This course explains the need for the development of engineering drawings as part of the problem solving for the engineers and their relevance to the various departments of an engineering organization. It also explains the various steps involved in the development of drawings; their release and control with reference to the accepted standards The course explains the various components of a drawing, the common information recorded on drawing and some simple rules pertaining to creation of engineering drawings. It also explains the procedures for planning the layout of a drawing and the concepts of scales, grid referencing and revision marking for drawings. The necessity of development of worldwide standards for drawing symbols, the necessity of development of company specific standards, the requirement of non-standard symbols by drawing offices, the purpose and applications of electrical line diagrams, the conventions and symbols used in line diagrams and provides examples and practical lessons for reading and interpretation of single line diagrams will be explained.
By the end of this course delegates will be able to:
Module 1: Engineering Drawings for Electrical Engineers– An Introduction 1
1.1 Drawings - their relevance to engineering
1.2 Origin of worldwide standards in electro-technology
1.3 Purposes served by different types of drawings
1.4 Standards in a drawing office
1.5 Organization of a typical drawing office
1.6 Printing, distribution and control of copies
1.7 Summary
Module 2: Components of a Drawing, Drawing Sizes and Scales
2.1 Typical engineering drawings
2.2 Various categories of electrical drawings
2.3 Planning your drawing
2.4 Title block in a drawing and what it should contain
2.5 Legend block
2.6 Bill of materials block
2.7 Drawing notes block
2.8 Revision history, revision numbering and use of revision marks
2.9 Summary
Module 3: Symbols Used in Electro-technology and Governing Standards
3.1 Types of drawings that need symbols
3 2 Symbols as per electro technology standard
3.3 Use of nonstandard symbols
3.4 Use of color and line types in representing various services
3.5 Company standards for drawings
3.6 Summary
Module 4: Single Line and Three Line Diagrams
4.1 Purpose
4.2 Typical examples
4.3 The differences between single line and the 3-line diagram
4.4 Applications
4.5 Conventions
4.6 Summary
Exercises
Module 5: Schematic Diagrams
5.1 Purpose
5.2 Typical examples
5.3 Control devices – electromechanical relays and contactors
5.4 Use of symbols
5.5 Applications
5.6 Schematics spread over a number of sheets
5.7 Cross referencing between coils and contacts
5.8 Summary
Module 6: Logic Diagrams
6.1 Purpose
6.2 Logic gates
6.3 Typical examples
6.4 Symbols
6.5 Applications
6.6 Logic diagrams spread over a number of sheets
6.7 Cross referencing
6.8 Summary
Module 7: Cabling and Wiring Drawings
7.1 Purpose
7.2 Sub types of cabling and wiring drawings
7.3 Conventions used
7.4 Summary
Exercises
Module 8: Layout drawings
8.1 Purpose
8.2 Conventions used for layout drawings
8.3 Sub types of layout drawings
8.4 Applications of layout drawings
8.5 Summary
Exercises
Module 9: Advances arising from Computer Aided Drafting (CAD)
9.1 Drawing office revolution by CAD and the role of PC based CAD applications
9.2 2D and 3D applications and links to CAM
9.3 Drawing to true dimensions in CAD applications
9.4 Use of symbols, attributes and symbol libraries
9.5 Automated bill of material generation from a CAD drawing
9.6 Information sharing on multi-disciplinary drawing
9.7 Concept of layers and their use in sharing information
9 8 Automation of drawing through programming
9.9 Linking imagery with drawings – GIS related applications
9.10 Summary
Module 10: Management of drawings
10.1 Planning and assigning of drawings
10.2 Need for drawing numbering standards
10.3 Drawing process flow
10.4 Revision control and ownership of drawing
10.5 Comments and their marking
10.6 Drawing management system for work flow control
10.7 On-line distribution of drawings – the end of the era of paper drawings – the future
10.9 Summary
This course is intended for Electrical Engineers & Supervisors, who work in electrical constructions, maintenance in Utilities & Industries Electrical Networks.