DOCSLIB.ORG

Competency Template

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Competency Template Industrial Mechanic (Millwright) The latest version of this document is available in PDF format on the ITA website www.itabc.ca To order printed copies of Program Outlines or learning resources (where available) for BC trades contact: Crown Publications, Queen’s Printer Web: www.crownpub.bc.ca Email: [email protected] Toll Free 1 800 663-6105 Copyright © 2017 Industry Training Authority This publication may not be modified in any way without permission of the Industry Training Authority Industrial Mechanic (Millwright) Industry Training Authority 1 08/183/17 INDUSTRIAL MECHANIC (MILLWRIGHT) PROGRAM OUTLINE APPROVED BY INDUSTRY MARCH 2017 BASED ON RSOS 2016 Developed by Industry Training Authority Province of British Columbia Introduction TABLE OF CONTENTS Section 1 INTRODUCTION ................................................................................................................ 3 Foreword ........................................................................................................................... 4 Acknowledgements ........................................................................................................... 5 How to Use this Document ................................................................................................ 6 Section 2 PROGRAM OVERVIEW .................................................................................................... 8 Program Credentialing Model ........................................................................................... 9 Occupational Analysis Chart ........................................................................................... 10 Training Topics and Suggested Time Allocation: Level 1 ............................................... 15 Training Topics and Suggested Time Allocation: Level 2 ............................................... 16 Training Topics and Suggested Time Allocation: Level 3 ............................................... 17 Training Topics and Suggested Time Allocation: Level 4 ............................................... 18 Section 3 PROGRAM CONTENT .................................................................................................... 19 Level 1 Industrial Mechanic (Millwright) .......................................................................... 20 Level 2 Industrial Mechanic (Millwright) .......................................................................... 56 Level 3 Industrial Mechanic (Millwright) .......................................................................... 99 Level 4 Industrial Mechanic (Millwright) ........................................................................ 134 Section 4 TRAINING PROVIDER STANDARDS .......................................................................... 164 Facility Requirements .................................................................................................... 165 Tools and Equipment .................................................................................................... 166 Reference Materials ...................................................................................................... 171 Instructor Requirements ................................................................................................ 172 Appendices………….. ................................................................................................................... 173 APPENDIX A: Assessment Guidelines ....................................................................................... 174 Level 1 Grading Sheet: Subject Competency and Weightings ..................................... 175 Level 2 Grading Sheet: Subject Competency and Weightings ..................................... 176 Level 3 Grading Sheet: Subject Competency and Weightings ..................................... 177 Level 4 Grading Sheet: Subject Competency and Weightings ..................................... 178 APPENDIX B: Glossary of Terms and Acronyms ...................................................................... 179 Appendix B: Glossary of Terms and Acronyms ............................................................ 180 APPENDIX C: Previous Contributors .......................................................................................... 182 Appendix C: Previous Contributors ............................................................................... 183 Industrial Mechanic (Millwright) Industry Training Authority 2 08/183/17 Introduction Section 1 INTRODUCTION Industrial Mechanic (Millwright) Industrial Mechanic (Millwright) Industry Training Authority 3 08/183/17 Introduction Foreword The Program Standards for Industrial Mechanic (Millwright) 2017 were updated through a Standards Review project funded by the Industry Training Authority. These revised standards incorporate changes made to the Industrial Mechanic (Millwright) Red Seal Occupational Analysis (RSOS) released in 2016. The standards were reviewed and adjusted by a group of Subject Matter Experts (SMEs), during a five day workshop in March 2017. Thanks are extended to SMEs for their dedication and participation in keeping Industrial Mechanic (Millwright) Program Standards technologically current and aligned with the needs of industry. SAFETY ADVISORY Be advised that references to the WorkSafe BC safety regulations contained within these materials do not/may not reflect the most recent Occupational Health and Safety Regulation (the current Standards and Regulation in BC can be obtained on the following website: http://www.worksafebc.com). Please note that it is always the responsibility of any person using these materials to inform him/herself about the Occupational Health and Safety Regulation pertaining to his/her work. Industrial Mechanic (Millwright) Industry Training Authority 4 08/183/17 Introduction Acknowledgements Key stakeholders from industry sectors including employers, associations, training providers, and trades workers were integral to the guidance of this program development project. Industry Subject Matter Experts retained to assist in the development of Occupational Analysis Chart (OAC): • David Hiltz Catalyst Paper • Ed Leonard Teck Resources Limited • Keith Belcourt LRF Contracting Ltd. • Steve Greenwood Teck Resources Limited • Travis Emel Canfor Industry Subject Matter Experts retained to assist in the development of the Program Outline: • Brian McClinton Kwantlen Polytechnic University • Bryan Messer BCIT • Doug Weibe Former instructor - retired • Ed Leonard Teck Resources Limited • Gord Balfour Millwrights, Machine Erectors and Maintenance Local Union 2736 • Nelson Schneider Canfor • Rick Czar College of the Rockies • Steve Greenwood Teck Resources Limited The Industry Training Authority would like to acknowledge the dedication and hard work of all the industry representatives appointed to identify the training requirements of the Industrial Mechanic (Millwright) occupation. Industrial Mechanic (Millwright) Industry Training Authority 5 08/183/17 Introduction How to Use this Document This Program Outline has been developed for the use of individuals from several different audiences. The table below describes how each section can be used by each intended audience. Employers/ Section Training Providers Sponsors Apprentices Challengers Program Communicate Understand the length Understand the length Understand Credentialing program length and and structure of the and structure of the challenger pathway to Model structure, and all program program, and pathway Certificate of pathways to to completion Qualification completion OAC Communicate the Understand the View the Understand the competencies that competencies that an competencies they will competencies they industry has defined apprentice is expected achieve as a result of must demonstrate in as representing the to demonstrate in program completion order to challenge the scope of the order to achieve program occupation certification Training Shows proportionate Understand the scope Understand the scope Understand the Topics and representation of of competencies of competencies relative weightings of Suggested general areas of covered in the covered in the various competencies Time competency (GACs) technical training, the technical training, the of the occupation on Allocation at each program level, suggested proportion suggested proportion which assessment is the suggested of time spent on each of time spent on each based proportion of time GAC, and the GAC, and the spent on each GAC, percentage of that percentage of that and percentage of time spent on theory time spent on theory time spent on theory versus practical versus practical versus practical application application application Program Defines the Identifies detailed Provides detailed Allows individual to Content objectives, learning program content and information on check program tasks, high level performance program content and content areas against content that must be expectations for performance their own knowledge covered for each competencies with a expectations for and performance competency, as well practical component; demonstrating expectations against as defining may be used as a competency their own skill levels observable, checklist prior to measureable signing a achievement criteria recommendation for for objectives with a certification (RFC) for practical component an apprentice Industrial Mechanic (Millwright) Industry Training Authority 6 08/183/17 Introduction Employers/ Section Training Providers
Load more

Recommended publications
  • Distal Radius System 2.5
    PRODUCT INFORMATION Distal Radius System 2.5 APTUS® Wrist 2 | Distal Radius System 2.5 Contents 3 A New Generation of Radius Plates 4 One System for Primary and Secondary Reconstruction 6 ADAPTIVE II Distal Radius Plates 8 FPL Plates 10 Hook Plates 11 Lunate Facet Plates 12 Rim Plates 13 Fracture Plates 14 Correction Plates 15 Volar Frame Plates 16 Extra-Articular Plates 17 Small Fragment Plates 18 Dorsal Frame Plates 19 XL Plates 20 Distal Ulna Plates 21 Fracture Treatment Concept 22 Technology, Biomechanics, Screw Features 24 Precisely Guided Screw Placement 25 Instrument for Reconstruction of the Volar Tilt 26 Storage 27 Overview Screw Trajectories 29 Ordering Information 47 Bibliography For further information regarding the APTUS product line visit: www.medartis.com Medartis, APTUS, MODUS, TriLock, HexaDrive and SpeedTip are registered trademarks of Medartis AG / Medartis Holding AG, 4057 Basel, Switzerland www.medartis.com Distal Radius System 2.5 | 3 A New Generation of Radius Plates Why is a new generation of radius plates needed? Distal radius fractures are the most common fractures of the stable plate systems have enabled open reduction and inter- upper extremities. The knowledge of these fractures has grown nal fixation to become an established treatment method for enormously over the last years. Treatment concepts have like- intra- and extra-articular distal radius fractures. These sys- wise been refined. It is now generally accepted that the best tems have enabled even severe extension fractures with dor- possible anatomical reconstruction of the radiocarpal joint sal defect zones to be precisely repositioned and treated with (RCJ) and distal radioulnar joint (DRUJ) to produce a func- osteosynthesis via volar access without the need for additional tional outcome is a requirement.
    [Show full text]
  • Building a Battle Station Model by Russell Barnes
    Building a Battle Station Model By Russell Barnes I. Introduction The summer is usually a pretty difficult time for me to work in my workshop. Chores abound around the house and there is seemingly some-thing to do almost every day that precludes any useful time spent in the workshop. The summer of 2004 was no different. By the time late July rolled around, I was desperate. I had not made anything for over a month. Something had to be done. What to do? Then it hit me. I was looking over the latest Model Expo catalogue and saw they still offered kit models of small battle stations. Not wanting to build a kit, I saw the potential for a quick scratch built project. Over the next two weeks I built a battle station model that turned out to be quite a conversation piece. As fate would have it, that model was destroyed when Hurricane Katrina washed away the local museum. I have decided to replace the battle station model, but it occurred to me that others might benefit from my experience having built it. So, I redrew the plans, making some improve-ments, and decided to set down a guide to building the model. I am not an expert and I make no claim that my methods are the only way to build the model. Someone building from these plans should view my words as a collection of helpful hints rather than a map to follow in order to arrive at a desired result. I envision this project as an introduction to scratch building.
    [Show full text]
  • VARIABLE ANGLE LOCKING HAND SYSTEM for Fragment-Specific Fracture Fixation with Variable Angle Locking and Locking Technology
    VARIABLE ANGLE LOCKING HAND SYSTEM For fragment-specific fracture fixation with variable angle locking and locking technology SURGICAL TECHNIQUE TABLE OF CONTENTS INTRODUCTION Variable Angle Locking Hand System Overview 2 AO Principles 5 Indications 6 Featured Plates & Technique Highlights 7 Screws in the System 18 Featured Instruments 20 SURGICAL TECHNIQUE Preoperative Planning and Reduction 27 Lag Screw Insertion (Optional) 29 Prepare and Insert Plate 37 Insert Screw 50 Implant Removal 51 PRODUCT INFORMATION Implants 54 Instruments 63 Graphic Cases 70 Set Lists 77 Image intensifier control Variable Angle Locking Hand System Surgical Technique DePuy Synthes Companies VARIABLE ANGLE LOCKING HAND SYSTEM OVERVIEW The DePuy Synthes Variable Angle Locking Hand System consists of plates that are anatomic, procedure-specific, and available in both stainless steel and titanium. The Variable Angle Locking Hand System offers instrumentation to aid in: x fracture reduction x provisional fixation x plate adaptation x construct creation Designed for the Surgeon and Patient A dedicated, global surgeon team was integral to the design of this system through extensive consultation and participation in multiple design labs. Surgeon interviews, design and development meetings, and collaboration with key opinion leaders determined the clinical components necessary for the DePuy Synthes Variable Angle Locking Hand System. DePuy Synthes Companies are dedicated to improving patient care. System Snapshot x Extensive system of anatomically precontoured plates x First to the market with 1.3 mm locking screws for hand plating1 x Forceps that aid in fracture reduction and lag screw application x Forceps that aid in plate fixation x Self-retaining screwdrivers x Plates available in 316L stainless steel and titanium x Color-coded instruments 1DePuy Synthes Companies market analysis of leading orthopaedic companies, conducted May 2015.
    [Show full text]
  • Milling Fixtures Principles of Their Design and Examples from Practice Third Revised Edition
    UC-NRLF 25 CENTS B 3 Dlfi 742 MILLING FIXTURES PRINCIPLES OF THEIR DESIGN AND EXAMPLES FROM PRACTICE THIRD REVISED EDITION MACHINERY'S REFERENCE SERIES NO. 4 PUBLISHED BY MACHINERY, NEW YORK MACHINERY'S REFERENCE SERIES EACH NUMBER IS ONE UNIT IN A COMPLETE LIBRARY OF MACHINE DESIGN AND SHOP PRACTICE REVISED AND REPUBLJSHED FROM MACHINERY NUMBER 4 MILLING FIXTURES THIRD REVISED EDITION CONTENTS Elementary Principles of Milling Fixtures, by E. R. MARKHAM - 3 Examples of Milling Fixtures 26 Copyright, 1912, The Industrial Press, Publishers of MACHINERY 49-55 Lafayette Street, New York City X CHAPTER I ELEMENTARY PRINCIPLES OP MILLING MACHINE FIXTURES* The principal consideration, when designing fixtures that are to be fastened solidly to the table of a milling machine, should be to have the fixture firm enough to admit working the machine and cutter to their limit of endurance. In fact, the fixture should be stronger than the machine itself, and able to resist any possible strain that the cutter can exert. While fixtures should be strong, the movable parts should be so made as to be easily manipulated. All bearing and locat- ing points should be accessible to facilitate the removal of chips and dirt. The action of the clamping devices should be rapid, so that no time is lost in manipulating them. The Milling Machine Vise-False Vise Jaws The first fixture to consider is the milling machine vise, which has a stationary and a movable jaw, against which are placed removable jaws, held in place by means of screws. The stationary-removable jaw generally has connected with it any shelf, pins, or means for locating the pieces to be machined.
    [Show full text]
  • Hand-Forging and Wrought-Iron Ornamental Work
    This is a digital copy of a book that was preserved for generations on library shelves before it was carefully scanned by Google as part of a project to make the world’s books discoverable online. It has survived long enough for the copyright to expire and the book to enter the public domain. A public domain book is one that was never subject to copyright or whose legal copyright term has expired. Whether a book is in the public domain may vary country to country. Public domain books are our gateways to the past, representing a wealth of history, culture and knowledge that’s often difficult to discover. Marks, notations and other marginalia present in the original volume will appear in this file - a reminder of this book’s long journey from the publisher to a library and finally to you. Usage guidelines Google is proud to partner with libraries to digitize public domain materials and make them widely accessible. Public domain books belong to the public and we are merely their custodians. Nevertheless, this work is expensive, so in order to keep providing this resource, we have taken steps to prevent abuse by commercial parties, including placing technical restrictions on automated querying. We also ask that you: + Make non-commercial use of the files We designed Google Book Search for use by individuals, and we request that you use these files for personal, non-commercial purposes. + Refrain from automated querying Do not send automated queries of any sort to Google’s system: If you are conducting research on machine translation, optical character recognition or other areas where access to a large amount of text is helpful, please contact us.
    [Show full text]
  • Single-Angle Compression Members Welded by One Leg to Gusset Plates
    SINGLE-ANGLE COMPRESSION MEMBERS WELDED BY ONE LEG TO GUSSET PLATES Sherief Sharl Shukry Sakla, M.A.Sc., P.Eng. A Dissertation Submitted to the Faculty of Graduate Studies and Research through the Department of Civil and Environmental Engineering in Partial Fulfilment of the Requirements for the Degree of Doctor of Philosophy at the University of Windsor Windsor, Ontario, Canada 1997 National Library Bibliothbque nationale I*m of Canada du Canada Acquisitions and Acquisitions et Bibliographic Services services bibliographiques 395 Wellington Street 395. rue Wellington OtrawaON K1AON4 OttawaOfU K1AON4 Canada Canada The author has granted a non- L'auteur a accorde une licence non exclusive licence allowing the exclusive permettant a la National Library of Canada to Bibliotheque nationale du Canada de reproduce, loan, distribute or sell reproduire, preter, distribuer ou copies of this thesis in microform, vendre des copies de cette these sous paper or electronic formats. la forme de microfiche/film, de reproduction sur papier ou sur format electronique. The author retains ownership of the L'auteur conserve la propriete du copyright in this thesis. Neither the droit d'auteur qui protege cette these. thesis nor substantial extracts fiom it Ni la these ni des ehtssubstantiels may be printed or otherwise de celle-ci ne doivent Btre imprimes reproduced without the author's ou autrernent reproduits sans son permission. aut orisation. G 1997 Sherief S. S. Sakla All Rights Reserved I hereby declare that I am the sole author of this document. I authorize the University of Windsor to lend this document to other institutions or individuals for the purpose of scholarly research.
    [Show full text]
  • Manufacturing Glossary
    MANUFACTURING GLOSSARY Aging – A change in the properties of certain metals and alloys that occurs at ambient or moderately elevated temperatures after a hot-working operation or a heat-treatment (quench aging in ferrous alloys, natural or artificial aging in ferrous and nonferrous alloys) or after a cold-working operation (strain aging). The change in properties is often, but not always, due to a phase change (precipitation), but never involves a change in chemical composition of the metal or alloy. Abrasive – Garnet, emery, carborundum, aluminum oxide, silicon carbide, diamond, cubic boron nitride, or other material in various grit sizes used for grinding, lapping, polishing, honing, pressure blasting, and other operations. Each abrasive particle acts like a tiny, single-point tool that cuts a small chip; with hundreds of thousands of points doing so, high metal-removal rates are possible while providing a good finish. Abrasive Band – Diamond- or other abrasive-coated endless band fitted to a special band machine for machining hard-to-cut materials. Abrasive Belt – Abrasive-coated belt used for production finishing, deburring, and similar functions.See coated abrasive. Abrasive Cutoff Disc – Blade-like disc with abrasive particles that parts stock in a slicing motion. Abrasive Cutoff Machine, Saw – Machine that uses blade-like discs impregnated with abrasive particles to cut/part stock. See saw, sawing machine. Abrasive Flow Machining – Finishing operation for holes, inaccessible areas, or restricted passages. Done by clamping the part in a fixture, then extruding semisolid abrasive media through the passage. Often, multiple parts are loaded into a single fixture and finished simultaneously. Abrasive Machining – Various grinding, honing, lapping, and polishing operations that utilize abrasive particles to impart new shapes, improve finishes, and part stock by removing metal or other material.See grinding.
    [Show full text]
  • Code Description Range LIST PRICE (EUR) 1106-301 DIGITAL CALIPER
    LIST PRICE Code Description Range (EUR) 1106-301 DIGITAL CALIPER, jaw length 100mm 0-300mm/0-12" 189.00 1106-302 DIGITAL CALIPER, jaw length 150mm 0-300mm/0-12" 210.00 1106-451 DIGITAL CALIPER, jaw length 100mm 0-450mm/0-18" 220.00 1106-501 DIGITAL CALIPER, jaw length 100mm 0-500mm/0-20" 170.00 1106-502 DIGITAL CALIPER, jaw length 150mm 0-500mm/0-20" 282.00 1106-503 DIGITAL CALIPER, jaw length 200mm 0-500mm/0-20" 364.00 1106-505 DIGITAL CALIPER, jaw length 300mm 0-500mm/0-20" 531.00 1106-601 DIGITAL CALIPER, jaw length 100mm 0-600mm/0-24" 220.00 1106-602 DIGITAL CALIPER, jaw length 150mm 0-600mm/0-24" 387.00 1106-603 DIGITAL CALIPER, jaw length 200mm 0-600mm/0-24" 465.00 1106-802 DIGITAL CALIPER, jaw length 150mm 0-800mm/0-32" 452.00 1106-1002 DIGITAL CALIPER, jaw length 150mm 0-1000mm/0-40" 495.00 1106-1003 DIGITAL CALIPER, jaw length 200mm 0-1000mm/0-40" 839.00 1106-1005 DIGITAL CALIPER, jaw length 300mm 0-1000mm/0-40" 1174.00 1106-1502 DIGITAL CALIPER, jaw length 150mm 0-1500mm/0-60" 1133.00 1106-1503 DIGITAL CALIPER, jaw length 200mm 0-1500mm/0-60" 1337.00 1106-2002 DIGITAL CALIPER, jaw length 150mm 0-2000mm/0-80" 1676.00 1106-2003 DIGITAL CALIPER, jaw length 200mm 0-2000mm/0-80" 1968.00 1106-2502 DIGITAL CALIPER (jaw length 150mm) 0-2500mm/0-100" 2880.00 1106-3002 DIGITAL CALIPER (jaw length 150mm) 0-3000mm/0-120" 4556.00 1108-150 DIGITAL CALIPER 0-150mm/0-6" 26.50 1108-200 DIGITAL CALIPER 0-200mm/0-8" 39.10 1108-250 DIGITAL CALIPER (STANDARD MODEL) 0-250mm/0-10" 78.60 1108-300 DIGITAL CALIPER 0-300mm/0-12" 70.00 1108-150W DIGITAL
    [Show full text]
  • Piranha Ironworkers
    High Quality Genuine Piranha Tooling Piranha Ironworkers Capacities & Specifications Single Operator Ironworkers Make your Piranha Ironworker even more productive and flexible! Rated on Mild Steel (60,000) PSI Tensile Strength P-50, P-65, P-90, P-110 and P-140 All machines subject to changes in specification High Quality Tooling Piranha ironworkers give metal fabricators outstanding quality and innovative features. Every Piranha provides • Genuine Piranha tooling is formulated to extend your tooling life. P-50 P-65 P-90 P-110 P-140 PII-88 PII-140 SEP-120 1524 quality work, savings in set-up time, adaptability and P-65 • Each tool is laser-engraved for easy identification. versatility through a wide range of tooling, and factory Throat Depth 5" 8" 10" 12" 12" 9" 20.5" 21.5" 24" P-50 • Tuffskin tooling for extended tool life. Piranha Ironworkers engineering and support. Open Height 11-1/2" 13-1/2" 15" 15-1/2" 15-1/2" 14" 14" 12-1/4" 5-3/8" • Oversized tooling for all of your larger punching needs. Available Attachments for P-50: A, B, C, D, F, H, I, J, K Closed Height • Tooling is packed with a protective coating and then shrink-wrapped 7-3/4" 9-1/4" 10-1/8" 10-1/4" 10-1/4" 7-3/4" 7-3/4" 10-1/4" 3-3/8" Single Operator, Dual Operator, and Single End Punch Presses For P-65, P-90, P-110 and P-140: A, B, C, D, E, F, G, H, I, J, K to cardboard.
    [Show full text]
  • Using a Myford Keats Angle Plate
    Using a Myford Keats Angle Plate Myford Keats Angle Plate A Keats angle plate is ideal for mounting large items and unevenly shaped castings onto the lathe faceplate for machining. Whilst most available Keats Angle Plates simply have small flanges to attach the unit to the faceplate, the Myford Keats Angle Plate features a full 360o flange for far greater rigidity. An additional advantage of this “full face” flange is that the unit is more balanced and it is far less likely that inconvenient stacks of balance weights will be needed to balance the faceplate. The angle plate is available in two sizes, intended for the 7” and 9” Myford faceplates respectively. The plate illustrated here is the 7” version and the rear flange is 135 mm (5¼”) diameter. The moveable jaw may be reversed to accommodate items of smaller diameter as illustrated in Photo.2 and a through hole is provided in the rear flange to accommodate longer items which project into the headstock mandrel bore. Photo.2 The Angle Plate Set Up For Smaller Photo.3 A Through Hole Facilitates Longer Diameter Items. Items Using The Myford Keats Angle Plate The most usual way to use the Keats Angle Plate is by attaching it to the faceplate of the lathe, although it is a most adaptable accessory and may also be used in a variety of other ways. Photo. 4 shows the angle plate bolted to the faceplate of a customers Myford Super 7 B where it is to be used to turn a bush from the 7 end of a 1 /8” (68.8mm) round bar.
    [Show full text]
  • Power Plant Millwright Fitter K Attendant
    QUALIFICATIONS PACK - OCCUPATIONAL STANDARDS FOR POWER SECTOR Contents 1. Introduction and Contacts..….………………..….1 2. Qualifications Pack……….…….........................2 3. OS Units……………………..…….….......................2 4. Glossary of Key Terms ……………………………….3 5. Annexure: Nomenclature for QP & OS........39 OS describe what individuals need to do, know and understand in Introduction order to carry out a particular job Qualifications Pack- Power Plant Millwright Fitter role or function k Attendant OS are SECTOR: POWER performance standards that SUB-SECTOR: Generation individuals must OCCUPATION: Plant & Equipment Maintenance achieve when carrying out REFERENCE ID: PSC / Q 0301 functions in the workplace, ALIGNED TO: NCO-2004/7233.38 together with Power Plant Millwright Fitters also known as Maintenance Fitters are responsible specifications of for dismantling, inspecting, repairing, assembling, installing, aligning, commissioning of the underpinning power plant machinery and equipment. knowledge and understanding Brief Job Description: The incumbent works on power plant machinery and mechanical equipment and components. This equipment may include turbines and internal combustion engines, power transmission assemblies, basic pneumatic systems, basic hydraulic systems, pumps, compressors,fans, fuel handling system, lubrication, Power Sector Skill cooling and exhaust systems, etc. Some components worked on include bearings, Council valves, drives. 2nd Floor, CBIP Building, Personal Attributes: Physically and mentally able to safely perform essential Malcha Marg, functions of the job. This will also include differently abled people who can perform the Chanakyapuri, New job with or without reasonable accommodations (modified practices.) The candidate Delhi - should be able to climb ladders, scaffolds, poles and towers of various heights. Also able to crawl and work in confined spaces such as attics, manholes and crawlspaces.The E-mail: [email protected] candidate should be able to read, hear and understand instructions and warnings.
    [Show full text]
  • Machinery Repairman
    NAVEDTRA 12204-A Naval Education and September 1993 Training Manual Training Command 0502-LP-477-5600 (TRAMAN) Machinery Repairman DISTRIBUTION STATEMENT A: Approved for public release; distribution is unlimited. Nonfederal government personnel wanting a copy of this document must use the purchasing instructions on the inside cover. Although the words “he,” “him,” and “his” are used sparingly in this manual to enhance communication, they are not intended to be gender driven nor to affront or discriminate against anyone reading this text. DISTRIBUTION STATEMENT A: Approved for public release; distribution is unlimited. Nonfederal government personnel wanting a copy of this document must write to Superintendent of Documents, Government Printing Office, Washington, DC 20402 OR Commanding Officer, Naval Publications and Forms Directorate, Navy Aviation Supply Office, 5801 Tabor Avenue, Philadelphia, PA 19120-5099, Attention: Cash Sales, for price and availability. MACHINERY REPAIRMAN NAVEDTRA 12204-A 1993 Edition Prepared by MRCS Wayne T. Drew COMMANDING OFFICER NETPDTC 6490 SAUFLEY FIELD RD PENSACOLA, FL 32509-5237 ERRATA #1 18 April 2000 Specific Instructions and Errata for the TRAMAN MACHINERY REPAIRMAN, NAVEDTRA 12204-A 1. No attempt has been made to issue corrections for errors in typing, punctuation, etc. 2. Make the following changes to the Machinery Repairman text: Page Column Paragraph Chancre 2-2 1 3rd complete Change paragraph to read as follows: "If a paragraph dimension is given as 3.000 inches, the. is ±0.005 inch: or if the dimension. is ±0.010 inch." vice "If a dimension is given as 3.000 inches., the. is ±0.0005 inch: or if the dimension..
    [Show full text]