DOCSLIB.ORG

Axonometric (Isometric Projection)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Axonometric (Isometric Projection) AXONOMETRIC (ISOMETRIC PROJECTION) Representation Systems Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Elevation Profile Plan Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Isometric Into the ISOMETRIC PERSPECTIVE, the isometric axes form a 120º angle between one another Front View Technical Drawing Name and Surname: Axonometric System Draw the AXONOMETRIC PERSPECTIVE of these pieces. Z Z X X Y Y DESCRIPTIVE GEOMETRY Design your OWN HOUSE FRONT VIEW AXONOMETRIC PROJECTION TOP VIEW DESCRIPTIVE GEOMETRY Design your OWN HOUSE FRONT VIEW AXONOMETRIC PROJECTION TOP VIEW.
Load more

Recommended publications
  • 'The "Perfyt Scyens" of the Map; a Study of the Meaning and Interpretation of Local Maps in Early Tudor England 1509-1547'
    'The "Perfyt Scyens" of the Map; a Study of the Meaning and Interpretation of Local Maps in Early Tudor England 1509-1547' Lewis John Kaye Roberts Queen Mary, University of London 70,056 words (excluding bibliography) This work was supported by the AHRC (BGP award reference: 0673) A thesis submitted in fulfilment of the requirements for the degree of Doctor of Philosophy, University of London 1 Statement of Originality. I, Lewis Roberts, confirm that the research included within this thesis is my own work or that where it has been carried out in collaboration with, or supported by others, that this is duly acknowledged below and my contribution indicated. Previously published material is also acknowledged below. I attest that I have exercised reasonable care to ensure that the work is original, and does not to the best of my knowledge break any UK law, infringe any third party’s copyright or other Intellectual Property Right, or contain any confidential material. I accept that the College has the right to use plagiarism detection software to check the electronic version of the thesis. I confirm that this thesis has not been previously submitted for the award of a degree by this or any other university. The copyright of this thesis rests with the author and no quotation from it or information derived from it may be published without the prior written consent of the author. Signature: Date: 16th January 2014 2 Abstract. This thesis begins by examining an unexplored contextual background for sixteenth century local maps. It argues that the architectural drawing techniques developed by master masons in the late twelfth century continued to be taught to the King’s masons well into the sixteenth, and that these drawing techniques lie behind the innovations in sixteenth century topographical mapping.
    [Show full text]
  • Basic Engineering Drawings
    Today’s Thoughts The thing that’s so wonderful about using beautiful, appropriate [CAD] tools is that they become an extension of you, your body, you fingertips, and your mind. They get out of the way and let you directly interact with the problem you are solving. Everyone’s tried to remove a screw without a screwdriver; a task quickly becomes impossible that otherwise would be trivial. — Luke Crawford Here is one of the few effective keys to the design problem — the ability of the designer to recognize as many of the constraints as possible — his willingness and enthusiasm for working within these constraints. Constraints of price, of size, of strength, of balance, of surface, of time and so forth. — Charles Eames Section Views ME 172 Outline • Full Section • Half Section • Offset Section • Broken-out Section • Revolved Section • Removed Section • Sectioning Problems • Sectioning Quiz A Section View Technical Drawing– by Giesecke Visualizing a Section View Technical Drawing– by Giesecke Visualizing a Section View Technical Drawing– by Giesecke A Cut Plane Line Technical Drawing– by Giesecke Full Section View Blueprint Reading Basics – by Warren Hammer Full Section View Technical Drawing– by Giesecke Correct Full Section View Technical Drawing– by Giesecke Correct Full Section View Technical Drawing– by Giesecke Correct Full Section View Technical Drawing– by Giesecke Sectioning Symbols Technical Drawing– by Giesecke Correct Sectioning Lines Technical Drawing– by Giesecke ProblemAligned Full with Section a Full Section Blueprint Reading
    [Show full text]
  • Drawing the “Boundaries”, the Start of an Urban Planning Project
    Geographia Technica, Vol. 12, Issue 2, 2017, pp 73 to 81 DRAWING THE “BOUNDARIES”, THE START OF AN URBAN PLANNING PROJECT Jordi GOMIS1, Carlos TURÓN DOI: 10.21163/GT_2017.122.07 ABSTRACT: The graphic representation of the boundaries of urban planning areas is a sufficiently important element of the representation of urban planning as not to allow the slightest hint of doubt or imprecision to arise in regard to the dividing lines it indicates. It can include everything from the growth limit of the urban land as a whole to small inner areas of the city subject to improvement, renovation or change of planning conditions. It is this first concept that the town planner must include/draw on his working plan to begin his task. Throughout the history of urban planning, this first “boundary” has been represented in various ways using different graphic and/or visual mechanisms. This article presents a journey through the history of the resources used by technicians for their representation and their evolution. Key-words: Graphic representation, Technical drawing, Urban Planning, City drawing, Urbanism. 1. INTRODUCTION The demarcation of geographical, territorial, municipal, regional, etc. areas has never been a problem dissociated from society. Since ancient times the specification of geographic boundaries and limits of influence has occupied and preoccupied people. “Boundaries” and “frontiers” have always given rise to disputes that people have attempted to resolve and settle, sometimes graphically, many others, unfortunately, through the use of force. Various inventories of land, people, property, crops, etc. were made ever since ancient times to inform kings and noblemen of the quantity and quality of their belongings and properties.
    [Show full text]
  • Industrial Computer Graphics Technology
    Industrial Computer Graphics Technology About the ProgrAm The Industrial Computer Graphics PAy Technology program provides The median annual wage for students with career-based drafters was $56,830 in May 2019. training in mechanical design using computer-aided Job outlook drafting/design technology. Employment of drafters is To provide the necessary projected to grow 0 percent from technical education base, the 2018 to 2028. Although drafters program also includes education will continue to work on technical and training in applied technical mathematics, engineering, drawing, and drawings and documents related geometric dimensioning and tolerance skills. Basic training in computer to the design of buildings, machines, technology is included to prepare students for the two-dimensional, and tools, new software programs three-dimensional and solid modeling computer-aided design technology are changing the nature of drafting in the program. All technical manufacturing and engineering design in work and how it is done. Those today's high-technology business and industry uses computer-based, with formal training in this computer-aided design technologies that integrate the design, engineering technology should have the and manufacturing design analysis, and manufacturing of complex products best job opportunities. and product parts, subassemblies, and assemblies into a single, technically coherent process. Bureau of Labor Statistics, U.S. Department of Labor, Occupational Outlook Handbook, The Industrial Computer Graphics Technology program provides the skills April 2020, Drafters, on the Internet at http://www.bls.gov/ooh/architecture-and- and knowledge required for entry-level employment in industrial drafting, engineering/drafters.htm computer-aided drafting, and mechanical design fields. Emphasis is placed on the applications, procedures and techniques of principles involved in industrial drafting and design techniques.
    [Show full text]
  • Technical Drafting and Mental Visualization in Interior Architecture Education Ali Riza Arslan Ali Riza [email protected]
    International Journal for the Scholarship of Teaching and Learning Volume 11 | Number 2 Article 15 July 2017 Technical Drafting and Mental Visualization in Interior Architecture Education Ali Riza Arslan [email protected] Sibel Seda Dazkir Georgia Southern University, [email protected] Recommended Citation Arslan, Ali Riza and Dazkir, Sibel Seda (2017) "Technical Drafting and Mental Visualization in Interior Architecture Education," International Journal for the Scholarship of Teaching and Learning: Vol. 11: No. 2, Article 15. Available at: https://doi.org/10.20429/ijsotl.2017.110215 Technical Drafting and Mental Visualization in Interior Architecture Education Abstract We explored how beginning-level interior architecture students develop skills to create mental visualizations of three-dimensional objects and environments, how they develop their technical drawing skills, and whether or not physical and computer generated models aid this design process. We used interviews and observations to collect data. The findings provide an insight on what kind of difficulties students experience during their learning process and how they overcome those difficulties. The er sults of the study indicate that the students’ lack of skills in technical drawing and in creating 2D and 3D mental visualizations negatively influenced their design process. Using the existing body of literature, we discussed the findings and suggested teaching strategies to improve the learning process for the beginning-level interior architecture students. The findings of this study allowed us to have a better understanding of the student design and learning process. Keywords Interior architecture, interior design, technical drawing skills, mental visualization, computer aided design, architectural models IJ-SoTL, Vol. 11 [2017], No.
    [Show full text]
  • Program Information
    Engineering Technology – General Technology (Associate Degree in Applied Science) Program Start Date: Any Term Minimum Program Length: 74 academic weeks; 5 terms Curriculum Code: 35318 Program Description Students will major in computer aided design with a secondary specialty in electronics engineering technology with an electro-mechanical emphasis. Practical Experience Students gain experience in manufacturing processes, electronic circuits, and computer aided drafting. Professional Opportunities Drafter, CAD operator, print reader, engineering technician. Unique Aspects This program allows students to receive an associate degree with a primary specialty in computer aided design and secondary specialty in electronics engineering technology with electro-mechanical emphasis. This degree is non-transferable. EEDA Career Cluster: Transportation, Distribution & Logistics; Architecture & Construction; Manufacturing; Science, Technology, Engineering & Mathematics Course Requirements Credits Course Title Course Code 1 College Orientation COL 101 3 English Composition I ENG 101 3 Public Speaking SPC 205 3 College Algebra MAT 110 3 Humanities-Fine Arts General Education ART 101, ENG 201, 202, 205, 206, 208, 209, FRE 102, 201, 202, GER 102, MUS 105, PHI 101, 110, SPA 102, 201, 202, THE 101 3 Social/Behavioral Science General Education ANT 101, ECO 210, 211, GEO 101, 102, HIS 101, 102, 104, 105, 201, 202, PSC 201, 215, PSY 201, 203, 212, SOC 101, 102, 205 3 Architectural Computer Graphics I AET 111 3 Architectural Computer Graphics II AET 221 3
    [Show full text]
  • Multi-View Drawing Review
    MMuullttii--VViieeww DDrraawwiinngg RReevviieeww Sacramento City College EDT 300/ENGR 306 EDT 300 / ENGR 306 - Chapter 5 1 OObbjjeeccttiivveess Identify and select the various views of an object. Determine the number of views needed to describe fully the shape and size of an object. Define the term orthographic projection Describe the difference between first and third-angle projection. 2 EDT 300 / ENGR 306 - Chapter 5 OObbjjeeccttiivveess Visualize the glass box concept and apply it to the process of selecting and locating views on a drawing. 3 EDT 300 / ENGR 306 - Chapter 5 OObbjjeeccttiivveess Develop a multi-view drawing, following a prescribed step-by-step process, from the initial idea to a finished drawing. 4 EDT 300 / ENGR 306 - Chapter 5 VVooccaabbuullaarryy First angle Profile plane projection Quadrant Front View Right-side View Horizontal Plane Solid Model Implementation Spherical Multi-view Third-angle Drawing Projection Negative Cylinder Top View Normal Views Vertical Plane Orthographic Visualization Projection Pictorial Drawing 5 EDT 300 / ENGR 306 - Chapter 5 CCoommmmuunniiccaattiioonn People communicate by verbal and written language and graphic (pictorial) means. Technical drawings are a graphical means to communicate. When accurate visual understanding is necessary, technical drawing is the most exact method that can be used. 6 EDT 300 / ENGR 306 - Chapter 5 VViissuuaalliizzaattiioonn aanndd IImmpplleemmeennttaattiioonn Technical drawing involves: Visualization The ability to see clearly in the mind s eye what a machine, device or object looks like. Implementation The process of drawing the object that has been visualized. 7 EDT 300 / ENGR 306 - Chapter 5 VViissuuaalliizzaattiioonn aanndd IImmpplleemmeennttaattiioonn A technical drawing, properly made, gives a clearer, more accurate description of an object than a photograph or written explanation.
    [Show full text]
  • Chapter 2 – Part 2 Multiview Drawing Chapter Objectives
    Chapter 2 – Part 2 Multiview Drawing Chapter Objectives •Explain what multiview drawings are and their importance to the field of technical drawing. •Explain how views are chosen and aligned in a multiview drawing. •Visualize and interpret the multiviews of an object. •Describe projection planes •Describe normal, inclined and oblique surfaces •Describe line types •Describe line weights •Interpret the multiviews of graphic primitives •Describe orthographic projection including the miter line technique Supplemental Files •Describe the line types and line weights used in technical drawings as defined by the ASME Y14.2M standard. •Explain the difference between drawings created with First Angle and Third Angle projection techniques. •Use a miter line to project information between top and side views. •Create multiview sketches of objects including the correct placement and depiction of visible, hidden and center lines. Supplemental files are available for download inside the Chapter 2 folder of the book’s file downloads. Please see the inside front cover for further details. © Technical Drawing 101 with AutoCAD Smith & Ramirez – All rights reserved. 2.4 MULTIVIEW DRAWINGS Multiview drawing is a technique used by drafters and designers to depict a three-dimensional object (an object having height, width and depth) as a group of related two-dimensional (having only width and height, or width and depth) views. A person trained in interpreting multiview drawings, can visualize an object’s three-dimensional shape by studying the two-dimensional multiview drawings of the object. For example, Figure 2.15 provides a three-dimensional (3D) image of a school bus, and while a 3D view of the bus is very helpful in visualizing its overall shape, it doesn’t show the viewer all of the sides of the bus, or the true length, width, or height of the bus.
    [Show full text]
  • Multiview Drawing
    Multi-View Drawing Chapter 5 Engineering Design Technology Sacramento City College Multi-View Drawing 1 Objectives Identify and select the various views of an object. Determine the number of views needed to describe fully the shape and size of an object. Define the term orthographic projection Describe the difference between first and third-angle projection. 2 Multi-View Drawing Objectives Visualize the “glass box” concept and apply it to the process of selecting and locating views on a drawing. 3 Multi-View Drawing Objectives Develop a multi-view drawing, following a prescribed step-by-step process, from the initial idea to a finished drawing. 4 Multi-View Drawing Vocabulary First angle Profile plane projection Quadrant Front View Right-side View Horizontal Plane Solid Model Implementation Spherical Multi-view Third-angle Drawing Projection Negative Cylinder Top View Normal Views Vertical Plane Orthographic Visualization Projection Pictorial Drawing 5 Multi-View Drawing Communication People communicate by verbal and written language and graphic (pictorial) means. Technical drawings are a graphical means to communicate. When accurate visual understanding is necessary, technical drawing is the most exact method that can be used. 6 Multi-View Drawing Visualization and Implementation Technical drawing involves: Visualization The ability to see clearly in the mind’s eye what a machine, device or object looks like. Implementation The process of drawing the object that has been visualized. 7 Multi-View Drawing Visualization and Implementation A technical drawing, properly made, gives a clearer, more accurate description of an object than a photograph or written explanation. 8 Multi-View Drawing Visualization and Implementation Technical drawings made according to standard rules result in views that give an exact visual description of an object.
    [Show full text]
  • Technical Drawing 101 with Autocad 2021
    Technical Drawing 101 with AutoCAD® 2021 A Multidisciplinary Guide to Drafting Theory and Practice with Video Instruction Douglas Smith Antonio Ramirez Ashleigh Fuller Better Textbooks. Lower Prices. ACCESS CODE SDC UNIQUE CODE INSIDE PUBLICATIONS www.SDCpublications.com Visit the following websites to learn more about this book: Powered by TCPDF (www.tcpdf.org) CHAPTER 1 TECHNICAL DRAWING CHAPTER OBJECTIVES: After studying the material in this chapter, you should be able to: 1. Explain what technical drawings are. 2. Explain the terminology used to describe the process of creating technical drawings. 3. Explain how technical drawings are produced. 4. Explain the training needed to become an engineer, architect, designer, or drafter. 5. Describe the process of obtaining employment in the technical drawing field and the qualities that employers seek. 6. Describe what career prospects and opportunities, including salary ranges, are available in the field of technical drawing. 13 CHAPTER OVERVIEW TECHNICAL Drawing TECHNICAL DRAWING: Technical drawings are the graphics and documentation (including notes and specifications) used by manufacturers to fabricate electronic and mechanical products and by construction professionals to produce houses, commercial buildings, roads, bridges, and water and wastewater systems. In fact, from the electronic devices inside your cell phone to the handle of your toothbrush, technical graphics are produced before almost all products are manufactured. Refer to the following websites: American Design Drafting Association: www.adda.org American Institute of Architects: www.aia.org American Society for Engineering Education: www.asee.org National Society of Professional Engineers: www.nspe.org U.S. Department of Labor: www.bls.org 14 CHAPTER OVERVIEW TECHNICAL DRAWING 1.1 THE ORIGINS OF TECHNICAL DRAWING Technical drawing is not a new concept; archaeological evidence suggests that humans first began creating crude technical drawings several thousand years ago.
    [Show full text]
  • TECHNICAL DRAWING GUIDE + 3,20 Edited by Dr Zsuzsanna Fülöp and Aryan Choroomi Based on Building Construction Subjects
    Budapest University of Technology & Economics (BME) Faculty of Architecture Department of Building Constructions 2017 TECHNICAL DRAWING GUIDE + 3,20 Edited by Dr Zsuzsanna Fülöp and Aryan Choroomi based on Building Construction subjects. TABLE OF CONTENTS 1) DEFINITIONS.........................................................................................................................................................page 3 2) SCALES - EXAMPLES - Scales .......................................................................................................................................................................page 4 - 1:200 example drawings ................................................................................................................................. page 7 - 1:100 example drawings ..................................................................................................................................page 8 - 1:50 example drawings .................................................................................................................................. page 13 - 1:20/1:25 example drawings ........................................................................................................................ page 16 3) GENERAL INFORMATION - Line thicknesses .................................................................................................................................................page 17 - Hatching styles .................................................................................................................................................
    [Show full text]
  • Technical Illustration in the 21St Century: a Primer for Today's
    PTC.com White Paper Technical Illustration Page 1 of 11 Technical Illustration in the 21st Century: A Primer for Today’s Professionals by Bettina Giemsa, PTC Overview The fi eld of technical illustration is vast, and now comprises a multitude of techniques and principles. Describing all of these techniques in detail would be a never-ending project. Yet, for today’s illustrators searching for insightful information on topics such as illustrations versus drawings, the current situation is paradoxical: technical illustration is a huge topic, yet there are few books and publications available, as many of the ‘classics’ have gone out of print. Just the same, the need for technical illustrations and technical illustrators is increasing due to various factors, including stricter European Union regulations and warranty issues demanding higher-quality documentation. Unfortunately, many educational institutions that once taught the subject no longer offer courses. In many countries, my home country (Germany) being among them, technical illustration is taught only at a handful of private institutions. Furthermore, technical publications departments within companies are often downsized, leaving technical authors, with no drawing experience, being forced to familiarise themselves with the principles of technical illustration. The paradox: where can they get the information they need to educate themselves? In PTC’s Education Services organization, we have observed this tendency time and again; participants in our product training classes for Arbortext® IsoDraw™ ask us for general guidance on perspectives and other tech- niques, appreciating any help they can get. Accordingly, in this technical white paper, I’d like to provide an overview of some basic aspects of technical illustration that I hope will be useful to illustrators seeking more information on the topic.
    [Show full text]