms of sign design. For example, the unit of sign design will not be the same as that used in a mapping application hence the imported signs may be greatly over sized. This command has been designed to be used in conjunction with the INSERTSIGN command covered below.

Note if a colour filled sign is to be used, it is likely that the draworder information will be lost. This can be true of both the process used with these commands, or using the Win- dows Clipboard. In that eventuality it will be necessary to import the location plan into the sign design drawing, rather than the other way around.

Figure 4.55 – The INSERTSIGN Command Dialog

- 144 - The new drawing file created from a finished design, so that this may be inserted into another location plan, will use the required x-height so that the sign can be scaled accur- ately. Selection of the sign is simply by way of the sign detail block, and the x-height used is taken from the detail block. The new drawing can be used in other applications such as KeyLINES or KeySIGNALS to create a 3D sign for use in a ‘Driver’s Eye View’. Alternatively see the INSERTSIGN command, which will also be available in KeyLINES etc.

4.8.5 Insert a Sign Design from File: INSERTSIGN

This command handles the scaling and location of sign design imported from an external file. The dialog, shown in Figure 4.55 – The INSERTSIGN Command Dialog is essentially a mimic of the standard AutoCAD INSERT command dialog, with the exception that scaling is handled differently. To scale the inserted sign drawing, which should ideally have been created using the EXPORTFORMAPLOCATION command (see paragraph 4.8.4 Export Sign Design for Use on a Location Plan: EXPORTFORMAPLOCATION), choose the correct x-height and a suitable scaling factor. This is set to 5 by default, a value that provides a good size for location plans. A sign inserted at a scale of 1 will often look too small on location plans. Adjust this as necessary.

4.9 Dimensioning and Scaling Commands

4.9.1 Scaling Standard Signs: SCALESTANDARDSIGN

When designing combined standard signs and supplementary plates into a backing board it is usually necessary to change the size of the standard sign. These are drawn in

- 145 - the design environment where the unit is stroke widths, based on an assumed x-height of 100mm. Most supplementary plates use smaller x-heights, but in any case if an x- height other than 100mm is required then this command will make the necessary adjust- ment. The standard sign itself can also vary in height, depending on the choice available in TSRGD. These are listed for each sign to be scaled.

Example command dialogue:

Command: ScaleStandardSign

Standard signs drawn in stroke widths at x-height of 100mm.

(the following dialog is shown)

- 146 - Select sign(s) to scale: (warning sign selected on-screen)

Select objects: 1 found

Select objects: ↵

Base point: mid ↵

Of (point selected at midpoint of lower edge of sign)

Selected objects have been scaled up by a factor of 1.6. x-height set at 62.5mm

Command:

Note because the x-height in this example is less than the assumed value of 100mm for the warning sign, the effect of this command is to scale the sign up. This is counter intu- itive, but is correct as it is required that the text be smaller than 100mm.

4.9.2 Stroke Width to Millimetres Conversion with Offset: MMOFFSET

Accessible on the ‘Sign Utils > Dimensions > Offset (millimetres)’ pull-down menu only, the command creates an offset line at a distance, specified in millimetres, but drawn in stroke widths calculated from a given x-height. For example this allows for a symbolic representation of the size of a piece of artwork or a hole to be cut in a sign face for a vari- able message unit to be shown.

- 147 - 4.9.3 ScaleMToSW and ScaleSWToM

These two routines, available from the ‘Sign Utils > Dimensions > Scale’ pull-down menu, allows selected element(s) to be scaled from millimetres to stroke widths (MToSW) and from stroke widths to actual size in millimetres (SWToM). Normally this routine will be used when displaying signs on an OS map background, although further scaling may be required to show the sign at a more appropriate size on a map. It is also commonly used to scale standard signs which in KeySIGN are drawn into the design area in stroke widths, and based on an assumed x-height of 100mm.

4.9.4 Setting the Current X-Height: SET_XHEIGHT

KeySIGN maintains a variable which stores the current x-height, which is in turn used to convert the drawing unit (the stroke width) into a real measurement (mm) for dimen- sioning. If the value of x-height shown in the DDETAIL or PANDET dialogs, or anywhere else in KeySIGN is changed, this will change the current, stored value.

Note if you wish to dimension any sign using the standard AutoCAD commands, make sure that the current x-height is correct for the sign being dimensioned.

4.9.5 Dimension Commands: ATS_DIMVERTICAL, ATS_ DIMHORIZONTAL

- 148 - WARNING these commands are provided to ensure the correct x-height is used to con- vert from the design units to millimetres. If the standard AutoCAD dimensioning com- mands are to be used, this is best carried out immediately after running the DDETAIL routine. That routine sets a variable which stores the current x-height in use, which is in turn used to convert the drawing unit (1 s/w) into a real measurement (mm) for dimen- sioning. If you wish to return to the dimensioning routine at a later stage make sure that the current x-height is correct for the sign being dimensioned. Use the command SET_ XHEIGHT covered in paragraph 4.9.4 Setting the Current X-Height: SET_ XHEIGHT (under ) to ensure this variable is correctly set.

Decide on either a vertical or horizontal dimension and pick the appropriate item from the ‘Sign Utils > Dimensions’ pull-down menu. The commands will prompt for the x- height, to ensure the correct conversion from design units to millimetres is made. Now pick the start and end points for the dimension measurement, and then pick the location for the dimension line which will then be displayed on the drawing.

You can opt to switch the addition of the measurement in stroke widths on or off by pick- ing the item ‘S/w in dimensions’ from the ‘Sign Utils > Dimensions’ pull-down menu. This starts the SWINDIMS command covered in paragraph 4.9.6 Adding the Design Dimension to Dimensions: SWINDIMS.

- 149 - Figure 4.56 – Dimensioning a Standard Sign

4.9.6 Adding the Design Dimension to Dimensions: SWINDIMS

KeySIGN adjusts several dimensioning settings to ensure that dimensions are given in real units. If the design units are required as shown in Figure 4.56 – Dimensioning a Standard Sign, then this command can be used to toggle the setting to on, or off if these are not required.

4.9.7 Checking the Size of a Finished Sign: SIGNSIZE

This command allows for a check of the size of a sign, patch or panel border. It reports the converted (real) dimension in millimetres of any border selected based on the x- height entered. It can be seen from the example command dialogue that the design dimensions are also reported, and that the value will or will not be rounded to the nearest 5 mm depending on the setting of ROUNDING.

- 150 - Example command dialogue:

Command: SignSize

x-height (mm) <100.0>: ↵

or [Define area]: (border selected on-screen)

Border selected is 76.1 s/w wide by 40.0 s/w high.

At 100.0mm x-height, border selected is 1900mm wide, by 1000 mm high (rounded to nearest 5mm).

Command:

4.9.8 Rounding Sign Dimensions: ROUNDING

This command simply toggles how calculated dimensions are treated. TSM Chapter 7 (paragraph 2.22, page 13) recommends rounding signs to the nearest 5 mm. Turning off this setting will result in dimensions being calculated to the nearest 1 mm which many, especially manufacturers, find preferable. This option is also controlled in the DDETAIL dialog and can be set in the KeySIGN Options dialog for the length of the drawing ses- sion or saved to be in force across all drawing sessions.

Example command dialogue:

- 151 - Command: Rounding

Sign dimension rounding is OFF.

Command:

Command: SignSize x-height (mm) <100.0>: ↵

or [Define area]: (border selected on-screen)

Border selected is 76.1 s/w wide by 40.0 s/w high.

At 100.0mm x-height, border selected is 1902mm wide, by 1000 mm high.

Command: Rounding

Sign dimension rounding is ON.

Command: SignSize x-height (mm) <100.0>: 75 ↵

or [Define area]: (border selected on-screen)

Border selected is 76.1 s/w wide by 40.0 s/w high.

At 75.0mm x-height, border selected is 1425mm wide, by 750 mm high (rounded to nearest 5mm).

- 152 - Command:

4.9.9 Producing Scaled Output in a Model View: SCALEVP

On the occasion that an accurately scaled print is required, it is best to print the sign from a Paper Space Layout. To view the design in model space a model view must be opened. Use the AutoCAD command MVIEW to create model views. This is all best done in a drawing frame, drawn to the printable area for the required paper size on the chosen printer. See paragraphs 3.9 Detailing the Finished Designs and 4.7.7 Adding Detail to the Completed Signs: DDETAIL for more information about using drawing frames as well as, or in place of the standard DDETAIL sign detail block.

Example command dialogue:

Command: ScaleVP

Enter desired x-height for sign <75.0>: ↵

Enter desired scale for model view (MVIEW) 1: <10>: ↵

Press any key when required viewport to scale is selected: (key pressed)

Select centre point for zoom: (point selected on-screen)

Zooming to 1.8750xp

Select position on-screen for scale text: (point selected on-screen)

- 153 - Specify height <2.500>: ↵

Specify rotation angle of text <0>: ↵

Enter text: 1 : 10

Command:

4.9.10 Quick, Semi-automatic Sign Dimensioning: SDIM

This command provides a quick way to add multiple dimensions to a sign. For example, ‘baseline’ dimensions can be built up from one corner of the sign to show vertical spa- cings between destination blocks and panels. Each subsequent point selected to create further dimensions takes as its baseline the point from which the original dimension was taken. At the start of the command, once a sign detail (for the x-height) and the sign bor- der itself is selected (if necessary) a choice of vertical or horizontal dimensions is given. At this point the baseline point can be altered. See the example command dialogue below.

Example command dialogue:

Command: SDim

Dimension rounding ON.

Please select sign details: (sign detail block selected on-screen)

Current x-height is 100.0.

- 154 - Measuring from bottom left corner.

Horizontal/Vertical/Change start point/Other corner : o ↵

Measuring from bottom right corner.

Horizontal/Vertical/Change start point/Other corner : v ↵

Next point: (point selected on-screen)

Select position for first dimension:

Continue : ↵

Select next point to dimension: (point selected on-screen)

Continue : n ↵

Command:

4.10 Display Changing Commands

4.10.1 Text Display Options: DOTON, DOTOFF and DUPON

These commands are covered in paragraphs 3.5.1 Transport Fonts and 4.1.5 Changing the Appearance of Sign Text: DOTON, DOTOFF and DUPLEX.

- 155 - 4.10.2 Toggle the TILE Layer On or Off: TILE

The text and symbol etc corner marks, which indicate the extents of each sign element, are stored on the layer named TILE. This layer, and therefore the visibility of its contents, can be switched off to remove these objects from view. KeySIGN provides this quick-to- type command and easily accessible icon to toggle the visibility of objects on this layer. From R2010 onwards, these icons on the Ribbon menu show the actual status of the set- ting.

4.10.3 Toggle the NOGO Layer On or OFF: NOGO

The red lines indicating a minimum distance that any object can be place with respect to map symbols, flag sign chevrons and other sign elements are stored on the layer named NOGO. This layer, and therefore the visibility of its contents, can be switched off to remove these objects from view. KeySIGN provides this quick-to-type command and eas- ily accessible icon to toggle the visibility of objects on this layer. From R2010 onwards, these icons on the Ribbon menu show the actual status of the setting.

4.10.4 Colour Fill Toggle: BFIL

Most of the standard signs, symbols, Real Text characters etc now have colour fills. Each colour is displayed on a separate layer e.g. BLACKFIL, REDFIL, GREENFIL etc and FILLTEXT for the text. Each layer can be switched on and off through the standard AutoCAD LAYER command, however, the BFIL command toggles all the fill layers on and off each time the command is used. Please note that in addition to the fill layers

- 156 - there are layers containing the white/black patch and panel etc borders. These should not be seen when the colour fill layers are on so are toggled on and off as the colour fill layers are toggled off and on. Commands BFILON and BFILOFF are also defined for typ- ing at the command line to force the layer visibility on or off without the need to toggle; and BGRD, which functions the same way as BFIL, is also included for compatibility with KeyROADWORKS. From R2010 onwards, these icons on the Ribbon menu show the actual status of the setting.

4.10.5 Drawing Background Colour Options: BLACKBACK, GREYBACK, GREYBACK2 and WHITEBACK

Instantly changes the background colour of the drawing area (Model Space) to Black, Grey or White. Note the use of the grey background removes the complication with the way that AutoCAD deals with Black/White objects when using a black or white drawing background. Other colours can be chosen for the drawing and paper space Layout back- grounds in the standard AutoCAD Options dialog (‘Tools > Options’ pull-down menu item).

4.10.6 Changing the Colour of Transport Heavy Text: HEAVY2MAG, HEAVY2WHI

Transport Heavy text is normally shown in a magenta colour. This is configurable (see KeySIGN Options command ASIGNCONFIG at Chapter 10 – Customising KeySIGN ), so it is possible that the text will not be magenta. It is important to provide the man- ufacturer with as much information as possible to reduce the possibility of mistakes. It is therefore advisable to maintain a different colour for Heavy text. On occasion, however, for display purposes it may be required to show this text in white (prints black on white

- 157 - paper). Whilst it is possible to use standard AutoCAD methods to change this property manually, these commands are provided to change all of the text in the drawing auto- matically.

4.11 Drawing Labelling Utilities

4.11.1 Label Yellow Route Text: YELLOWROUTELABEL

It has to be borne in mind that the colour yellow does not always plot very well. Whilst it is a good colour on a black AutoCAD drawing background, on white paper it can be lost. This is especially true if the manufacturer ends up having to work from a photocopy of the printed design.

In order to minimise any mistakes that may result from this, it can be advisable to label any yellow route text. This simple command is provided for this purpose and requires only a point to be selected for the leader end (at the text to be labelled), followed by a position for the text. At the start of the function you will be prompted for the text to be used for the label. Any text can be entered, or the default ‘Route text to be yellow’ can be accepted. The label created is placed on a layer named ‘Label’, in the BYLAYER colour. Also, consider changing the colour property of yellow text to a stronger colour such as colour number 40 which is a more orange colour.

4.11.2 Label Standard Sign or Symbol: BLOCKTEXT

This routine is provided for quick labelling of signs or symbols with the TSRGD or /Work- ing drawing diagram number or reference. The routine will mostly be used to label

- 158 - standard signs, and will show the sign height. The routine will prompt for the x-height to be used for the sign (standard signs are drawn at an assumed x-height of 100mm). When labelling a symbol, the x-height prompt can be ignored.

4.11.3 Label X-Height: LABELXHEIGHT

It is always sensible to ensure that the drawing conveys the design information clearly and accurately. Particularly on mixed x-height signs, it will be helpful to the manufacturer if the exact x-height required is shown for each line of text that will not be the main x- height on the finished design (as shown in a sign detail block). Simply enter the x-height required for the text to be labelled, then select the leader end (at the text object to be labelled), then the position required for the label itself.

4.11.4 Sign Location Symbol: SIGNSYMB

It is often required to show an image of the finished sign design against the detailed Ord- nance Survey Landline of MasterMap data. This can sometimes be too congested, par- ticularly in urban areas, to allow the sign itself to be located clearly against the mapping. In these situations it can be better to place a sign symbol at the required location, with a leader to the sign itself shown at the edge of the mapping.

To insert a sign symbol, simply select a point on-screen. Next, indicate the size of the symbol. Note this can be done by way of entering a value (or accepting the default (ini- tially 2) for the symbol scale, or by selecting a second point on-screen. The distance between two selected points will be taken for the symbol scale. Then, select a point on- screen indicating approximately the viewing position to orient the symbol appropriately.

- 159 - Lastly, select points on-screen as required to draw a polyline to the position for the label or completed sign. The polyline drawn will have an arrow head of the size determined by the product of the current AutoCAD dimension style variables DIMASZ (dimension arrow size) and DIMSCALE (dimension scaling factor).

4.12 Miscellaneous Utilities

4.12.1 Zoom to Sign Design Area: SIGNSHOP

This routine creates and zooms to a view called SIGNSHOP, with coordinates 0,0 and 200,120. Thus a drawing containing both sign designs and some mapping for location plan purposes can be quickly navigated. See also the ZOOMTOMAP command (and SAVECURRENTMAPVIEW for setting this up).

4.12.2 Zoom to Location Map coordinates: ZOOMTOMAP

This routine zooms to a view called MAP which needs to be created and should incor- porate the extents of your available OS base mapping. See the command SAVECURRENTMAPVIEW which will save the current view.

Note make sure that you zoom to the map coordinate extents for your geographical work area before using this command.

- 160 - 4.12.3 Save MAP View for Quick Zooming: SAVECURRENTMAPVIEW

For the ZOOMTOMAP command to work correctly, it is necessary to save a view called MAP where it is intended that the OS mapping is or would be showing. Zoom to the map or map extents before using this command. To further access the saved views use the standard AutoCAD command VIEW.

Note this command should be used in the Template drawing to ensure that all new draw- ings (based on the template) will also contain the saved view.

4.12.4 Drawing Titles: DWGTITLE

This simple routine, accessed from the pull-down menu consists of selecting a point on the screen, followed by an orientation of a small block which automatically incorporates the name of the current drawing. Normally you would use this routine with ORTHO switched on, so that the block is inserted horizontally or vertically.

Note the drawing name will not automatically change if the drawing is saved under a dif- ferent name. In this event it will be necessary to run the command again to update the block. Since this command requires user interaction, an additional command UPDATEDWGTITLE is also provided which automatically updates any block(s) in the drawing with no user involvement.

The command is now essentially redundant as it has been overtaken by the use of fields in R2005 and later, or Reactive text provided in the AutoCAD Express Tools (Volume 1- 9 or later).

- 161 - 4.12.5 Edit Permitted Sign Variants: SDDATTE

This is a variation on the standard AutoCAD DDATTE command. It allows the user to edit a greater number of lines of variables within a block such as lines of text etc. and the sort order is also shown alphabetically.

4.12.6 Explode and Convert Permitted Variants to Text: UNBLOCK

Allows the user to explode a symbol (block) containing a permitted variant ‘variable’ without reverting to the variable label. This enables the text, e.g. gradient, to be reposi- tioned, converted to Real Text for cutting etc or otherwise modified.

4.12.7 Drawing Tidy Up: DWGTIDYUP

The drawing tidy-up pull-down menu shown in Figure 4.57 – The Drawing Tidy-Up Pull-Down Menu contains a group of commands, which are designed, as the section implies, for removing unnecessary information from a drawing. This will, therefore reduce size on disk of the drawing file with a consequent improvement in loading, regen- eration and plotting times.

- 162 - Figure 4.57 – The Drawing Tidy-Up Pull-Down Menu

The first command on the menu is a complete one-stop-shop, dialog based version of the other commands. AutoPURGE is covered in more detail below in paragraph 4.12.8 Automatically Purging the Drawing: APURGE

The drawing tidy up dialog is shown in Figure 4.58 – The Drawing Tidy-Up Dialog. In the dialog, if ‘Clear layer NOGO’ is ticked then all objects that can be deleted from the NOGO layer will be. This will not include AutoCAD points that are part of block defin- itions such as arrows. If only NOGO items in a selected area are required to be deleted from the drawing, the pull-down menu item ‘Delete selected NOGO objects’ should be used instead.

If ‘Delete Real Text spaces’ is ticked, then any Real Text space blocks will be removed. These should not be introduced on the drawing in any case, but may have been in pre- vious versions of KeySIGN, when spaces in normal text were converted. The blocks can be invisible if the TILE layer is switched off.

If ‘Purge unused Real Text blocks’ is ticked, then any unreferenced Transport letter block definitions will be removed from the drawing. These can give rise to unexpected file sizes, are not required and can safely be removed even if further text might be con- verted later. Alternatively, this process can be started using the pull-down menu item ‘Delete Rtext space blocks’.

- 163 - If ‘Delete Tile corner marks’ is ticked, then any corner marks placed on the drawing either with the UKCMARK or CMARKBOX commands will be removed. These can be added at any time either globally throughout the drawing, or to selected text only. See the command references for further details about placing corner marks on the drawing. Note that the tile corner marks that are part of symbols and arrows will not be removed with this command.

Figure 4.58 – The Drawing Tidy-Up Dialog

If ‘Delete converted text from layer NORMTEXT’ is ticked, then the original text retained after conversion to Real Text on the layer NORMTEXT will be removed. This text was retained in earlier versions of KeySIGN so should not be seen. The command is there- fore provided for backward compatibility only, and can also be started by selecting the ‘Delete normal text’ item from the pull-down menu.

Each of the options shown in the DWGTIDYUP command has a command in its own right. From the top the commands are DELNOGOLAYER, DEL_RT_SPACES, PURGERTEXT, DELCMARKS and DELETENORMTEXT. The Drawing Tidy Up pull-

- 164 - down menu also includes the command DELNOGO if only selected NOGO objects need to be removed from the drawing.

4.12.8 Automatically Purging the Drawing: APURGE

A drawing can contain any number of unused block definitions, layers, linetype defin- itions and text styles amongst other things. These take space in the drawing making the resultant file larger than it need be. Before storing a finished drawing it is good practice to remove (purge) these unused definitions from the drawing.

In recent releases of AutoCAD there is a much improved and now very useful version of the standard PURGE command. See the AutoCAD manual for information about the full in-built PURGE command. However, the strength of the APURGE command is its sim- plicity, and the ability to reinsert the application’s drawing template file automatically.

Choose the type of unused definition that needs to be purged from the drawing and click on the OK button to start the purge process.

Example command dialogue:

Command: APURGE (the following dialog is presented)

- 165 - Deleting block "T204".

Deleting block "ARR131A".

2 blocks deleted.

Deleting text style "MWAY".

Deleting text style "SIMPLEX".

2 text styles deleted.

Template drawing re-inserted.

Command:

- 166 - 4.13 Miscellaneous System / Program Commands

4.13.1 The ‘What’s New’ Guide: ASIGNWHATSNEW

Whenever a new version of any software is released, it is always helpful to read the ‘What’s New’ information. This can alert users to new and enhanced commands, com- mands that have been renamed or discontinued, and other changes and improvements. This information can often affect the way the program is used and the process of sign design is approached. The guide includes previous guides so effectively provides a com- plete version history.

4.13.2 Reloading the KeySIGN Menu: RELOADKEYSIGNMEU

The KeySIGN menu files are open for editing. Changes can be made to the menu tem- plate file (KeySIGN.mnu), if the user has sufficient knowledge and experience. In addi- tion, whilst it is possible to customise the toolbars using standard drag-and-drop methods in AutoCAD, these changes can be saved permanently into the menu template file. In these situations and on the rare occasion that AutoCAD is unable to display the correct icons on the toolbars, this command forces AutoCAD to recompile that base tem- plate menu file and look again for the icon images.

Note if toolbar customisation has not been saved permanently in to the menu template file through the use of plain text editors such as Notepad or TextPad then this command will result in the loss of any toolbar customisation done on the KeySIGN menu file group.

- 167 - 4.13.3 Reloading KeySIGN: KSIGN

Sometimes it can be possible that a setting becomes corrupted in the running of KeySIGN and other Keysoft Solutions’ application commands. This can result in the unexpected termination of routines. It is often possible to clear a problem by reloading KeySIGN with this command. This has a negligible effect on the usability of KeySIGN, but may reset some default values. It is likely that you will use this command on instruc- tion from a support engineer but you may like to save your work and try reloading KeySIGN first before calling us.

4.13.4 Reset KeySIGN and AutoCAD System Variable to Defaults: RESET

This command is generally called upon when a command error occurs. See 14.3 Start- ing the installation program for more information about command errors. If a command error occurs then often this command will clear the error and allow normal working to resume. The command can also be used to restore the ‘normal’ set of options, and can be used to invoke custom settings. If a file called ‘reset.src’ is found on the AutoCAD search path, this will be loaded. The file contains AutoLISP, which is a simple language that can be used to automate tasks such as setting variable defaults. See the AutoCAD customisation manual for more information.

4.13.5 Updating the Stored Dimensions for a Symbol: REVISEBLOCK

KeySIGN calculates and stores information about any symbol used on any sign or panel. These details are stored in a file called symbols.def, which should be found in the

- 168 - KeySIGN installation folder. If any symbol is changed in any way it will be necessary to use this command so that KeySIGN updates its information.

Simply select the symbol and the new block dimensions will be stored.

Example command dialogue:

Command: ReviseBlock

or [Pick points (manually define)/Default (S25E)]: ↵

Select block: (block selected on-screen)

Working

Written (new) definition of block ‘S25B’ to file.

Height - 13.00 s/w, Width - 40.00 s/w.

Command:

- 169 - Figure 4.59 – The KeyABOUT Dialog

4.13.6 Finding Detailed Program Build Information for KeySIGN and other Keysoft Solutions Applications: ABOUTKEYSIGN, ATS_BUILD and KEYABOUT

In addition to the information shown on the left-hand end of the AutoCAD status bar addi- tional software build information can be obtained using these commands. ABOUTKEYSIGN shows a little extra information about KeySIGN, ATS_BUILD shows a precise build number which should be used in tandem with the information given by the previous command.

KeyABOUT gives complete information about build dates (see Figure 4.59 – The KeyABOUT Dialog) and versions for individual modules (see Figure 4.60 – KeySIGN Module Build Information in the KeyABOUT Dialog) of the installed versions of our programs. It is likely that you will use this command on instruction from a support

- 170 - engineer but you may like to try this command first, and comparing it with the latest product version numbers page on our web site, before calling us.

Figure 4.60 – KeySIGN Module Build Information in the KeyABOUT Dialog

4.13.7 Browse the Sign Library: BROWSESIGNS

In addition to the SIGN command which can be typed into the AutoCAD Command Line at any time for inserting standard signs when the TSRGD diagram numbers are known, it is possible to browse the sign library directly. This is done by starting an instance on Win- dows Explorer in the sign library. It is helpful to view the drawing files by their thumb- nails. This can be set by choosing Thumbnails from the View pull-down menu.

4.13.8 KeySIGN Command Aliases: ASIGNALIAS

PD: ‘KeySIGN Tools > Program > KeySIGN command aliases’

Along with the method of starting commands by selecting items from (toolbar) icon and pull-down menus, it is also possible to type commands. Many commands are long and

- 171 - not always easy to remember (although many names are reasonably self explanatory) so a system for defining command aliases is provided. AutoCAD also provides for this, for example ‘L’ can be entered at the command line (see paragraph 2.2.1 The Com- mand Line for more information) and the LINE command will be started. KeySIGN provides default values for many commands such as HV for the HEAVY text command.

The ASIGNALIAS command opens the alias configuration file ‘Asign.pgp’ in Notepad so that it can be edited. This effectively puts AutoCAD on hold so it will be necessary to close Notepad to return to AutoCAD. The format to define a command alias is described in the file.

Care must be taken when creating new command aliases, so that an alias is not chosen that is already assigned to a standard AutoCAD command. AutoCAD command aliases take priority. The following are guidelines will ensure the correct working of a command alias.

.

1. Test the alias chosen first so as not to use one defined by the AutoCAD alias file 'ACAD.PGP' (AutoCAD alias will over-ride any defined in this file). 2. Try the first character of the command, then try the first two, then the first three or for commands such as ASIGNALIAS try ‘AA’. 3. Ignore "DD" at the beginning of a command. 4. An alias should reduce a command by at least two characters and be memorable.

When you exit from Notepad AutoCAD will be reactivated and the asign.pgp file will be reloaded, thus updating the command alias definitions immediately.

- 172 - Chapter 5 – Standard TSRGD Signs

Many of the vertically mounted traffic signs shown in the TSRGD have no permitted vari- ants. These are referred to as standard signs. A library of these is provided, and it is often required that these be shown in the drawings.

Although KeySIGN was originally created to help with the design of Direction Signs, the system has been expanded to provide many of the standard signs used in Traffic Man- agement schemes. A small number of warning and regulatory signs can be shown on dir- ection signs, and all are available to show in location plans. Routines to provide the variable message features of steep hill signs etc are automatically called up when appro- priate. Newer routines to provide sub plates, backing boards, numbers of lanes and a range of vehicle types have now been included to enhance the use of KeySIGN.

Bearing in mind the design unit for sign design, and therefore in the KeySIGN design environment is the stroke width; and that in the drawing of the standard signs in TSRGD are dimensioned in millimetres, a scale factor has been applied. It would not have been appropriate either to show these at real height for example 0.6 (m) or 600 (mm) of a draw- ing unit high as this would have been either too small or too large in comparison with dir- ection sign designs so a conversion has been made in the drawing of these signs.

The signs have all been drawn based on an assumed x-height of 100mm, and at the default size shown in TSRGD. For example Diagram number 501 has a default height of 600mm. Since an x-height of 100mm (4 s/w high lower case letter ‘x’) means one stroke width is 25mm this sign is drawn at (600 ÷ 25) 24 s/w high.

The various thumbnail image menus are shown using a command. Whilst it is unlikely that these will ever be typed at the AutoCAD Command line, they do allow for command

- 173 - repetition. So if a number of signs are needed the thumbnail menu can be brought back up by simply pressing ENTER.

The commands available to show thumbnail image menus are as follows:

WARNINGSIGNS All Warning signs WARNINGLAYOUT Warning signs related to road layout WARNINGHANDSA Warning signs related to humans and animals WARNINGTRANS Warning signs related to transportation WARNINGWEATHER Warning signs related to weather WARNINGTRAMRAIL Warning signs related to Tram and Rail facilities REGULATORYSIGNS All Regulatory signs REGULATORYMOVEMENT Regulatory signs relating to vehicle movement REGULATORYUSER Regulatory signs relating to vehicle /road type INFORMATORYSIGNS Informatory signs LANESIGNS Dedicated Lane signs PARKINGSIGNS Parking signs BUSTRAMCYCLESIGNS Signs relating to Bus, Tram and Cycle facility SCHEDULE12SIGNS Schedule 12 Road Works signs BUSLANE Bus lane signs

- 174 - Figure 5.1 – The Transport Warning Signs Image Menu

5.1 Warning Signs

The standard warning signs have been grouped into:

Road Layout Humans and Animals Transport Weather and Miscellaneous.

Rail and Tram

- 175 - Thumbnail display menus are used to help with selection thereby making the knowledge of the actual reference numbers unnecessary.

So for example if the warning sign for a tractor is required, select the Transport icon from the Warning signs toolbar flyout (see paragraph 2.2.4 The Toolbar Menus for inform- ation about toolbar flyouts and Chapter 12 – Button Directory for the KeySIGN toolbar button directory). Alternatively use the ‘KeySIGN > WARNING Signs > Transport’ pull- down menu item. The dialog box shown in Figure 5.1 – The Transport Warning Signs Image Menu is shown. Double-click the tractor sign then pick the point on your drawing where you want the sign to be inserted.

Some signs have built in permitted variants, for example the sign for a steep hill. This is obtained in the same way, from the ‘Road Layout’ thumbnail image menu, but after the sign is inserted you will be prompted to state the gradient of the hill. Type in the gradient, say 15%, including the ‘%’ character and the sign will change to the appropriate gradi- ent.

Figure 5.2 – Edit Permitted Sign Variants Dialog

Note some signs can be placed on direction signs. These are listed in TSM Chapter 7, Appendix D, page 149. When inserting any of these signs an additional option is given. Enter ‘f’ so that the sign is inserted at the correct size.

- 176 - The sign may appear in one of several ways when it is inserted. See the signs shown in Figure 5.3 – Different Displays for Standard Signs, (a) – all the colour fill layers switched off; (b) with fill layers on, but gradient still text (attribute) object attached to the sign and (c) after the UNBLOCK command has converted the variable attribute into text which has then been changed with Real Text to produce the full display.

(a) (b) (c)

Figure 5.3 – Different Displays for Standard Signs

Note the command BFIL will toggle colour filled layers on and off and should be used to synchronise these.

5.2 Regulatory Signs

The standard regulatory signs have been grouped into:

User Movement

Thumbnail display menus are used to help with selection thereby making the knowledge of the actual reference numbers unnecessary.

- 177 - So for example if a regulation relates to the type of road user e.g. HGV, Pedestrian, Horse rider, height restriction, etc choose the USER category and if it relates to move- ment e.g. No right turn, 40mph limit, No Entry, etc use the MOVEMENT category.

Some signs have built in permitted variants, for example the sign for a height restriction. This is obtained in the same way, from the ‘User’ thumbnail image menu, but after the sign is inserted you will be prompted to state the height limit.

Note some signs can be placed on direction signs. These are listed in TSM Chapter 7, Appendix D, page 149. When inserting any of these signs an additional option is given. Enter ‘f’ so that the sign is inserted at the correct size.

The sign may appear in one of several ways when it is inserted. See the signs shown in Figure 5.3 – Different Displays for Standard Signs, (a) – all the colour fill layers switched off; (b) with fill layers on, but gradient still text (attribute) object attached to the sign and (c) after the UNBLOCK command has converted the variable attribute into text which has then been changed with Real Text to produce the full display.

Note the command BFIL will toggle colour filled layers on and off and should be used to synchronise these.

5.3 Informatory Signs

- 178 - These signs are mostly in the 800 and 7010 series of TSRGD reference numbers. Selec- tion is similar to Warning Signs etc.

Remember that if a sign is of the same design but the colour may not be appropriate, then there are always the AutoCAD functions to edit signs. For example the chevron signs are supplied with a blue background, being used most often on Motorways. But if they are required on a Principal road or other class of road the properties of the back- ground can be edited. Place the sign on the drawing in the normal way e.g. the 2 mark countdown Ref 824. Use BFIL to switch on the colour fills if not already displayed, then use the EXPLODE command to make the sign editable. Pick the blue background then pick PROPERTIES, then layer GREENFIL. By virtue of the colour of the background of the sign being set to BYLAYER and the colour of the GREENFIL layer being set to green, the background will automatically become green when the layer is changed. Alternatively, see the command CHANGEBORDERCOLOUR if the sign is not yet filled.

5.4 Bus, Tram and Cycle Signs

Signs in the 950 and 960 series of TSRGD references are covered in this section. They are called up in the same way as the previous groups. So for example if you wish to select a contra-flow bus lane (TSRGD diagram number 960), with cycles allowed, pick the appropriate diagram, which in KeySIGN is called 960A, from those displayed. Pick the INSERT button then choose the insertion point on the screen.

- 179 - Figure 5.4 – An Example of Sign Diagram 960

This can be edited if there is only one lane for normal traffic, however there is now a routine which automatically creates the many variations available in these signs. See paragraph 4.6.5 Bus Lane Signs: BUSLANE for more information about the BUSLANE command.

5.5 Schedule 12 Signs

This command shows a thumbnail menu of the signs available from Schedule 13 of the TSRGD (schedule 12 in previous TSRGD). The menu contains miscellaneous Warning, Informatory and Regulatory Signs for Road Works etc. The command can be found on the main KeySIGN pull-down menu. The first page of the thumbnail menu is shown in Figure 5.5 – The Thumbnail Temporary and Road Works Signs.

- 180 - Figure 5.5 – The Thumbnail Temporary and Road Works Signs

5.6 Bus Lane Signs: BUSLANE

Located on the Flyout tool bar below the Informatory Sign Icon, the Bus Lane Sign icon will display the dialog box shown in Figure 5.8 – The BUSLANE Command Dialog: TSRGD Diagram 960.

- 181 - Figure 5.6 – TSGRD Diagram Number 958 Sign

Check buttons allow options to be chosen to use the normal bus symbol or the local bus symbol, to include cycles and/or taxis, or to restrict it to cycles only. The type of sign can also be chosen if it is to be an advance sign, one for the start of the restriction or used as a repeater along the restricted route. Alternatively, a contra-flow sign can also be chosen. In the latter case the number of lanes available for normal traffic can also be selected. So if a contra-flow lane for local buses and cycles with one opposing lane was to be chosen the dialog box would be completed as shown in Figure 5.8 – The BUSLANE Command Dialog: TSRGD Diagram 960.

Where a time plate is relevant, check the selection box and the bottom half of the dialog box becomes available, enabling the times to be varied as appropriate. So a sign to TSRGD Ref 958 can be combined with a Sign Ref 961 by filling in the dialog box as shown in Figure 5.7 – The BUSLANE Command Dialog: TSRGD Diagram 958 with the following results shown in Figure 5.6 – TSGRD Diagram Number 958 Sign.

- 182 - Figure 5.7 – The BUSLANE Command Dialog: TSRGD Diagram 958

- 183 - Figure 5.8 – The BUSLANE Command Dialog: TSRGD Diagram 960

5.7 Other Commands Relating to Standard Signs

5.7.1 Adding a Backing board: BACKINGBOARD

- 184 - This command generates the high conspicuity and grey backing boards used to emphas- ise the presence of Warning Signs or improve the appearance of sign assemblies. The dialog that the command presents shows various options, for example board colour, x- height, sign height and so on. Depending on whether a warning, regulatory or direction signs will be selected options will be made available as appropriate.

5.7.2 Standard Sign with Supplementary Plate: SIGNANDSUPPPLATE

A supplementary plate can be automatically placed below a selected sign with the appro- priate wording and an option is given to create a backing board. See the SIGNANDSUPPPLATE command in paragraph 4.6.7 Sign / Supplementary Plate Command: SIGNANDSUPPPLATE for full details.

5.7.3 Automatic Standard Sign Routines

There are many other signs which are not pre-drawn and saved into the Sign Library. A list of these can be found on the ‘KeySIGN > Automatic Signs > Other Signs’ pull-down sub-menu and includes various small simple signs with a limited number of permitted variants. Choice of variant is simple, through a dialog box entry as shown in Figure 4.37 – The SIGN Command Showing Dialog Box Entry. See more detail about these routines in paragraph 4.6.6 Other Automatic Standard Sign routines: SIGN.

- 185 - Figure 5.9 – The Backing Board Dialog

- 186 - Chapter 6 – Post and Foundation Design (Wind Loading)

6.1 Exporting Sign Face designs from KeySIGN

Within KeySIGN, once a sign face design has been completed, it is possible to export this for use in KeyPOST. It is worth ‘Colour Filling’ the final design so that the fully col- oured sign can be viewed in full in the KeyPOST designer, and shown in the output report. The command can be found on the pull-down menu or the Ribbon.

Figure 6.1 – KeyPOST Export/Import menu items

- 187 - The ‘Export sign face command (shown on the Ribbon menu in Figure 6.1) can be used to create drawing file (using WBLOCK), that contains only the sign, for use on location plans. Clicking on the command gives the choice of this (see Figure 6.2 below).

For export to KeyPOST click ‘Sign and Data for KeyPOST’. This will bring up the dialog shown in Figure 6.3.

The dialog shown below is provided to allow multiple signs to be exported as an assembly. This therefore requires and Assembly Reference to be entered, and each sub- sequent sign added will use this as a prefix for its reference. The dialog below shows the Proposal Reference of ‘Proposal1’. And the sign added has the reference ‘MySign’.

Figure 6.2 – Export to KeyPOST dialog

- 188 - The export creates a number of files (image, data etc.), and it is necessary to be able to find these for importing into KeyPOST. Check the ‘Files Export Folder’ and browse to a different location if required.

Once all of the signs required in the assembly have been added, click ‘Export Assembly’ to create the files in the specified location. A number of operations are carried out. When this is complete the message shown in Figure 6.3 allows KeyPOST (if installed) to be launched and the process completed.

Figure 6.3 – Launching KeyPOST after export

6.2 Launching KeyPOST from KeySIGN

Launch KeyPOST directly from within KeySIGN using the icon shown. This is the same as was used with the previous version of the post and foundation module bundled with KeySIGN. This starts KeyPOST into the same mode as

- 189 - 6.3 Returning results to KeySIGN

Click on the icon shown, which is shown next to or below the icon for launching KeyPOST. This allows for the results of the calculations to be imported (see Figure 6.4). A choice is first offered for import from KeyPOST, or the legacy results file from the KeySIGN Post and Foundation module. Click ‘Import from KeyPOST’ to select the output file containing the results. This will have the same name as the exported assembly.

Figure 6.4 – Import from KeyPOST options

The results are shown in an AutoCAD block so can be edited, or the block amended to include additional attributes if required.

- 190 - Figure 6.5 – Foundation and post details imported from KeyPOST

- 191 - Chapter 7 – Sign Design Tutorials

7.1 The Flag and Stack Type Signs

Start AutoCAD, or start a new drawing using the pull-down menu item ‘File > New’. This will start a file selection dialog from which the normal KeySIGN template drawing file should be selected to start a new drawing.

Figure 7.1 – The File New Dialog Showing the Available Template Drawings

A blank screen should be displayed with the exception of the grid of dots. As an example we will go through the basic process of designing a Tourist information sign with the legend ‘Humber Bridge’ split on two lines. The sign will show the tourist symbol used to represent a viewpoint

- 192 - For brown signs, as with any dark background signs, the text font is Medium, so for the text for this sign select the MEDIUM command from the main KeySIGN toolbar or directly from the KeySIGN pull-down menu. The second line of a single destination should be centred under the first line, therefore respond to the request for a start point for the text, when the options for the text commands are shown, with a ‘C’ and then Enter. Using the mouse, select a suitable point on-screen for the centre of the text. It is useful as always to select a point that lines up with the Grid of dots.

Figure 7.2 – The Completed Flag Sign Tutorial

When the centre point is selected, type the text ‘Humber’ (without the single quotes). Press Enter to move the cursor onto the next line down to type an additional line, and then type in ‘Bridge’. At this point it appears that the computer has ignored your request for the text to be centred. Pressing Enter twice finishes the command (no additional lines required). At this point the centre justification is calculated.

- 193 - To introduce the view point symbol, select this from the ‘Tourist Outdoor’ thumbnail image menu. Click the View Point (T9) image then the "Insert" button (double-clicking is also supported). Select the "Left" button to indicate which way the sign is pointing, and finally select the sign objects that the symbol will go with, in this case the two text objects ‘Humber’ and ‘Bridge’. Use of a Window to select the objects is recommended. Lastly, confirm the selection by pressing ENTER. The routine will locate the 14 s/w high View- point symbol in the correct position 2.5 s/w to the right of the legend and 0.5 s/w above the horizontal centreline of the two lines of legend.

All that remains is for the flag chevron and border to be added. Pick the FLAG com- mand’s toolbar or ribbon menu icon. Tell the computer we want a left facing sign by pick- ing the button labelled as such. Select the items to be included on the sign by clicking two corners of a window around the text and viewpoint symbol, and then press ENTER to end the selection stage. The flag border and chevron are now automatically drawn. Now tell the computer that we do not want to display the 2 s/w offset line inside the chev- ron.

You are now asked if you require the Sign Detail Block, so pick the "Yes" button. The dia- log box shown in Figure 7.3 – The DDETAIL Dialog for Tutorial Flag Type Sign is dis- played

- 194 - Figure 7.3 – The DDETAIL Dialog for Tutorial Flag Type Sign

Type a reference for the sign in the box labelled for this. This may be used later in the post size calculations. Now change the x-height to say 75 (mm). The program may identify the sign as being of type tourist, if not, select this sign type from the list. Ensure that the background colour is Brown. Ensure that the other items displayed are sat- isfactory then pick the "OK" button, "Proceed" from the ‘Really Sure’ confirmation dialog

- 195 - showing the final area for the sign and OK the ‘Edit KeySIGN attributes’ dialog if it appears.

The entries are then displayed below the sign face together with the calculated height, width and area of the sign.

If you would like to indicate background colours without using the full colour option, you can add the background colour to a small area of the sign. Use the BGROUND com- mand which can be started from the ‘Sign Utils > Colour Fill > Colour Flash’ pull-down menu item. Select an inner corner of the border (usually at the top) of the sign by placing the selection box over the inner radius where you require the coloured 'triangle'. The solid triangle will be drawn and you may be asked to specify its colour (the default value is the colour previously specified as background). When you have responded the tri- angle will automatically change to the specified colour.

A command BORDERFILLSIGN, to fully colour the sign is fully described in paragraph 4.7.2 Colour Filling Signs: BORDERFILLSIGN.

There are a number of ways to produce the opposite handed sign. It is probably best to copy the text, and then insert another symbol using the same procedure. The SYMBOL command will position the symbol on the correct side of the destination (opposite to the chevron) and mirror any directional symbols. Then just redraw the FLAG border.

Destinations/Symbols/Mileage etc should be 2 s/w from the chevron. Left pointing flags are not a problem but where a middle line of text on a right pointing flag is the longest it may be possible to reduce the length of the sign. Use the 2 s/w offset construction line, offered in the Flag routine, then use the STRETCH command to enclose the pointed end of the flag and chevron and stretch it back so that the construction line lies on the right hand tile mark of the long destination. Often, however, it will not be necessary to do this,

- 196 - especially if either a benefit is gained by spanning an urban footway with the longer vari- ation, or if the two opposite approach signs are to be mounted back-to-back.

To plot the finished sign, see page 7-36 for full details.

7.2 Stack Type Advanced Direction Sign (ADS) 1: Creating Destination Blocks.

The design of the “2 stack” ADS shown right, would not be recommended due to the number of destinations included, but has been chosen to explain some of the many dif- ferent items and spacings that may be encountered when designing a direction sign.

It is normal practice when doing a multi-stack type of sign, to put together each section of the sign in turn, as if they are individual signs. The sign border is created towards the

- 197 - end as one combined border which pulls the top and bottom sections together into the correct positional relationship.

We will start by assembling the destination blocks.

1. Top part of the sign

a. Type the destinations using the ‘Medium’ text command.

NOTE When typing the route text, it is important to remem- ber the small space (1 s/w) that is required between the ‘M’ and the ‘25’. Use the Shift + ‘\’ key combination for the ‘|’ symbol used to represent to gap.

By picking new points on the screen for each subsequent line it is possible to position the next line of destination so as to allow room for patches and vertical spacing between destination blocks.

b. For the ‘Roman villa’ medium text needs to be picked again, this time using the ‘c’ option to centre those two lines.

Alternatively, if the ‘c’ option is omitted, the text lines can be centred using the appropriate alignment tool.

- 198 - c. Using the ‘Route’ command the route numbers can be added.

It is possible to use route for the whole M25 destination, but the ‘Patch’ command is used as an alternative to add the patch border lines to route number text. This command is very like the ’Panel’ command described below.

d. The symbol is added to the text ‘Roman villa’. This is automatically positioned after selecting the text.

The Left/Right choice dialog also controls which side of the destination the symbol will be inserted and will also reverse the symbol if required by the rules.

- 199 - e. Using the ‘Panel’ command the ‘Roman villa’ text and symbol can be selected to be put inside a brown panel with a border.

After the panel border is drawn, choose the appropriate col- our and whether a border is required (dark backgrounds).

f. Using the ‘BlockSpacing’ command each of the 4 items are positioned under each other.

The 4 rules for Block Spacing (TSM Ch. 7 Figure 3-15, Page 24) are applied automatically when using this com- mand. The actual gap applied is quoted on the command line.

Remember that there are two separate selections required. st nd 1 the items to be moved, 2 the static (reference) items to st which the 1 set are aligned.

- 200 - g. The final item to be added to this part is the arrow.

Remember to select all objects in the section so that the arrow is correctly located both vertically & horizontally

2. Second (bottom) part of the sign.

a. As the destinations are inside a white panel then ‘Heavy’ text command is used to type them. Normally these are shown in a purple colour to distinguish between the two main fonts.

Again rough gaps have been deliberately used between each destination for later alignment.

- 201 - b. The route command is used again to add the route num- bers next to each destination. No border will be required in the light background, non-primary panel. This ensures the correct application of the Line Spacing rules (TSM Ch.7 Figure 3-14, Page 23).

c. Next the block spacing command aligns each des- tination one at a time.

Line spacing rules are automatically applied to the A122 and the B470 positioning.

d. The ‘Panel’ command is again used to add a white panel around the whole of the destinations.

e. Then a diagonal arrow is added to the outside of the panel by selection all the objects in the bottom part of the sign.

3. Putting the two parts together in a “2 stack” border.

- 202 - a. The 2 stack border routine requires the selection of all objects in one section at a time.

Select objects for the top part of the sign first. Keep an eye on the command line to see which section is being selec- ted

b. After the border is drawn the sign detail block is added, where options for x-height, colours and material are selec- ted.

nd st NOTE the 2 section is moved and aligned under the 1 . It is useful to consider leaving room for this when creating st the destinations for the 1 part. The sign can then be copied and coloured if required using the ‘BORDERFILLSIGN’ command.

- 203 - 7.3 Stack Type Sign Design 2

Figure 7.4 – The Completed Stack Type Sign Tutorial

Pick MEDIUM text and enter 'C' to centre each line of text. Type in 'Humber' and press Enter for a second line. Type 'Bridge' then pick a point on-screen approximately one tile height below. The text cursor icon should move to the new point. Now type 'Skidby', again pressing Enter for a second line. Type 'Windmill' and pick a further point, again about one tile height below. Finally, type 'Hull', then Enter followed by 'Marina' and Enter again twice more to finish the text entry.

Select the icon (Outdoor Tourist Attractions), then the Viewpoint symbol from the thumb- nail menu shown. Insert the symbol against the text ‘Humber Bridge’ by placing a

- 204 - selection window around the text ‘Humber Bridge’, and pressing RETURN to finish the selection procedure.

Hold the pick button over the icon then drag the pointer down to and release the pick button. The straight ahead arrow is selected for placement against the destination objects. Select these, the two lines of text and the Viewpoint symbol, to place the arrow.

Figure 7.5 – The DDETAIL Dialog for Tutorial Stack Type Sign

- 205 - In a similar way select and insert the Windmill symbol (Buildings section) and Historic Dockyard symbol (Transport Section) on the appropriate tile marks of ‘Windmill’ and ’Marina’. In the case of the Marina symbol you will be again prompted to specify which direction the sign faces.

In a similar way pick the left pointing arrow from the toolbar flyout and insert it against the text ‘Skidby Windmill’, then pick the 'Other arrows' icon and select the 45 degree right pointing arrow from the icons displayed and insert it by selecting the text ‘Hull Mar- ina’.

Now pick the three stack border icon from below the borders toolbar flyout, or ‘KeySIGN > BORDERS: Panels/Flags/Stacks > 3 Stack’ pull-down menu. Place a window around each group of text and symbols to select them in turn, remembering to press RETURN after the contents for each part of the sign have been selected.

Now the computer takes over by moving everything into position and drawing the appro- priate borders, panel dividers and justifying right pointing destinations. Enter information in the DDETAIL dialog box as required (see paragraph 4.7.7 Adding Detail to the Com- pleted Signs: DDETAIL).

A final check can now be made off the design of the sign by switching off the NOGO layer and the TILE layer and changing to the duplex font. All this can be achieved by typ- ing 'DUPLEX'. Try also typing 'DOTON' and 'DOTOFF' to see how they alter the present- ation of the sign. You can normally assume that if the sign looks reasonable it will be satisfactory.

- 206 - For a final display the button will allow the sign to be fully coloured, if required. More information on this routine is given in Chapter 4.

To plot the finished sign, see 7-36 for full details.

7.4 Map Type Signs Tutorial 1: A Roundabout ADS.

Earlier we did a Stack type ADS, here are the steps to creating the roundabout ADS shown below:

Figure 7.6 – The Completed Map Signs Tutorial

1. Following the principle of – “centre first, border last”. The first item to select is the round part of the roundabout map. There are 6 icons for the different roundabout centre parts.

- 207 - st This one is a normal, round roundabout centre (the 1 icon)

The red line around this and other symbols is called the ‘NOGO’ line and is used for positioning other items.

2. The arms are then added. The entry and exit arms can be 3 different widths depend- ing on the classification of the road they represent. – see TSM Chapter 7, paragraph 5.2, page 41.

There are 3 icons for the arms - Entry, Exit & Stub arm exit

2a. The entry arm is added, (6 s/w for the green back- ground / primary route)

Remember to pick the outer line of the symbol (KeySIGN needs to know the radius due to the many different roundabout symbols)

- 208 - 2b. The exits arms are added. 4 s/w for the left arm, 6 s/w for the ’11 o’clock arm, 4 s/w for the 1 o’clock arm & 2½ s/w for the right-turn exit to suit the classes of each road.

”Ortho” can be used for the left and right angles. To cre- ate symmetry the angles of 120 and 60 are “typed in” for the other two arms.

7.5 Map ADS Toolbar.

One of the significant benefits of using map type ADSs is that you can give a rep- resentation of the junction ahead to the driver. Junctions come in many shapes and sizes this can lead to many different and unusual maps needing to be drawn.

- 209 - The above examples are a few, just taken from the previous TSRGDs.

Most of these map signs can be drawn using standard AutoCAD commands such as: line, polyline, arc, offset, fillet (radius 1) etc. Remember that the width of any of the arms including the approach arm is related to the classification of the road they represent

- 210 - However to assist the users in creating a map layout KeySIGN provides a number of tools.

1. The Crossroads (XRDS) command

Because there is an option for each arm for ‘none’, it is possible to produce not just cross- roads layouts, but various T-junction maps

- 211 - 7.6 Map type Signs Tutorial 2: Simple Roundabout Sign

The sign shown in Figure 7.7 – Map Type Sign Tutorial contains many of the design features of map signs and it will serve as an example to try out the various routines and AutoCAD commands that you will use in the day to day design of this type of sign.

Figure 7.7 – Map Type Sign Tutorial

Using the KeySIGN toolbar, pick the roundabout symbol icon. Insert the roundabout symbol onto the screen by picking a point in the centre. An additional tool bar should have appeared so pick the icon then select the appropriate size of approach arm from the dialog box, small (2.5 s/w wide) for minor roads, large (6 s/w) for Primary Routes

- 212 - and medium (4 s/w) for numbered Non Primary routes. The insertion point request asks you to "Pick the outer Circumference of the roundabout" and provides you with a small box at the intersection of the screen crosshairs. Lay this box over the outer circle of the roundabout symbol on the screen and press the PICK button. The entry arm is auto- matically positioned on the roundabout.

If you prefer to use the pull-down menu you will find the routine on ‘KeySIGN > Map Sign: ROUNDABOUTS > Roundabout’.

Now pick the icon. Again you are asked to select the circle on which the arm is to be inserted. This time you also need to choose the angle at which the arm is inserted. You will notice that movement of the mouse will result in the arm rotating about the centre of the roundabout symbol. You can either press the PICK button when you have selected a suitable position or type in the number of degrees measured anticlockwise from the right pointing horizontal. In other words, entering ‘180’ will produce an arm pointing to the left.

Note the use of ORTHO (F8) will force arms to be inserted at the 90 degree intervals.

Proceed in a similar way with the other leaving arm and the stub selected via the icon. Do not worry at this stage about the length of the arms. These are edited later when, with the destinations in place, it is known how long these should be made.

We are now ready to deal with the text. We will use a feature in the Automatic One Stack routine. Pick the icon or the ‘AutoONESTACK’ menu item from the ‘KeySIGN > Auto- matic Signs’ pull-down sub-menu. The DDONESTACK command dialog box will appear.

- 213 - The sign is on a Primary Route so PICK the arrow on the ‘Sign classification’ list box and highlight ‘Primary’. Now pick the black box in the ‘Select arrow /Direction’ area until the ‘No arrows’ title appears and ensure that the ‘Draw Border’ check box is not ticked. Now PICK the box below ‘Destinations’ and type ‘Leeds’, then PICK the box below and type 'Humber Br.' and finally type 'Goole' on the third line.

PICK the box below ‘Route’ and opposite ‘Leeds’ and type ‘(M|62)’ and ENTER. Note what happens if you type in '(m62)’ - your mistakes will be rectified. You will also notice that the ‘+ Class’ box has changed to ‘M'way’. Add '(A|15)' and '(A|614)' to the second and third Route boxes. Note the system cannot tell if an A road is a primary or non- primary so you will have to select that information when appropriate.

Now pick the "Draw" button on the dialog box. It will tell you to fill in a reference before you can proceed. Type a reference in the box provided, and click on the "Draw" button again. Pick a point on the screen clear of the roundabout symbols and you should find that the correctly assembled text group is drawn out. Erase the arrow.

Now select the 'Construction box around sign elements' from the 'Sign Utils' pull-down, and select all the elements in the group. Use ‘Sign Utils > Selection Tools > Group Sign elements’, to create a single element with the default reference ‘M62’. Now move the whole text block and the surrounding box into position over the forward route arm of the roundabout. Make sure that the red NOGO lines are displayed around the roundabout and arms. If they are not visible type 'NOGO' at the AutoCAD command prompt to toggle them on.

Use the MOVE command, selecting any item in the Group. For the ‘base point’, use the Object Snap - MIDpoint (automatically appears as a small triangle when the selection box is over the line and in the vicinity of the line's mid point) and select a point near this on the bottom edge of the construction box.

- 214 - Use the tip of the inner red NOGO line above the forward arm as the ‘displacement point’ for the MOVE, so that the text lies above the arm as shown in Figure 7.8 – The Default Location for Exit Arm Destination Text.

Figure 7.8 – The Default Location for Exit Arm Destination Text

Note the outer NOGO line around the arm would be used if the text group were con- tained within a panel or a patch was necessary around the ‘(A614)’ route number.

Now for the side destination, this will consist of black lettering in a white panel so pick the icon and select a point on the left hand side of the screen. Enter the destination ‘Docks A|1033’ and press Enter. Now pick the icon and browse through the symbols to find the appropriate ferry symbol, double-click it, select the sign type (non-primary), then the option for the symbol to be positioned below text. Select the ‘Docks’ text. The ferry will be automatically be positioned 0.5 s/w below ‘Docks’.

Pick the PANEL command icon . Follow the prompts, there will be no need for a bor- der for a white panel on a green background nor is there merit in showing the colour flash for this exercise.

- 215 - Adjust the dialog box entries and options accordingly, and then create the panel by using the ‘Select’ option to place a box around the text and Ferry symbol.

Use MOVE again to position the panel under the roundabout arm. PICK the border, Docks and ferry then ENTER. Use the OSNAP APP (for APParent intersection). This identifies a point where two lines would meet if they were extended. When the MOVE command asks for the base point type in ‘APP’ then move the cross-hairs over the right hand edge of the panel. Pick the point when the coloured symbol is displayed. Now move the cross-hairs over the top edge of the panel and a yellow should appear just off the top right of the panel radius, where the two extended sides would meet. Finally for the 'second point of displacement' use the OSNAP INTersect and pick the intersection of the outer red NOGO line below the arm, and the red circle around the roundabout. The red NOGO lines mark the areas on which text and symbols should not encroach.

Note if you zoom closely to this insertion point you will see that there is a further pos- sibility of moving the panel slightly to the right if needed for complete accuracy.

Now pick the MEDIUM text font icon again and type the junction name ‘SAMMY'S

POINT’ somewhere above the rest of the sign information. The system reacts in a spe- cial way if all the text is in upper case and there is no arrow, as it should be for junction name titles, so it is important not to use lower case letters.

We now draw the border around the sign. Pick the button or ‘2 Stack’ from the

‘KeySIGN > BORDERS..’ pull-down sub-menu. Pick ‘SAMMY'S POINT’ and then press ENTER to confirm selection. Then pick two corners of a window to select the remainder of the sign information and ENTER again to complete this second selection. The whole assembly will be moved into its correct position and the appropriate borders drawn.

- 216 - When a border has been drawn you are asked if a ‘Sign detail block required?’. Responses are the same as those in earlier routines (see the DDETAIL command in 4.7.7 Adding Detail to the Completed Signs: DDETAIL).

The horizontal arm and approach arm lengths have to be adjusted. To extend the approach arm, pick the button on the Map Roundabout ADS tool bar. PICK the base of the approach arm then pick the bottom inner border of the sign. The arm will be stretched to 1.5 s/w above the inner border. Don't worry that the NOGO lines have been distorted, they are no longer required.

Lengths of horizontal arms should be adjusted to two thirds of the distance from inside to the outside edge of adjacent text/symbol/panel by using the ARM command. Pick the button on the Map Roundabout ADS tool bar. Firstly you are asked to pick the tip of the arm, then pick sign elements below the arm (it is sufficient to pick the panel border), then indicate whether the arm is pointing left or right. The arm will then be extended the correct distance. Again don’t worry about NOGO lines.

Finally switch the NOGO layer and TILE layer off and switch to the DOTOFF (duplex) font, for a final inspection of the finished sign. Typing 'DUPLEX' will achieve all these changes. Try typing 'DOTON' and 'DOTOFF' to see the changes made. DOTON should be used when designing, DOTOFF when plotting out many signs on a location plan.

When you are familiar with the system, the procedure should take about 10 - 15 minutes. You can now either plot out the sign or see if any adjustments can be made to reduce the overall size and hence save money. For example, the straight ahead destinations could be moved to the left slightly. This may not be strictly in accordance with the rules, but there is a certain amount of discretion, provided that the sign continues to be of reas- onable appearance. It has been found the savings in the order of 10% can often be achieved by reassessing the original sign layout.

- 217 - To plot the finished sign, see paragraph for full details.

7.7 Warning & Regulatory Signs on Stack type ADSs.

The regulations allow the use of a limited number of the Regulatory & Warning Signs to be shown on advance direction signs.

Here are the steps to creating this sign, taken from TSM Chapter 7, Figure 4-12, page 37.

To start, place the destination text and route no. onto the drawing using the command DESTINATIONBLOCK (or the HEAVY and ROUTE commands together).

- 218 - The sign(s) can be accessed from the icons

or just type SIGN, then the TSRGD Diagram number 529.

Do NOT pick an insertion point straight away, in order that the sign is the correct size to appendix D of TSM Chapter 7 - page 149, it is necessary to use the ‘F’ option for ‘direction sign Face’. The sign is then inserted at 20 s/w high, as stated on the command line.

Next a normal “1 stack” sign is created for the distance plate

NOTE, miles & yards = normal text but if abbreviated to ‘yd’s or ‘m’ then different spacings apply. See Ch7 page 10 fig 2-2.

The outer border is deleted (dark background) and the whole plate scaled by 0.8 (80%)

Next a series of alignments are done to position the plate under the triangle and then get both signs to the left of the destination text.

- 219 - 1½ s/w between sign and plate,

2½ s/w between signs and destination.

à à

à

Note The final ½ s/w movement higher for the sign than the text. This is so that the spa- cing above or below the sign & text is correct to the panel border.

- 220 - The signs and destination are then put in a green panel using the PANEL command (with no white border as the non-primary panel background is white)

The arrow is then added and finally the “1 stack” border routine used, to create the finished sign.

If desired a copy of this sign can be ‘colour filled’ to give the complete sign face image shown below.

- 221 - Hey Voila

If two warning signs are required (be warned this can make the sign prohibitively large). They are often be inserted at different sizes. (20 & 24 s/w in the following example)

- 222 - Chapter 7, paragraph 4.27, page 40 requires them both to be at the same size as the larger one, so:

The scale command can quickly be used with the “R” ref- erence size option.

A series of alignments can then be used to position the signs side by side.

Gap between signs is 0.1x roundel diameter or 4 s/w if two triangles. – Ch7 figs 4-13, 4-16 & 4-17

- 223 - A ‘1 stack’ sign is added next using the HEAV text com- mand, followed by the ‘1 stack’ border command again.

Lastly, use the alignment tools to aligning the plate to the two signs - centred (ALIGNCENTRES) and below (TOPTOBOTTOM), with a gap of 2.5 s/w below (use the Move Tools for this).

- 224 - The signs should then be aligned next to the text, 2.5 s/w away.

After which the arrow can be added.

A ‘1 stack’ border finishes the sign, which can then be coloured to give:

the Final Sign Face.

- 225 - 7.8 Plotting

To fill the screen display with the whole drawing PICK the Zoom sub-menu from the View pull-down menu, then the ‘Extents’ item or double-click the wheel mouse if avail- able. Then PICK ‘Plot...’ from the File pull-down menu. You are now presented with the dialog shown in Figure 7.9, which allows many conditions to be placed on the plotted output. We will tell the program to plot the extents of the drawing and ask that it be fitted to an A4 sheet.

Figure 7.9 – The Plot Dialog for R2012

- 226 - In R2004 or earlier, having chosen an A4 or larger format plotter/printer from the Plot Device tab, switch to the Plot Settings tab. For the Plot Area, pick the ‘Display’ ‘radio-but- ton’ option. Now select ‘Scaled to Fit’ from the Plot Scale pop-list. Check to see if everything is set correctly by picking the “Preview” button on the bottom of the dialog. This is always worth doing to be reassured that the output will be correct, and to save paper and money. Right-click the mouse to see a small menu in the plot preview win- dow. If all looks acceptable choose ‘Plot’ to print the drawing as previewed, or ‘Exit’ to return to the Plot dialog if any changes are required.

If the preview was not satisfactory check:

I. the ‘Paper size’ II. the Drawing and/or paper orientation III. the Plot scale

Plotting scales always generate some confusion. The easy way is to respond 'Scaled to Fit'. The area selected for plotting will then be scaled to fit the specified paper size.

An alternative to an ‘unscaled’ plot fitting the chosen paper size, is to choose a ‘Custom’ scale from the ‘Plot scale’ pop-list, and then to enter a value for the (plotted) ‘mm’ and then a value for how many (drawing) units this should equal. So for accurate scaling of a sign design (into which equation must also be added the relationship between the draw- ing unit, the stroke width, and the x-height), fill these boxes in, in the form a mm = b units, where "a" is the size of 1 s/w, and "b" is the desired scale.

Note the lower case ‘x’ is half the tile height, i.e. 4 s/w, therefore 1 s/w is equal to the x- height divided by four.

- 227 - Therefore, if the sign has an x-height of 100 mm one s/w is 100 ÷ 4 i.e. 25, and if the plot- ted scale is to be 1/20th, then respond to the scale prompt by entering "25 mm = 20 units" (see below). A sign with 200mm x-height plotted at 1/25th would require "50mm = 25 units" to be entered etc.

Note if two text sizes are shown on the same sign make sure that the letter size used is that which remains at 8 units tile height on the drawing.

If everything is satisfactory pick the button and the sign should be printed out.

- 228 - Chapter 8 – Real Text

8.1 General Issues

‘Real Text’ has been developed to enable a traffic sign to be fully coloured in AutoCAD. It also has the advantage that the Real Text characters are as accurate as any font avail- able. The characters are the originals produced by the DfT and can therefore be used for the full size manufacture of Traffic Sign legends and where appropriate full sign faces.

Real Text also incorporates the kerning rules where capital letters T, V and Y occupy slightly smaller tiles when followed by lower case a, e, g, o, r or u; and when an upper case W is followed by an upper case T, V, X, Y or Z.

Four options are available with Real Text. It can either be applied to all the text in a draw- ing (globally), selected text (one or more lines) at a time, it can fit letters along a polyline or arc, or it can allow the user to type Real Text characters directly onto the screen.

Provided that the text is on the SIGN layer and is one of the four Transport fonts, Real Text will break down the string of text into individual characters. These characters are then redrawn in the same position as the original, on a layer called ‘RealText’.

The text is comprised of an outline, used for cutting in the manufacturing process, and a solid fill within the characters. The solid filling is on a layer named ‘FILLTEXT’. This can be toggled on and off by typing the command BFIL, which also toggles the colour fill lay- ers. See paragraph 4.10.4 Colour Fill Toggle: BFIL for more information.

- 229 - A new enhancement has been introduced whereby converted text letters are grouped to assist with the selection of ‘words’ made up of Real Text characters. This enhancement has made possible a complete revision of the whole mechanism of the conversion, which has now changed from earlier versions. Whilst the normal, un-converted text used to be retained on a layer called NORMTEXT, this is not now the case. Originally used to facilitate reversal of the conversion, this is now possible by way of information stored in the drawing which groups letters from the original text.

Note the AutoCAD system variable PICKSTYLE must be set to an odd number for selec- tion of groups to be enabled.

Once Real Text has been substituted via any of the routines the user can move and rotate each character individually.

WARNING - The use of Real Text has a substantial effect on the size of drawings. It should be used with discretion in terms of the performance of your hardware. The larger a drawing the longer the drawing will take to be opened and saved, and regeneration times will also be increased. Should users wish to reduce the size of the drawing after Real Text, various means are provided. For example the standard AutoCAD command PURGE can be used, however, a bespoke KeySIGN command PURGERTEXT is provided for this specific purpose. See also the APURGE command, and the ‘Drawing Tidy Up’ routines described in 4.12.7 Drawing Tidy Up: DWGTIDYUP .

8.2 The Commands

8.2.1 Applying Real Text to All Text in a Drawing

- 230 - Selecting this particular conversion commands will process ALL Transport Text legends, in the current drawing, into Real Text letter blocks. This is not a command so cannot be repeated.

8.2.2 Applying Real Text to Selected Lines of Text: RTEXT_SELECT

Only selected lines of Transport Font text will be converted with this version of the con- version command.

8.2.3 Placing Real Text Letters Along a Line or Arc: RTL

This routine is unlikely to have any application in the traffic sign field unless a logo or similar feature is required. It is offered as a routine to assist in placing text along a line such as a river on a map. Before commencing the routine, ensure that a polyline or arc has already been drawn. The routine is similar to the others with the addition that the user is asked to pick a line along which the text is to be distributed.

Make sure that you select the line near the end at which you wish the text to commence. A line drawn from left to right for example, and then selected at its right hand end may lead to the result of the text being drawn below the line and upside down.

8.2.4 Type Real Text Letters: RTEXT_TYPE

- 231 - This command allows for Real Text characters to be inserted into the drawing from key- board entry, without the need to convert text. Characters are placed in the drawing adja- cent to form words as with any text command. It is worth typing characters one at a time, however, as only one backspace is supported in case of mistakes.

8.2.5 UNDO Real Text: REVERSERTEXT

This command converts Real Text character blocks back to standard AutoCAD text objects. It is done by reading grouping information from the current drawing. Select just a single letter block from the Real Text ‘word’. If the group information is not available, for example if the drawing has been inserted into another or the Real Text ‘word’ has been copied, the group information is not transferred. In these cases it will be necessary to type the original text into a small prompt dialog. If it is necessary to copy Real Text ‘words’, these should be (re) grouped using the SGROUP command, giving the newly created group a description that is the word itself (descriptions are used to restore the text).

8.2.6 Purge Real Text Letters from a Drawing: PURGERTEXT

PUREGRTEXT provides a quick, one-stop command to remove the unused Real Text letter blocks from the drawing, this routine will reduce the size of the drawing sig- nificantly. Simply select the command from the pull-down menu to purge the unrefer- enced blocks. See also the drawing tidy up routines covered in paragraph 4.12.7 Drawing Tidy Up: DWGTIDYUP .

- 232 - Chapter 9 - Manufacturing Features

9.1 Cutter Bed ‘Plotting’ Routines

These options on the ‘KeySIGN > Manufacturing’ pull-down menu allow overlays to be placed on a sign drawing which show the area of the cutting bed, the layout of various width planks and combinations of plate layouts scaled correctly for the x-height of the sign. By manoeuvring the plates and planks around the finished sign design, the most efficient layouts can be achieved to minimise cutting along lines of text and material wastage etc.

The cutter bed drawings will need to be configured to each cutter.

9.1.1 The Cutter Bed Commands: CUTBED, BESPOKECUTBED and PLANK

9.1.1.1 Standard Cutter Bed: CUTBED

CUTBED simply inserts a block called Cutbed. If this is not already defined in the current drawing it will be inserted from a drawing in the KeySIGN folder. The Cutbed.dwg file can be edited as required. More usefully the BESPOKECUTBED command allows for variable x-height and cutter bed width and height to be entered. By manoeuvring the CUTBED block around on the finished sign design, the most efficient, cost effective lay- outs can be achieved.

- 233 - 9.1.1.2 Bespoke Cutter Bed: BESPOKECUTBED

PD: ‘KeySIGN Tools > Manufacturing > Bespoke CUTBED’

This command provides a means to draw any size cutter bed block, and at a scale spe- cified by the x-height entered. See the command dialogue below for more information about this simple to use command.

Example Command Dialogue:

Command: BespokeCutbed (the following dialog is shown to prompt for the x-height)

Width of cutter bed <1700> (mm): ↵

Height of cutter bed <1300> (mm): ↵

Calculated cutter bed dimensions in s/w: 90.67 w x 69.33 h

Pick bottom left corner for cutting area: (point selected on-screen)

Command:

- 234 - By manoeuvring the CUTBED block around on the finished sign design, the most effi- cient, cost effective layouts can be achieved.

9.1.1.3 Determine Best Plank Sign Design: PLANK

This command provides a way for a manufacturer to determine the best cut positions when a sign face design will be placed on a plank based substrate. It is always best to avoid having a plank cut line close to the edges of a row of letters. The command simply inserts a pre-drawn block, with specific plank widths and gaps that can be dragged into position as appropriate. See also the command MPLOT covered below.

9.2 Sign Costing Routines: SIGNCOSTINGQUERY

These routines are issued on request.

PD: ‘KeySIGN > Manufacturing > Sign Costing…’

These routines allow detailed estimates of labour times and costs of manufacture to be estimated from a sign design. They do require a significant amount of data, prices and detailed unit labour costs to be collected and entered into the system to be effective. Please contact us on 03451 303040 for more information.

9.3 Large Sign Cut: MPLOT

PD: ‘KeySIGN > Manufacturing > Large Sign Cut’

This routine is designed for manufacturers who operate flat bed cutters and who are man- ufacturing large signs such as overhead gantry signs. The routine breaks the sign down

- 235 - into individual cut windows and enables long cuts to be made. The routine is particularly relevant to transparent materials.

When a sign design has been completed this routine will allow for repeated plots of plank based signs and allows for a small overlap between planks to improve the finished product. Please contact us for more information about this Command.

- 236 - Chapter 10 – Customising KeySIGN

10.1 The KeySIGN Options dialog: ASIGNCONFIG

The current scheme name can be edited here. This is also shown on the DDETAIL dia- log. Any changes made to the scheme name in the DDETAIL dialog are saved imme- diately.

The defaults for x-height and the price per square metre of sign face can be specified.

- 237 - Figure 10.1 – The KeySIGN Options Dialog

Round Sign Face Dimensions to nearest 5mm – controls the rounding of dimensions cal- culated in the detail block. TSM Chapter 7, paragraph 2.22, page 13 recommends round- ing signs to the nearest 5 mm. Turning off this setting will result in dimensions being calculated to the nearest 1 mm which many, especially the manufacturers, find prefer- able.

Automatic Zooming – controls the automatic zooming to a newly finished sign (after the border commands) such that it will fill the display.

- 238 - Figure 10.2 – The KeySIGN Colour Configuration Dialog

NOGO points – sets whether red crosses are created to help generate appropriate off- sets to borders etc. (this is now mainly redundant and should normally be off).

Always show sign detail dialog – After sign borders have been drawn, by default a ques- tion is asked as to whether the DDETAIL dialog, used to generate a sign detail block

- 239 - should be shown. This question can be switched off (completely bypassed), and the dia- log always shown if this option is checked.

Construction box Linetype – The SBOX command (see paragraph 4.4.1 ‘Shrink-to-fit’ Construction Boxes: SBOX ) can be configured in this dialog to use any available line- type. The default linetype ‘KeySIGNDot’ is designed to resemble closely the method used in TSM Chapter 7 for indication the tile extents of text. It may, however, be that a continuous linetype is preferred. Be aware that AutoCAD sometimes shows the dotted linetypes as a continuous line, depending on the current zoom (i.e. if the dots are too close together when viewing the signs relatively small on-screen). The linetype will always be regenerated correctly when plotting.

Colours – Alternative colours to the standard ones, for Magenta, Brown and Yellow etc can be specified. The dialog used to configure colours is shown in Figure 10.2 – The KeySIGN Colour Configuration Dialog. This dialog has a command in its own right, SETKEYSIGNCOLOURS, which can be selected from the Program toolbar or pull-down sub menu.

Save dimensions for Wind analysis – controls the creation of text files when the sign detail is generated. These files are used by the Wind Loading program and store the sign dimensions. These files can optionally be stored in a specific folder, or in the cur- rent folder. NOTE the current folder will often change depending on a number of factors. This could be the drawing folder, but may also be unpredictable if drawings from more than one folder are currently open. In addition, browsing for other types of file such as linetype or hatch definition files can also change the current folder. It is recommended that a specific folder is configured.

Detail block/filename – the drawing block used to display the calculated sizes and other details of the sign can be specified, usually either ‘detail’ or ‘frame4’ (an example draw- ing frame containing the sign details and post and foundation design).

- 240 - Material/Rates filename – the name of the default Materials price rate file can be spe- cified. See the MATERIALS command, covered in Chapter 10 – Customising KeySIGN , for further information about the contents of and configuring these rate files.

Temporary file folder – the temporary folder used by KeySIGN can be configured. This should ideally be the Windows temporary folder. Check that you have permissions to cre- ate, edit and delete files in the folder specified.

The options specified in this dialog can be saved so that they are in force every time a drawing is opened or newly started. If one more options are required only for a single drawing session, these can simply be selected and the dialog exited using the OK but- ton (without saving). The saved options can be restored at any time by selecting the defaults button (this restores the saved values and WILL NOT restore ‘factory’ defaults).

- 241 - Figure 10.3 – Materials and Sign Face Pricing Manager

10.2 Editing the Materials List and Rates

This dialog based command is used to configure the available sign face materials that will be shown in the DDETAIL dialog, the default material, and rates for each based on different area bands.

Users can create additional files, from the ‘MATERIAL.RAT’ file provided, for different manufacturers, annual tenderers or customers etc. The files can be edited to customise the prices used.

- 242 - When the command is started, a file selection dialog is presented. Select the appropriate material rate file. The materials and rates contained in the selected file are then read into the dialog. This file can be saved to a different file name, perhaps with the name of the sign manufacturer supplying the rates, for example ‘ACME Signs.dat’.

In the first area labelled ‘Materials’ the material list is shown. This can be added to and materials removed. The order of the list can be changed using the move up and down buttons, and lastly the default material (the one most commonly used) can be set.

Figure 10.4 – Editing the Material Area Bands

In the ‘Rates..’ area, a rate can be entered for each material type. This can be set-up on a banded basis, thus different rates depending upon the economies of scale can be used. Select a row in the list of rates to edit the rate for a specific area band, for the cur- rent material selected in the top list.

- 243 - When entering a large number of rates, for example an annual update, tick the ‘Auto update with ENTER key’ check box. When a rate has been entered, pressing ENTER moves the ‘cursor’ or current area band forward one. Thus rates can be quickly entered using the keyboard alone, therefore, without the need to use the mouse to click each entry before it can be edited.

If different area banding is required, press the button labelled ‘Edit area bands’. The dia- log shown in Figure 10.4 – Editing the Material Area Bands is presented. Since there can be no gaps between bands, only the upper limit is edited.

To save any changes to the currently selected file or to another file, use the ‘Save’ or ‘Save As’ buttons respectively.

- 244 - Chapter 11 – Glossary of KeySIGN com- mands

Command Function ABOUTKEYSIGN provides information about version in use, main dir- ectory name, contact telephone and email address, dir- ect link to Keysoft Solutions web site and information about your System AddToImageMenu allows user to create customised symbols for adding to a library image menu file AddToImageMenuFile allows user to add customised symbols to specified menu file ALIGNLEFT aligns element(s) with position of other selected ele- ment(s) ALIGNRIGHT ditto ALIGNTOPS ditto ALIGNBOTTOMS ditto ALIGNMIDDLES ditto ALIGNCENTRES ditto ALIGNBOTTOMTOTOP ditto ALIGNTOPTOBOTTOM ditto ALIGNLEFTTORIGHT ditto ALIGNRIGHTTOLEFT ditto ALLSYMBOLS displays an image menu of all the symbols used in KeySIGN ALLTOURISTSYMBOLS displays icons of all the tourist symbols used in KeySIGN APURGE allows the cleaning up of drawings by removing all

- 245 - unused blocks etc with out the need to confirm each removal. It can only be used as the first command after opening a drawing. ARM stretches horizontal arms of map type signs to a point calculated on two thirds of the width of the destination group to which it relates ARM2 etc allows the 2.5, 4 and 6 s/w exit arms to be added to roundabouts. ARMSIGN inserts arms with warning or prohibitory signs onto roundabouts and straight arms. Warning signs still need some final trimming and stretching. ARMSTRETCH enables an inclined arm to be stretched in the same dir- ection in which it is pointing, using Polar tracking ARROW Prompts for an arrow reference to insert next to des- tination block(s) ARROWS displays an image menu of the arrows available in KeySIGN for selection ASC generates the ASCII code value of a typed character ASCols list colours allocated to layers, as set up in ASIGNCONFIG KSIGN reloads KeySIGN ASIGNALIAS displays abbreviated KeySIGN commands stored in ASIGN.PGP ASIGNCONFIG allows various settings to be switched to control the cre- ation of wind analysis files, rounding up rules, automatic zooming and the type of detail box display, variables, file names, colours etc ASIGNMOVE moves selected element(s) in a particular direction by a particular amount [Toolbar only] AsignWhatsNew displays the ‘Whats New.htm’ file which lists improve- ments toeach version of KeySIGN AssociateSignBorder Links an existing sign to an existing detail block (used

- 246 - for KeySIGNbase) ATS_BUILD displays the KeySIGN version (build) being used ATS_DimHorizontal sets up a horizontal dimension routine with factor to con- vert from s/w to mm using specified x-height ATS_DimVertical sets up a vertical dimension routine with factor to con- vert from s/w to mm using specified x-height ATSdata loads the KeySIGN data file (‘ATS_Data.lsp’) BACKINGBOARD creates high conspicuity and grey backing boards BAFFLE adds a light baffle or side extension of a specified size to an existing sign design BFIL appears as "Colour fill on/off" on the pull-down, toggles the colour filling, of text and standard signs, on and off. Bfilloff switches off colour filled layers Bfillon switches on colour filled layers BGRD Toggles the BGRD layer on and off only relevant to KeyROADWORKS created drawings BGROUND creates a solid coloured triangle denoting the back- ground colour of a sign BLACKBACK changes the background colour of the graphics screen to Black BLOCKSPACING Automates spacing between adjacent destination/route blocks BLOCKTEXT Adds the appropriate block name as a text label for a symbol BORDERFIL full colour fill of signs for display purposes BROWSESIGNS opens Windows Explorer in the Sign Library directory BUS displays the options of bus symbols available for selec- tion BusLane Starts routine to create variety of bus lane signs BUSTRAMCYCLESIGNS displays an image menu of signs relating to bus, cycle

- 247 - and tram activities CARROW vertically centres an arrow on border CENTREGROUPH aligns selected element(s) centrally on the horizontal

centre line of a polygon or between two points CENTREGROUPV aligns selected element(s) centrally on the vertical centre line of a polygon or between two points CHANGEBORDERCOLOUR Change sign class, and also allows drawings of signs, created in earlier versions of KeySIGN, to be modified to enable BORDERFILL to work CHR generates the keyboard character for a given ASCII num- ber CleanWindFile removes details of previously created signs from file which generates list of signs in Wind Loading dialog window, also allows data to be sorted in file CLONE Start the appropriate AutoCAD command to allow a duplicate of a object to be drawn, on same layers using same linetypes etc. CLOSEPL creates single closed polyline from elements of map sign layout symbol CMARKBOX generates marks at the corners of a rectangle enclosing the selected items COPYSIGN enables a copy of the sign to be made by picking the sign border or the detail block COPYSIGNTOMAP copies a selected sign and automatically zooms to a pre- viously specified map view to enable the display of the sign, on the map, to be completed Countblocks Counts number of blocks that have been inserted into drawing CYCLEROUTENUMBER inserts a cycle symbol and a specified route number patch on the appropriate side of a selected destination CULDESAC starts routine for drawing culdesac arms on roundabout CUTBED draws outline of limits of cutter bed to allow arrange-

- 248 - ment of items to be cut DDETAIL appears as "Sign Detail" on pull-down menu and generates information about a designed sign. It asks the user to specify or confirm x-height, sign class, and then calculates the area and price of the sign. NB use of FLAG and ONESTACK border etc will offer DDETAIL automatically.

The routine can also be used to edit existing detail information and add a new DETAIL block to a sign pre- viously created without one DDFLAGSIGN presents the user with a data entry screen for the auto- matic creation of a flag sign DDONEPAN presents the user with a data entry screen for the auto- matic creation of a one panel stack sign DDONESTACK ditto DDPARK presents user with range of parking signs and allows time/day details etc to be altered. Also allows loading plates to be added DDSIGN allows user to create text only signs with or without bor- ders Del_rt_spaces Deletes invisible Real Text spaces from drawing (which are not created in recent DELCMARKS appears as "Delete corner marks" on pull-down, and does just that! DELETENORMTEXT enables normtext (the original doton text transferred to the NORMTEXT layer when Real Text is applied) to be erased DELNOGO Sets up a filter to select only NOGO lines and then starts the erase command DelNogoLayer removes ALL contents of the NOGO layer

- 249 - DELPOINTS appears as "Delete NOGO points" on pull-down, deletes NOGO points i.e. red crosses DESTINATIONS provides a list of the Regional destinations applicable to each county Area DIMENSIONINDWGUNITS converts a specified distance in millimetres to strokewidths (based on current x-height being used) DIST measures the distance between two designated points. In addition to the direct measurement, DIST also provides the ‘x’ and ‘y’ displacements. KeySIGN redefines the standard AutoCAD built in command to allow multiple measurements to be taken from a single selected point. DONGLE displays details of the KeySIGN dongle including inform- ation about other Key Traffic Software that the dongle is coded for DOTON Puts KeySIGN into design mode by switching on the Transport font character tile corner marks, and turns on the design aids such as the Grid and NOGO layers DOTOFF switches on the Transport font character tile corner marks DTU, DWGTIDYUP removes a selected number of unwanted items from an KeySIGN drawing once the design has been completed DUPLEX, DUPON switches the type styles Heavy Medium and Motorway to the duplex form DWGTITLE enables the drawing title to be added automatically to a drawing UPDATEDWGTITLE Automatically updates an existing drawing title block (or calls the DWGTITLE command if none found) EDITPANELDETAIL displays a list of the panel entries for editing ENTRY stretches approach arm to 1.5 s/w above bottom sign border ENTRYARM allows the 2.5, 4 and 6 s/w entry arms to be added to

- 250 - roundabouts EXITARM allows the 2.5, 4 and 6 s/w exit arms to be added to roundabouts EXPORTFORMAPLOCATION creates a DWG file of created sign to be used on a sep- arate location plan FASTCURVE allows the symbol to be inserted in left or right ori- entation FF a utility to find the location of a specified file in your sys- tem FINGER creates the finger post type border for signs in very rural locations. FIT selects the appropriate text size to allow the sign to fit a predetermined width or height to suit site restrictions FLAG draws the chevron and border at the correct distance from legends and/or symbols and optionally inserts DETAIL. FOURSTACK, FOURPAN draws a four panel stack sign. Usually used when the top panel relates to a junction name. FRAME inserts series of frames over sign design, for finished drawing GENERALSYMBOLS displays icons for all the general symbols used in KeySIGN GetObjectLength displays the length of a selected object in drawing units GREYBACK changes the background colour of the graphics screen to Grey GROUPSEL toggles group selection on / off HEAVY starts the command for the 8 units high, Heavy text font used for light background signs HEAVY2MAG converts heavy text to magenta colour HEAVY2WHITE converts heavy text to white/black (pen7) colour Hospital displays the options for hospital symbols used on dir- ections signs

- 251 - INFORMATORYSIGNS displays the range of Informatory signs available INSERTSIGN displays list of KeySIGN symbols used in current draw- ing JCTNOM generates a patch with junction number and mileage KEYABOUT displays information about current Keysoft Solutions soft- ware being used on the computer KeyOSCMenu the Ordnance Survey Map handling modules provide free with Keysoft Solutions applications LabelXHeight provides a label to indicate specified x-height LANESIGNARROWS displays the arrows available for use on Lane Signs LANESIGNS displays many of the standard Lane Signs which can be editted where

variations are required LAYEROFF switches the layer off that contains a selected object LPAN draws border around block of destinations etc then provides

option to cut out corner to fit around map arm LoadWelshMenu automatically loads additional menu for Welsh sign design requirements MAPARM allows arm to be added to a map route symbol MAPBUILD creates and irregular juction layout from arms of spe- cified width and

alignment MAPSYMBOLJOIN creates single closed polyline from elements making up a map type symbol MATERIALS enables the files (*.RAT files) containing information about sign face material rates to be edited MBAY starts the command for the 8 units high, Motorway text font used for routes on temporary motorway signs MEDIUM starts the command for the 8 units high, Medium text font

- 252 - used for dark background signs MILES appears as "Distance Text" on pull-down and creates a vertical list of correctly spaced mileages MJUNCT creates the junction number patch for insertion on sign. MMOFFSET creates an offset line at a distance which is supplied in millimetres and converted and drawn in stroke widths calculated from the current x-height MODARROW creates the red arrow required on MoD signs MODFLAG the equivalent flag creation with the necessary colour changes

for MoD signs MODPAN the equivalent command to PANEL to draw an MoD panel which requires a further border when used on dark background signs MOVEGROUP enables a group of selected sign elements to be moved 'enbloc' MOVESIGN enables a sign to be selected, by picking the outer bor- der or detail

block, and then moved MOVESIGNTOMAP enables a sign to be selected, by picking the outer bor- der or detail block, and then moved to a preselected map view MULTIROUTEPATCH creates a patch around more than one route horizontally or vertically aligned (used for bilingual Welsh routes such as ‘M4 (W)’ which would have ‘(Gn)‘ also in the patch MWAY starts the command for the 8 units high, Motorway text font used for routes on motorway signs NATIONALSYMBOLS displays the symbols specific to England Scotland and Wales NOGO switches a layer on/off which displays zones close to

- 253 - route symbols in which text and symbols should not encroach NTSWLICE displays details of the KeySIGN dongle including inform- ation about other Key Traffic Software that the dongle is coded for ONESTACK , ONEPAN creates the 1.5 border around selected text and sym- bols. PANDET appears as "Panel Detail" on pull-down and inserts a small information list to display colour of text, back- ground and size of panels and patches within sign. PANEL creates a panel border around selected elements on a sign PARK provides the various options relating to the use of the 'P' parking symbol, car park numbers and automatic descriptions. PARKINGSIGNS displays a range of standard parking signs PATCH draws Motorway and Primary route patches around route numbers PLANK provides grid of planks to overlay on sign design to determine best position of joints PLATE provides grid of standard aluminium sheets to determine best position of joints POLYJOIN appears as "Join all lines/arcs" on pull-down menu, joins items into continuous polyline. Use before filling map-type symbols or using the SHOP1 routine. POLYWIDTH enables a number of selected polylines to have their width changed. POSROUTE positions a selected route (and patch) correctly in rela- tion to destination. POSTLIST inserts the details of post sizes and foundations etc. which have been calculated in WIND, into a drawing. PPOST inserts symbolic posts with prompts for diameter, mount-

- 254 - ing height and planting depth. PROUTE appears as "Route on Primary Sign" on pull-down and creates the Yellow Medium Text route number. PSPACES creates a 'P' plate with the specified number of car park- ing spaces. PURGERTEXT purges drawing of all unused real Rext characters RDBT provides alternative roundabout designs. Real Text converts Transport text fonts into accurate, cutable, filled fonts REGULATORYMOVEMENT displays library of regulatory signs relating to restrictions on type of movement REGULATORYSIGNS displays library of all the regulatory signs available in KeySIGN REGULATORYUSER displays library of regulatory signs relating to restrictions on type of user RELOADKEYSIGNMENU as it implies this routine reloads the KeySIGN menu RemoveSymbolFill removes the colour fills from selected symbol(s)

RESET customisable set of defaults contained in RESET.SRC file RESTORELAYER restores layer settings that existed when STORELAYER command was used REVERSERTEXT Resets Realtext back to DOTON, DOTOFF or DUPON variants REVISEBLOCK resets information about symbol to ensure the system uses the correct location when it is being it is being inserting ROUNDARM displays the available regulatory signs for insertion on Map type sign arms ROUNDING Toggles rounding of sign dimensions to the nearest 5 mm On/Off

- 255 - ROUTE handles all aspects of routes on signs eg patches etc. RTCANCEL produces route cancelled slash RTEXT substitutes highly accurate individual character blocks for strings of text. Allows kerning of characters and hatching for presentation purposes. Can be applied to one line at a time or Globally for the whole drawing. Can also distribute string of characters along a polyline. Real- text can also be typed directly into a drawing without the need to convert sign fonts RTEXT_SELECT converts Transport fonts to accurate individual letter blocks RTEXT_SETUP introduces realtext blocks into drawing to enable Real Text to function RTEXT_TYPE enables realtext to be typed direct from the keyboard RT-DUPON Changes the colour of HEAVY realtext blocks to white. See also RT-DOTOFF RT-DOTOFF Changes the colour of HEAVY realtext blocks to magenta. See also RT-DUPON RTL aligns a previously typed word to be spaced out along a polyline and converted to Real Text SAVECURRENTMAPVIEW creates a view which the system will automatically return to when other commands are used SBORDER Fills in borders of signs and patches SBOX draws a construction box around a group of elements SCALEDFRAME inserts a drawing frame into ‘Paper Space’ Layout SCALESTANDARDSIGN scales a standard sign to match a specific sign’s x- height. All standard signs are drawn at an assumed x- height of 100mm in the design environment. When used with a supplementary plate of a different x-height the standard sign needs to be scaled ScaleMToSW scales elements down from full size in millimetres to s/w

- 256 - ScaleSWToM scales elements up to full size, in millimetres, from s/w based on current x-height SCALEVP appears as "Scale sign size" on pull-down menu and creates a correctly scaled version of the sign within a previously inserted frame Schedule12Signs Displays roadworks signs available SDDATTE appears as "Edit Sign Information" on pull-down and allows users to edit a greater number of lines than the standard DDATTE command SDIM semi automatic dimensioning of sign element positions SEETABLES lists layers, blocks, linetypes and text styles used in cur- rent drawing SELECTSIGN selects the whole sign with contents from one pick of border or relevant Detail block(which must be in usual position below sign) SET_xheight resets the value of x-ht to enable dimensioning of signs to show real measurements SetKeySIGNColours displays colours allocated to KeySIGN layers with option to change them to meet users preferences SGROUP groups a selection of elements so they can be handled as a single element SHOWLICE displays details of the KeySIGN dongle including inform- ation about other Key Traffic Software that the dongle is coded for SIGN allows user to specify a sign diagram number to be inserted in drawing SignAndSuppPlate generates routine to select standard sign with ability to select relevant sub plate options and then draws assembly with further option to include backing board SIGNCOSTINGQUERY an optional routine to calculate detailed sign costing based on labour rates as well as material costs SIGNCOSTINGPRINT an optional routine to create output on the drawing from

- 257 - the above calculations SIGNCOSTINGDETAILS an optional routine to save the above calculations to file SIGNLIGHT insert a top-mounted light unit symbol on sign border SIGNSHOP activates optional routine for use by manufacturers SIGNSIZE appears as "See sign size" on pull-down menu and cal- culates the size of a sign for a specified x-height SIGNSTAT appears as "KeySIGN current settings" on pull-down, displays settings being used in drawing session SIGNSYMB inserts a symbol representing a post and sign plate, for use on a map base SIGNTABLET creates a virtual KeySIGN tablet template on the screen, enabling commands to be activated by picking appro- priate areas of the template STORELAYER stores layer settings at time command is used. See RESTORELAYER STUB enables choice of stub widths to be inserted onto round- about symbols. STUB4 (etc) will automatically select the 4 sw (etc) wide stub to be inserted on roundabout SUPPLATEONSIGN reduces size of normally designed sign to 80% when used as supplementary plate on map type sign SWINDIMS enables s/w value, in addition to real measurements, to be displayed in dimensions SYMBOL enables specified symbol reference to be inserted on appropriate side of destination SYMBOLS provides a library of available symbols THREESTACK, THREEPAN assembles three sets of text/symbols in correct position (stack) and draws appropriate borders around and between them TILE toggles Tile layer On/Off to show or hide tile marks on symbols TITECURVE allows the symbol to be inserted in left or right ori- entation

- 258 - TOURISTAMENITY displays all the tourist symbols, featuring Amenities TOURISTANIMAL displays all the tourist symbols, featuring Animals TOURISTBUILDINGS displays all the tourist symbols, featuring Buildings TOURISTHISTORICAL displays all the tourist symbols, featuring Historical asso- ciations TOURISTOUTDOOR displays all the tourist symbols, featuring Outdoor activ- ities TOURISTTRANSPORT displays all the tourist symbols, featuring Transport TRIARM inserts route arm, containing warning sign, onto round- about symbol. Some additional TRIMming and STRETCHing may be required to

complete the design TrimFactor fudge, to overcome AutoCAD problem, which sets up a zoom level

to allow roundabout arms etc to be correctly created UKCmarksGlobal adds corner marks to all strings of Transport text in draw- ing UNBLOCK* explodes a sign block with variable text converting the attributes Trimthreshold sets up a factor used when creating signs on junction arms TWOSTACK, TWOPAN assembles two sets of text/symbols in correct position (stack) and draws appropriate borders around and between them UKCMARK marks the outer edges of text strings so that when using DOTOFF the limits are still visible. The tiles also take account of the kerning rules to AutoCAD text which can be edited or converted to Real Text UndoBorderFill removes colour fills from direction signs and undoes realtext UNDORTEXT restores original KeySIGN texts (DOTON etc) after Real Text has been used

- 259 - UserSigns lists signs created by user and filed using AddToImageMenu File UserSymbols ists symbols created by user and filed using AddToImageMenu File VBlockSpacing moves one destination or other sign element to a spe- cified variable distance above or below another des- tination. See also BLOCKSPACING WARNINGHANDA displays a library of warning signs relating to humans and animals WARNINGLAYOUT displays a library of warning signs relating to road lay- out WARNINGSIGNS displays a library of all the warning signs WARNINGTRAMRAIL displays a library of warning signs relating to tram and rail crossings WARNINGTRANS displays a library of warning signs relating to transport problems WARNINGWEATHER displays a library of warning signs relating to weather and miscellaneous problems WBPOST generates a symbolic dimensioned wide base post WELSH provides the welsh equivalent to an english destination name WELSHACCENT generates options for inserting alternative welsh accents over text WELSHBRACKETS creates large brackets to encompass welsh and english names WHITEBACK changes the background colour of the graphics screen to White WINDANALYSIS, WIND15 calls up a program which reads the dimensions of signs previously designed in KeySIGN and calculates post and foundation sizes YELLOWROUTELABEL a labelling utility to enable specified text to be added to a drawing with an appropriate leader

- 260 - XBLOCK produces FLAG and OneSTACK signs to pre-specified dimensions XRDS generates automatic cross road map symbol from spe- cified arm widths XSGROUP breaks up group of sign elements previously grouped ZOOMTOMAP zooms to a predesignated view in the drawing dis- playing map information. See SAVECURRENTMAPVIEW

- 261 - Chapter 12 – Button Directory

12.1 Main KeySIGN Toolbars

AutoFLAG

AutoONESTACK

Automatic Parking sign

Automatic Text only sign

Automatic Lane signs

Automatic Bus Lane signs

Heavy Text

Medium Text

Destination block

Route

Real Text to selected lines

Route Patch border

- 262 - Panel border

Arrows thumbnail image menu

Flag sign border

One stack sign border

Roundabout symbol

Crossroads

Lane signs

General symbols thumbnail image menu

Tourist symbols thumbnail image menu

Warning signs thumbnail image menu

Regulatory signs thumbnail image menu

Informatory signs thumbnail image menu

Post and Foundation design

Sign DDETAIL command

- 263 - Construction box (SBOX) command

Block spacing

Alignment tools flyout

Move tools flyout

Toggle visibility of NOGO layer

Toggle visibility of TILE layer

Toggle visibility of colour fill layers

Apply colour fill and Real Text to sign

Reload KeySIGN program

12.2 Map ADS Symbol Toolbar

Standard Roundabout

Oval Roundabout

Grade Separated Roundabout (from slip road)

- 264 - Grade Separated Roundabout (from side road)

Mini Roundabouts

Other/special Layouts

Entry Arms

Exit Arms

Stub Arms

Warning Signs on Arms

Regulatory Signs on Arms

Cul-de-sacs

Cross-roads ADS

Grade Separated junction

Dual Carriageway cross-roads

Fast curve

Tight curve

- 265 - Destination Arm added to any route symbol

Build multi-way junction

2.5 s/w arm

4 s/w arm

6 s/w arm

Join map arms (fillet with radius of 1 s/w)

Horizontal Exit arm stretch (2/3 rule)

Approach Arm Stretch

Angled Exit Arm Stretch

Join/Fill Map Symbol

12.3 Text Command Toolbar

Heavy command

Oval Roundabout

Motorway (medium) white command (for Route text only)

- 266 - Motorway (heavy) black command (Route text on temporary signs only)

Destination blocks

Route command (text and patches etc)

Position route (text and patch border(s) etc)

Route cancelled slash

Block spacing command

Text limits (corner marks)

Welsh Accents

Doton

Dotoff

Dupon

Mileages (distance text, for example on route confirmatory signs.)

- 267 - 12.4 The Arrows Toolbar

Full range of arrows

Ahead arrows 14 & 16 s/w

Left arrow

Right arrow

Overhead gantry arrow

U-Turn arrow

Lane Sign Arrows and other Elements

Centre arrow in stack

12.5 The Real Text Toolbar

Real Text to selected lines

Undo Real Text

Real Text to whole drawing

Real Text to fit line

- 268 - Typing in Real Text

12.6 The General Symbols Toolbar

Other symbols

Pedestrian

Cycle

Bus

Lorry

Motorway

Railway Station

Airport

Ferries

Tourist Information

Hospitals

Telephone

- 269 - Parking

Disabled

Thumbnail menu of Diversion signs

Sign Location symbol

12.7 The Border Command Toolbar

Flag border

OneSTACK border

TwoSTACK border

ThreeSTACK border

FourSTACK border

FINGER post border

Panel border

L-shaped panel border

- 270 - Patch border

Cycle Route Number Patch

Backing Board

Sign with Supplementary plate

Baffle / side extension

X-Block

Fit to size

Motorway Junction number

Motorway junction number sign with distance

MoD Panel

MoD Flag

12.8 The Signs – All Toolbar

Regulatory Signs - Type of User

- 271 - Regulatory Signs - Type of Movement

Waiting Restriction Signs

Warning Signs - Road layouts

Warning Signs - Animals and Humans

Warning Signs – Transport

Warning Signs - Misc. and Weather

Warning Signs Tram/Rail

Informatory Signs

Bus, Tram and Cycle Signs

Bus Lane Signs

12.9 The Tourist Symbols Toolbar

Tourist Symbols – All Categories

Tourist Symbols – Buildings

- 272 - Tourist Symbols – Historical

Tourist Symbols – Outdoor

Tourist Symbols – Animals

Tourist Symbols – Transport

Tourist Symbols – Miscellaneous

Tourist Symbols – National symbols Tourist

Information Sign symbol

12.10 Utilities (drawing) Toolbar

Construction Box SBOX

Text Corner Marks

Block Spacing

MOVE Group

NOGO layer toggle switch

Tile Layer toggle switch

- 273 - Colour Fill Toggle switch

Clear Tile marks

Delete NOGO Points

Clear NOGO layer

Automatic Purge of Drawing

Clone

Drawing Title

12.11 Utilities (general) Toolbar

Detail Block – creation and revision

Panel details

Edit block details

Un-block

Set x-height

- 274 - Vertical Dimension

Horizontal Dimension

12.12 Post and Foundation Design Toolbar

Wind Loading

Post List

Narrow Post

Wide-based Post

Lantern unit

12.13 Move toolbar

Move with option for direction and distance

Move 2.5 s/w up

Move 1.0 s/w up

Move 0.5 s/w up

- 275 - Move 2.5 s/w left

Move 1.0 s/w left

Move 0.5 s/w left

Move 2.5 s/w right

Move 1.0 s/w right

Move 0.5 s/w right

Move 2.5 s/w down

Move 1.0 s/w down

Move 0.5 s/w down

12.14 Fill Utilities Toolbar

Colour fill sign

Remove colour fills

Change border colour (sign/road class)

- 276 - Toggle colour fill On/Off

Background Colour flash in corner

Join/Fill Map Symbol

12.15 Alignment Toolbar

Align items to Left

Align items to Right

Align items to Top

Align items to bottom

Move item Below another

Move item Above another

Move item to Right of another

Move item to Left of another

Centre items Vertically

- 277 - Centre items Horizontally

Centre item Horizontally within border

Centre item(s) Vertically within border

Centre Arrow Vertically

12.16 KeySIGN Program Toolbar

Reload KeySIGN

Quick reset

Reload KeySIGN Menu

KeySIGN Options

KeySIGN Colour Configuration

KeyABOUT

- 278 - Chapter 13 – A History of KeySIGN

13.1 Release History

May 1986 AutoSIGN development started in Traffic Section of Humberside County Council December AutoSIGN launched by Key Systems 1986 June 1987 AutoSIGN 2.0 issued. New features include STACK signs, Arm function, WIND post size calculation and DUPLEX text styles together with many minor modifications November AutoSIGN 2.5 issued. New features include all TOURIST symbols issued to 1987 date, Dimensioning routines, revised TEMPLATE and Manual and many minor modifications November AutoSIGN 9.0 issued. New features include PULLDOWN menus, expanded 1988 standard sign library and many minor improvements th March 100 copy sold 1989 May 1989 AutoSIGN wins the Peat Marwick McLintock PC User award for best soft- ware application in the personal productivity category March AutoSIGN 10 issued. Features include FIT routine to select appropriate x- 1990 height to fit site requirements, additional assistance in sign design in form of pull-down menu help slides and NOGO area, additional symbols and improved efficiency of operation th July 1991 200 copy sold December AutoSIGN 11 released. Features included Frames, Four pan, Armsign, Junc- 1991 tion Numbers, UKCMARK, Posts and Lighting units April 1993 AutoSIGN 12 released in anticipation of new regulations. Features included LPAN, SET x-ht, S/w in dimensions, Panel details, Detail revision, Baffle, Xblock, Lane signs March Sales pass 300 mark

- 279 - 1994 August AutoSIGN 13 released to incorporate new regulations. Fonts redefined and 1994 extended, Flag and Stack sign routines modified, patches and panels mod- ified, LPAN modified, extended range of standard signs, efficiency of routines improved, mini roundabouts extended, WIND program rewritten to work on all platforms, Real Text included, Dimensioning improved, greater use made of pull-down menus including all tablet routines. July 1995 New Automatic FLAG and Automatic ONEPAN introduced;

Real Text and TILEMARK improved. Additional signs added and many other minor improvements. th April 1996 400 copy sold January AutoSIGN 10 years old 1997 April 1997 Version 14 released. New Automatic PARKING and TEXT only routines introduced. Improvements to selection of items to be included in sign face and detail block information, standard signs colour filled, WIND loading extended, better output displays, more flexible interactive editing of sign details, range of signs extended, mileage routine, better block insertion, cus- tomisable features, mapping facilities th January 500 copy sold 1998 th April 1999 600 copy sold November Manual produced in A4 format resulting in page revisions no longer being 1999 relevant December Version 15 released. Automatic colour flood to produce realistic signs, 1999 Regional and Welsh Destination libraries, backing board routines, many new functions to help move and position sign elements, and many other improvements to routines. The package is also supplied with KeyOSC the Key Ordnance Survey Companion for map handling and plotting and AutoCAD 2000 compliant. th October 700 copy sold 2000

- 280 - th September 800 copy sold 2001 April 2002 Version 16 released with over 20 new routines and 25 improvements to existing routines th July 2002 900 copy sold July 2003 Version 16.1 released with support for AutoCAD 2004 and inclusion of the changes in the TSRGD 2002

th 1000 copy sold September AutoSIGN 16.2 issued 2004 April 2006 AutoSIGN becomes KeySIGN, and v17.1 is issued July 2007 KeySIGN v17.2 is issued, for compatibility with AutoCAD R2008. July 2008 KeySIGN v17.2.3 is issued, for compatibility with AutoCAD R2009. May 2009 KeySIGN v17.3 is issued, for compatibility with AutoCAD R2010. July 2010 KeySIGN v17.4.0 is issued, for compatibility with AutoCAD R2011. November KeySIGN v17.4.1 is issued with enhancements, fixes and extended sign lib- 2010 rary. August KeySIGN v17.4.2 is issued, for compatibility with AutoCAD R2012 and 64 2011 bit support. March KeySIGN v17.5.0 is issued, to provide support for the TSRGD Amendment 2012 Regulations 2011. June 2013 KeySIGN v18.0 is issued, phase 1 of more intelligent sign objects. Sign text and Sign borders improved. April 2015 KeySIGN 19.0 is issued, stability improvements April 2016 KeySIGN 19.1 is issued, provide support for the Traffic Sign Regulations and General Directions 2016 April 2017 KeySIGN 19.2 is issued, for compatibility with AutoCAD R2018. 3D Sign structures can now be created. January KeySIGN 19.3 issues, updated engine for compatibility with other product

- 281 - 2018 improvments.

Please see the document entitled ‘What’s New.pdf’ for a complete detailed software revi- sion history. A link to the document can be found in the KeySIGN Help menu.

- 282 - Chapter 14 – Installation

14.1 Before you start

KeySIGN has been designed for use with any system that can run AutoCAD (see manu- als supplied for the system requirements for AutoCAD). Version 17.5 of KeySIGN is designed for use on AutoCAD R2009, 2010, 2011, 2012 and R2013; and AutoCAD Map/Civil 3D R2009, 2010, 2011, 2012 and R2013. AutoCAD R2008 and earlier, and derivatives are not supported.

NB It is necessary to log in as a System Administrator to carry out this process.

Enclosed in the jewel case or CD sleeve, included with this manual, is a single CD ROM containing the installation files, backup files (should a single file need to be restored), drivers, and a number of other utilities including KeyOSC. It is recommended that a copy be made of this CD ROM, which should be stored in a safe place.

As KeySIGN is an ‘add-on’ application to AutoCAD, it will be necessary to install AutoCAD first. Please ensure that AutoCAD is working correctly before proceeding with the KeySIGN installation. When the correct operation of AutoCAD has been checked, fol- low the procedure outlined below.

14.2 Hardware and Software Requirements

Hardware requirements

KeySIGN has been designed for use with any system that can run AutoCAD (see manu- als supplied for the system requirements for AutoCAD). It will need to be installed on a

- 283 - PC using a Pentium or equivalent processor.

We offer the following recommended specification for the PC*:

l 1 GHz or faster Pentium or equivalent processor

l 2 GB RAM (4GB recommended for handling mapping and other large drawings)

l Windows 7, XP or Vista **

l 24 Bit colour or better graphics board with 256MB or more on board

l 20 GB of hard disk space

l CD-ROM drive

l Mouse with ‘Wheel’ button

* appropriate at the time of writing

** see software requirements below

Software requirements

AutoCAD: Keysoft Solutions have a policy, supported by the User Group, to support only the current and the most recent previous version of AutoCAD. This is currently extended by virtue of the similarities in application terms. As a result AutoCAD 2009, 2010, 2011, 2012 and 2013, and the AutoCAD Map 3D 2009, 2010, 2011, 2012 and 2013 are cur- rently supported.

Operating System: The recommended operating systems are Windows XP or 7.

Please note that keeping an old OS up-to-date can be more onerous and problematic than installing the current version.

- 284 - Please contact Keysoft Solutions on 03451 303040 for up-to-date advice.

14.3 Starting the installation program

Place the KeySIGN CD-ROM in the CD-ROM drive. If you have the Autorun feature enabled, the installation program will start automatically. If you do not have Autorun enabled, or if the installation program does not start automatically, double-click on the ‘My Computer’ icon, or use Windows Explorer to find the CD-ROM drive and double- click on the ‘Setup’ application/program in the root folder of the CD.

14.3.1 The Installation Wizard

The installation program is in the form of a ‘Wizard’, with a number of straightforward steps. It is STRONGLY recommended that the default choices are taken as this can assist with any support should this be required at a later date. The default location for KeySIGN is in a folder (directory) in the Program Files folder.

‘C:\Program Files\Keysoft Solutions\KeySIGN\19.3’.

During the installation, a choice of set-up types is offered. ‘Install all files’ will suit most users. ‘Choose which files to install’ allows a user to choose components individually. This option is only recommended for advanced users.

14.3.2 User Name and Password screen

During the installation you will be prompted for a User name and the Serial number (num- bers only) of the software. This is for reference only and can normally be found in the cov- ering letter accompanying the upgrade software or on the CD label of a new copy. If upgrading from a previous version you will retain the same licence number in the new

- 285 - version. The User Name and Serial number are printed out on the command line (Text Window) in AutoCAD when any drawing is opened or started.

14.3.3 Creation of Shortcuts and AutoCAD Profile

The installation will attempt to create a shortcut on the Windows Desktop. If the program has not created a shortcut, it will be necessary to do this manually. On Windows NT machines a shortcut is not created on the desktop. The procedure for creating a shortcut manually is described in step 14.3.4 Manual creation of the shortcut below. The install- ation wizard will create KeySIGN shortcuts for each release of AutoCAD installed in the Windows 'Start' menu under:

'Programs > Keysoft Solutions > KeySIGN v19.3’

The installation wizard will attempt to create an AutoCAD Profile which will ensure that KeySIGN is loaded with AutoCAD. If, when AutoCAD is launched from the KeySIGN shortcut, a message saying “No Profile name exists: KeySIGN... Will create Profile with default settings”, it may be necessary to edit this Profile manually. The procedure for achieving this is described below and in paragraph 14.3.5 Creating or editing the KeySIGN Profile in AutoCAD.

For manual profiles you will need also to complete the following steps:

14.3.4 Manual creation of the shortcut

If a shortcut has not been created, this will need to be done manually. Locate the short- cut to AutoCAD, and copy it to the Window Desktop (for easy access). Rename it to ‘KeySIGN’. Then right-click on the new shortcut and choose Properties from the menu that appears. Append the following text (starting from the ‘/p’) to the ‘Target’ in the

- 286 - Shortcut tab of the properties dialog. This explicitly references the KeySIGN Profile (/p) and the KeySIGN template drawing file (/t). Note the spaces either side of the ‘Target line’ switches /p and /t.

“… \Acad.exe” /p “KeySIGN193” /t “C:\Program Files\Keysoft Solu- tions\KeySIGN\19.3\R22\Sign.dwt”

Please NOTE that the template file (Sign.dwt) referred to should be the one in the KeySIGN specific sub folder, e.g. R22 in the example above. Change this to R20 if run- ning KeySIGN with R2015 or 16 (or MAP/Civil 3D equivalents). (or R21 for R2017)

Check that the ‘Start In’ folder correctly specifies the location where drawing files will be stored. This will normally be on a network drive. Lastly, change the icon to one of those supplied in the KeySIGN folder. If these steps have to be carried out manually, it is likely that steps described in 15.3.6 will also have to be completed.

14.3.5 Creating or editing the KeySIGN Profile in AutoCAD

To run KeySIGN with AutoCAD, it may be necessary under certain circumstances to cre- ate or edit the AutoCAD Profile, which controls the loading of applications, such as KeySIGN, manually. You will know whether this is necessary because KeySIGN will fail to load correctly.

a) When AutoCAD has finished starting, you will see the word ‘Command:’ in the white area at the bottom of the AutoCAD window (the ‘Command’ line). The ‘Options’ dialog can be started by clicking on the ‘Tools’ pull-down menu at the top of the AutoCAD win- dow, and choosing ‘Options’ from this menu. Alternatively, type OPTIONS at the AutoCAD command line.

- 287 - b) Select the ‘Files’ tab on the left of the ‘Options’ dialog. Click on the ‘+’ symbol to the left of the ‘Support File Search Path’ item to expand the branch of the tree.

c) Add the following folders* to the top of the support file search path in the following order, using the ‘Add’, ‘Browse’ and ‘Move Up’ buttons:

C:\Program Files\Keysoft Solutions\KeySIGN\19.3\R22 (top entry)

C:\Program Files\Keysoft Solutions\KeySIGN\19.3

C:\Program Files\Keysoft Solutions\KeySIGN\19.3\Sign Library

C:\Program Files\Keysoft Solutions\KeySIGN\19.3\Symbols

d) Expand the ‘Drawing Template File Location’ branch and change the folder specified to the following:

C:\Program Files\Keysoft Solutions\KeySIGN\19.3\R22

*NOTE The folders quoted here are based on the default installation folder offered dur- ing the installation. Substitute the actual installation folder if this is different. Also NOTE that the template file (Sign.dwt) referred to should be the one in the KeySIGN specific sub folder, e.g. R22 in the example above. Change this to R20 if running KeySIGN with R2015 or 16, or AutoCAD Map/Civil 3D 2016 (or R21 for R2017).

14.3.6 First time starting

The first time KeySIGN starts successfully, KeySIGN will automatically load. Successful loading can be checked by looking for the message on the AutoCAD command line: ‘KeySIGN’ functions loaded OK’. The complete opening sequence, when a drawing is started is shown below in paragraph 14.3.7 KeySIGN Loading Sequence: . Please

- 288 - note that this may vary slightly if additional applications are loaded, and versions and folders may also be different.

14.3.7 KeySIGN Loading Sequence:

When KeySIGN loads, at the start of the AutoCAD session or when each new drawing is started or existing one is opened, the following loading sequence, which includes the successful loading of KeyOSC, should be seen.

Regenerating model.

AutoCAD menu utilities loaded.

KeySIGN menu utilities loaded.

Command: Loading KTS_CUIUtils

KTS_CUIUtils Load completed

Command: KTS_ProductStartup

... using CUIUtils version 1.1.0.1

Using KTS_doc.xml for name KTS_Productname

Using KTS_doc.xml for name KTS_ProductVersion

Checking user menu...

Checking user menu complete existing menu OK. existing menu OK.

Command:

- 289 - KeySIGN, v19.1.0 (19/04/2016) Copyright © 2016 Keysoft Solutions loading..

UK Primary Destination Gazetteer loaded OK.

KeySIGN function definitions loaded.

Command:

KeySIGN v19.2 for AutoCAD 2016 - English initialising

------

Looking for KeySIGN licence, please wait...

Command: OK.

Loading KeySIGN data and settings file

'C:\...... \ATS_Data.lsp' v18.0.0 31/01/2012 OK.

Licensed to: Keysoft Solutions, Serial number 9876.

Your competency level is currently set to 'Expert'.

Redefining inbuilt commands... done.

Fonts installed OK.

KeySIGN colour dependent plot style already installed OK.

Loading KeySIGN settings from Windows Registry.. OK.

- 290 - Loading sign face Material/Rates file:

'C:\program files\Keysoft Solutions\keysign\19.3\material.rat'

(default material: 'Class R3B (12899-1:2007)')

OK.

Post and Foundation design program v4.20.9 (06/02/2012) loaded OK.

Sign Shop detailed costings program v2.0 (14/01/2009) loaded OK. v2.0.31

(10/06/2011) v2.2.3 (14/06/2011) v2.0.3 (10/11/11) v1.0.3.2 (20/02/2012) v1.1.4

(10/06/2011)

Creating command shortcuts (aliases) from file:

'C:\signdev\asign.pgp'

OK.

Loading user settings file:

'C:\signdev\settings.src'

OK.

KeySIGN functions loaded OK.

Command:

Please note the message ‘Looking for KeySIGN license, please wait... OK.’. See below if the licence is NOT found.

- 291 - You should also see the KeySIGN pull-down menus ‘KeySIGN’, ‘Sign Utils’, and ‘Sign Help’. When the toolbars are first shown, AutoCAD will resize the drawing area. This res- ults in a message *Cancel*, which can be ignored.

NB both the pull-down menus and the message ‘KeySIGN functions loaded OK’ must be present to show that KeySIGN has loaded correctly.

If either of the following messages appears before the prompt for User Name and Serial number there is a problem with the software licence authorisation. See below for inform- ation and help on softlock problems.

Figure 14.1 – The Dongle Error Message

14.4 Command Errors

When using commands, sometimes problems can occur which result in the failure of the command before it completes. Commonly, this results in the following or similar mes- sage:

KeySIGN has encountered a problem: bad argument type

- 292 - This can arise depending on the exact sequence of commands used prior to the error. Reloading and/or resetting the software can often clear these errors. See the commands KeySIGN and RESET for more information about resetting KeySIGN. Alternatively, close and reopen the current drawing, or exit and restart AutoCAD.

Errors can arise as a combination of the software and settings within the current AutoCAD drawing. Reloading the drawing is unlikely to be a cure in this case. It is often helpful from a support, as well as a defect resolution perspective to know exactly what was being done prior to the error. This can be done by copying and pasting the text from the AutoCAD text window. Press F2 in AutoCAD to see the text window. Additionally, it can be essential to have a copy of the drawing saved at the time of the error. This can then be sent to Keysoft Solutions for testing with KeySIGN.

14.5 Licensing Errors

If you receive a message relating to the Keysoft Solutions licencing, this is no indication that any of the installation steps described above have not been completed correctly. It will, however, be necessary to diagnose and correct the problem with the software lock- ing.

1. Is the licence standalone or networked?

2. If the licence is standalone, has the correct authorisation number been entered?

3. If the licence is networked, is the networked server issuing the licence running and accessible?

- 293 - 4. If networked can other machines use the network licences or have they all been used up?

If you have any problems or need advice with the installation of KeySIGN, please do not hesitate to contact Keysoft Solutions on 03451 303040 for help.

- 294 - Chapter 15 – Installation and Configuration of KeyOSC Tiler

15.1 Compatibility of KeyOSC with AutoCAD

KeyOSC Tiler is designed to run with AutoCAD R2007 and AutoCAD Map R2007 or later.

The KeyOSC manual, provided in electronic form will give you full installation and con- figuration details, but in the meantime, this document should enable you to get to the stage where the manual can be accessed on-screen. The manual can be read using either Acrobat Reader (installation supplied on the CD) or an Internet Browser such as Microsoft’s Internet Explorer. It can also be accessed from the pull-down menu in AutoCAD, once the installation is complete.

15.2 Running the installation procedure

Go to the ‘Start’ button on the Windows Taskbar, select ‘Run’, then ‘Browse’ Select your CD drive - various directories are shown. Select the KeyOSC directory. Select the SETUP.EXE application/program in the KeyOSC directory and ‘ Open’. Then ‘OK’ the ‘Run’ dialog. Follow the on-screen instructions.

The main installation procedure will then commence to copy files to your hard disk. You will be offered the choice of directory to install to - you are STRONGLY RECOMMENDED TO ACCEPT THE DEFAULT DIRECTORY (c:\keyosc3). When the files have been installed, the full manual can be accessed by double clicking on the file KeyOSC.htm in the ‘C:\KeyOSC3\Manual’ folder. This will start your Internet browser.

- 295 - 15.3 Configuration of KeyOSC Tiler

This section details the necessary actions to configure KeyOSC v3 to run, either as an add-on to standard AutoCAD or with existing Keysoft Solutions software applications.

If running KeyOSC with another KTS application such as KeySIGN, KeySIGNALS or KeyACCIDENT, it is only necessary to enter the KEYOSCMENU command defined in these applications. Simply type KEYOSCMENU and enter to start the loading of KeyOSC. If the command fails to load KeyOSC, or if you wish to run KeyOSC with AutoCAD on its own (no other KTS application) then you will need to follow the setps described below to add KeyOSC manually to AutoCAD.

15.3.1 ‘Installing’ KeyOSC into AutoCAD Manually

This section describes how to manually set-up KeyOSC Tiler to run with AutoCAD. Please note that there is a command supplied with other KTS applications such as KeySIGN, KeySIGNALS or KeyACCIDENT.

Start your AutoCAD (KeySIGN, KeySIGNALS or KeyLINES etc.) application using your normal method.

- 296 - Figure 15.1 – Loading the KeyOSC Menu

In AutoCAD, choose ‘Options’ from the TOOLS pull-down menu. Check which profile you are currently using by going to the ‘Profiles’ tab, then return to the ‘Files’ tab. Expand the Support File Search Path (SFSP) by clicking on the + symbol in a box to the left of the item. The installed folder for KeyOSC (default c:\keyosc3) will need to appear on the list of folders on the SFSP. If it is not present, press the button labelled ‘Add’ to include the folder on the SFSP. The folder can be typed in the blank edit box that appears at the bottom of the SFSP, or you can use ‘Browse’ to select the KeyOSC folder. Apply the changes and exit from the dialog box.

Then, from the ‘Tools’ pull-down, choose ‘Customize > Menus’. From the dialog box presented, choose ‘Browse’, and locate the KeyOSC directory (c:\keyosc3 if the defaults have been accepted). If no files seem to be listed in the file selection dialog, change the type of file to be listed to *.mnu in the pop-list box at the bottom of the dialog box. Then

- 297 - select the KeyOSC menu file, named keyosc3.mnu, that is displayed. Accept this with the ‘Open’ button. Then, back in the main dialog box, choose ‘Load’ (you may get a warn- ing about overwriting toolbars. When this has been loaded and appears on the list of menu groups

When the ‘Menu Customization’ dialog is closed, KeyOSC should load, and show the pull-down and toolbar menus. The first time this occurs KeyOSC will need to know where the Landline or Master Map tiles are held. If this happens, simply browse to the folder as appropriate.

Use the on-line user manual for further information (select Help from the KeyOSC pull- down menu).

15.3.2 Manually Setting the Path to the Map Tiles

Open the file ‘KeyOSC.ini’ from the KeyOSC directory in any plain text editor such as ‘Notepad’ (please note that word processing programs such as MS Word add formatting codes to documents which cannot then be read by KeyOSC). In this file there is a line which begins as follows:

MAPDIR=

This should be followed by the directory which contains the AutoCAD DWG file format OS Landline tiles files e.g.:

MAPDIR=\\ServerName\DriveShareName\OSMaps\Landline*

* note the recommended use of Universal Naming Convention (UNC).

- 298 - The file should then be saved with the correct information.

15.4 Street Name Finder Database

See Section 2.5 of the on-line manual for information on preparing the street name data- base. Once this has been created, it will be necessary to configure the ODBC Data Source Name drivers for use with the Street Name Index. This can be done once KeyOSC is loaded (after the above steps) using the ‘Configuration’ item on the KeyOSC ‘Program’ pull-down sub-menu. See Section 3.11 of the on-line KeyOSC manual for information about this command.

- 299 - Chapter 16 – Glossary of Terms

See also the Glossary of Terms in the AutoCAD help file.

Attribute Tags: a text string associated with a block attribute that identifies a particular attribute during extraction from the drawing database

Block: An AutoCAD block is a single entity (usually) comprising more than one entity. For example, the road traffic signs are placed on the drawing as a single entity and can be moved or copied by selecting any part of the sign. AutoCAD stores a definition of each block within the drawing and displays any instances of the block by reference to this block definition. Changing the block definition thus updates every instance of a block.

Block Attributes: objects that are included in block definitions to store alphanumeric data. Attribute values can be predefined or specified when the block is inserted.

CAD: Computer Aided Design software

Command Line: this area at the bottom of the AutoCAD Window shows the command ‘dialogue’, and is the area where prompts for values such as text height or location will be presented.

Cross hairs: The ‘target’ controller and at the position of the mouse pointer in the graph- ics/drawing area of the AutoCAD window. A type of cursor consisting of two lines that intersect.

- 300 - Dongle: Physical device attached to the parallel or USB port, which acts as a software license control. Also known as Hardlock.

Draworder: a method of controlling which objects are seen above/below other over- lapping objects

ENTER: ‘Return’ on the keyboard. Pressing Enter when drawing lines for example is effectively a ‘null’ entry which commonly ends the command/process. When a value such as a circle radius is prompted, Enter will be used to pass a typed value to the pro- gram. Note that the terms ‘Return’ and ‘Enter’ are used interchangeably. Also, use the enter/return key to enter valid data when requested.

GRID: An array of dots on the AutoCAD drawing screen that does not form part of the drawing, but assists visually with the layout of sign elements.

Hardlock: Physical device attached to the parallel or USB port, which acts as a software license control. Also known as Dongle.

NOGO: a layer containing sign construction lines. On map type symbols these show the minimum distance that any object can be placed near to the symbol, i.e. a ‘no go’ area.

Notepad: Standard plain text file editor provided with Windows. A shortcut to this pro- gram is usually found on the ‘Start > Programs > Accessories > Notepad’ menu.

- 301 - Object Snap: AutoCAD entities have various defining points. For example a line has two endpoints and one mid point. A circle has a centre point, and four quadrant points. These defining points can be found automatically using object snaps when selecting points. Read the AutoCAD manual for detailed information about object snaps. Other Object Snaps (OBJS) include intersection, extended/apparent intersection, per- pendicular, nearest and insertion point. OBJS can be selected using the OBJS toolbar. Right click on a toolbar to see a list of menu groups and toolbars. The OBJS toolbar is in the ACAD menu group.

Orthogonal or the ORTHO setting: the setting constrains successive points selected on screen to horizontally or vertically aligned points.

OS: Ordnance Survey. Ordnance Survey provide a range of map sets, the most detailed of which is the Landline series. Often referred to as OS maps, mapping or OSMAPS. May also be used to refer to the Windows Operating System.

Pickbox: objects are selected by clicking it with your pointing device. It is a square box on the mouse cursor that must touch some part of the object to select it.

Polyline – linear object in an AutoCAD drawing made up of one or more line or arc seg- ments joined together. Has properties such as width not available with line or arc objects. Also called PLINE after the command to create these.

Profile: AutoCAD can store multiple sets of options (preferences). These are stored in a profile, for the current user that is logged on to the PC. Profiles can be edited by select- ing Options from the Tools pull-down menu, on the Profiles tab. It is a mechanism to enable individual users to customize AutoCAD to suit their individual preferences, and is the mechanism by which KeyROADWORKS is loaded.

- 302 - Pull-Down Menu: The command menus located at the top of the AutoCAD Window, such as ‘File’, ‘Edit’ and ‘View’. KeySIGN supplies three pull-down menus.

REGEN or Regeneration: To update a drawing's screen display by recomputing the screen coordinates from the drawing database.

Return: ‘Enter’ on the keyboard. Takes its name from mechanical typewriters for a car- riage return. Pressing Enter when drawing lines for example is effectively a ‘null’ entry, which commonly ends the command/process. Note that the terms ‘Return’ and ‘Enter’ are used interchangeably.

Rubber band line: The line drawn from a point on-screen to the position of the cross hairs.

Service Agreement: with a valid Service Agreement (SA), Keysoft Solutions provides free updates when they become available; hotline telephone support; and User Group Membership.

Selection Set – set of objects selected during the process of a command. Selection sets are built up using a range of techniques such as by Window, Crossing box or Window Polygon.

SNAP: Snap mode restricts the movement of the crosshairs to intervals that you define. When Snap mode is on, the cursor seems to adhere, or "snap," to an invisible rect- angular grid. In KeySIGN the SNAP interval is set to 0.5 s/w.

- 303 - Status Bar: the bottom part of the AutoCAD Window, below the Command Line, import- ant for assessing and setting the status of various settings and values. Also shows the coordinate display and the version of KeySIGN that is loaded.

Template Drawing: this is a drawing that will contain settings, blocks, layers, styles etc, suited for the specific drawing activity and used as a template for new drawings.

Toolbar Flyout: additional toolbar command icons available from below some toolbar icons. Availability of a flyout is indicated by the presence of a small black triangle in the lower right corner of the icon.

TSM Chapter 7: The Traffic Signs Manual Chapter 7, 2003, which covers in detail the design rules for traffic signs. Supplemented by the Working Drawings, supplied by TSO (ISBN 0-11-552480-0).

TSO: The Stationary Office

TSRGD: The Traffic Sign Regulations and General Directions 2016, supplied by TSO (ISBN 9780111300152).

User Group: An annual meeting (twice yearly in the case of KeySIGN) where users can discuss problems with the products, feedback wishlist items and see new enhancements and commands.

Working Drawings: The design of many signs is not covered in sufficient detail in TSM Chapter 7. These signs have a DfT drawing showing these specific rules.

- 304 - Glossary

M

My Term My definition

- 305 - Index

A

Alignment Tools 85, 87

Approach Arm 76, 266

APURGE

command 165, 245

ARM command 75, 217, 246

Arrows

inserting 44, 46-47, 119, 246

lane sign 136

overhead gantry 137

Arrows – direction 278

Arrows thumbnail menu 47, 119

ASIGNCONFIG command 140, 237, 246

ASIGNMOVE command 246

AutoFLAG command 98

Automatic sign routines 185

Automatic signs

commands 98

Automatic text only signs 109

- 306 - AutoPURGE 165, 230

B

Backing boards 94-95

BAFFLE command 98, 247

BFIL command 67-68, 123, 156, 177-179, 229, 247

Bilingual Route Patch 68

Bilingual text 66

spacing 84

Block spacing 83-84

Variable 260

Border fill

Undo 259

BORDERFILL command 121, 142, 248

Borders

drawing 88

Finger post signs 93-94

Fit to space 271

Flag signs 17, 89, 192, 251, 270

four part sign 88

L shaped panel 92, 252

Light baffle/Side extension 98, 271

- 307 - MoD Flag sign 90

MoD panel 90, 253

Panel 75, 91-92, 131, 254, 270, 274

Patch 68, 90, 254

simple one part sign 88, 254

three part sign 88, 258

two part sign 88, 259

Bus lane signs 247

Bus symbols 111, 117, 179, 181, 272

Bus tram and cycle signs 179

C

Calculate block dimensions 169

Chapter 7 Reference 16, 32-34, 45, 48, 53, 58, 63, 66, 70, 73, 77, 79, 83, 90, 94, 96, 114, 119, 126, 136-139, 151, 218-219, 238, 240

Chapter7 Reference 100

Clear NOGO layer 163, 249

Clear NOGO points 250

Colour flash 123

Command aliases 171

Command errors 292

Command line 23, 171

Construction box 82, 273

- 308 - COPY command 35-36

Corner marks box 164

Cross roads symbol 78

Cul-de-sac 75

Cutter bed 233

bespoke 234

Cycle route 139

Cycle signs 179

D

DDETAIL command 132-133

Destination arm 80

Dimension

Create

horizontal dimension 247

vertical 247

Dimensions

rounding 151, 154

Rounding 152

DIST command 250

Distance text 61, 63, 253

DOTOFF command 59, 64, 155, 250

- 309 - DOTON command 59, 64, 114, 123, 155, 250

Drawing background colour

setting 157

Drawing tidy up 162, 164, 250

Drawing title 161

DTEXT command 43, 51-52

DUPLEX command 59, 103, 250

E

Edit panel detail 134

Entry arm

Stretch to edge of sign 72, 178, 265

ENTRY command 76, 250

ERASE command 29

Errors 292

Exit arms 73-76, 143, 215, 246, 251, 265

EXPLODE command 117, 179

Export sign design 143

Extension 98

F

Fast curve 79

FASTCURVE command 251

- 310 - FILLET1 command 82

FLAG command 89

Foundation design 134

Foundations 17, 260

Frame 135

G

Groups 54, 58, 142, 214, 284

H

Hardlock

errors 293

HEAVY command 28

Heavy text 39, 51, 65, 121, 157

Hospital symbols 117, 251

I

Insert

Symbol 45, 75, 266

INSERT command 145, 179

Installation

creating AutoCAD profile 287

creating shortcuts and profiles 286

first time starting 288

- 311 - starting 285

J

Junction number ahead at distance 139

K

KeyABOUT 170

KeyOSC

configuration 296

customise menus 297

installation 295

installing into AutoCAD 296

manual 295

street name finder database 299

L

Label

primary route text 158

sign or symbol 158

x-height 159, 252

Lane Signs 111, 136, 181, 252

arrows 252, 268

Large sign cut 235

Light baffle 98, 271

- 312 - LINE command 32-33, 35, 39, 47

M

MAPSYMBOLJOIN command 81, 252

Materials

edit sign face rates 241-242

Medium Text 39, 51, 121

Mini roundabout 71, 265

Mixed X-height Signs 43

MJUNCT command 138, 253

MOVE command 34, 36, 109, 273

Multi-way junctions 80

N

NEW command 26

NOGO 48, 69-70, 73, 79, 89, 136, 156, 253, 273

points 239

NOGO command 48, 69, 73, 79, 89, 136, 156, 253, 273

O

Object selection 29

Object/verb selection 142

OPEN command 26

- 313 - Options

dialog 237

Set colours 257

Oval roundabouts 70

P

Pan 30

PAN command 30

PANDET command 132-133

Panel details 131, 134, 254

Parking symbols 254

Parking symbols and signs 115

Permitted sign variants 162

Pickbox 29

PICKSTYLE system variable 58, 143, 230

Plates 108, 113, 185

PLINE command 33, 47

Plot scales 153, 227

Posts 135

Posts and Foundations 134, 240

Posts and Light units 135

PPOST command 135, 254

- 314 - Pull-down menus 24

PURGE command 165, 230

R

Rates 241-242

Real Text 41, 64, 114, 120, 123, 156, 162-164, 177-178, 249, 255

colour changing 140

fit to line 268

globally 268

Main command 256

to selected objects 268

type at keyboard 269

Real Text spaces

Delete 249

Reload

menu file 167

program 168

variable defaults 168

Removing symbol fills 123

Reset variables and defaults 168

Roundabout ghost stub 74

Roundabout stub exit 74

- 315 - Route 58, 90, 271

Route cancelled slash 58

Route command 262

Route dialog 56

Route Number patches 139

Route Numbers 271

Route text 37, 51, 55, 82

Route text and patches 256

S

SAVE command 26-27

Quick 26-27

Saveas 27

SBOX command 65, 82-83, 89, 143, 240, 256

Scale

Metres to s/w 148, 256

S/w to Metres 147

S/w to Metres” 257

standard sign 146

SCALE command 43

SDDATTE command 162, 257

- 316 - Selection

commands 28, 38

Selection Tools 142

Service Agreement 16

Sign DDETAIL command 49, 102, 124-125, 129-130, 132, 149, 151, 195, 242, 249

Sign detail 129, 194

Sign library 171

Signs

on junction arms 77

Snap 27, 38

object 214

Special Keys 42

Specification 18, 284

Stretch arm

two thirds rule 72, 266

STRETCH command 78, 196

Stretching arms 76

Supplementary plates 113, 185, 257

Symbol fill

remove 255

Symbols 45, 270, 272, 288

inserting 44

- 317 - T

Template drawing 21-22, 26, 161, 165, 167, 192, 286-288

Text limits

Apply to text globally 259

command 64, 164

The Command Line 23, 171

Tight curve 79

TILE command 65, 156, 163, 258

Tile layer 65, 164, 273

Toolbars 24, 262

Tram signs 179

Transport Fonts 39-40, 42-43, 51, 100, 229

Transport text

Heavy 39, 41, 43, 51, 65, 121, 157, 251, 262

Medium 39, 41, 43, 51, 121, 252, 262

Motorway black 41, 51, 252

Motorway white 41, 51, 253

TRIM command 78

TSRGD 16

Two Thirds Rule 75

- 318 - U

UNBLOCK command 114, 162, 177-178, 259

Underline

2716 sign 140

Lane signs 136

V

Variable block spacing 84

W

WBPOST command 135, 260

Welsh

bilingual text 66-67, 260

menu load 252

What’s New guide 246

X

X-height

setting 148

XBLOCK command 97, 261

Z

Zoom 31-32, 161

save map view 161

- 319 - to map 160

to sign 160

ZOOM command 30-32

- 320 -