A Turning Cam course is associated with the design and production of camshafts, which are crucial components in engines. This course would likely delve into the engineering and manufacturing aspects of camshafts, including how to turn or machine them from raw materials. It could be relevant for automotive or mechanical engineering students and professionals
Description
What You'll Learn
Drawing
Course Details
Course Level
Beginner
Duration
9 Months
Lectures
36 Lectures
Mode
Offline
COURSE NAME
FUNDAMENTALS OF GEOMETRIC DIMENSIONING AND TOLERANCING – GD&T
COURSE OVERVIEW
Geometric dimensioning and tolerancing (GD&T) is a method showing specific tolerances on drawings symbolically.
GD&T is a tool that effectively communicates the design intent to drawings meant for manufacturing and inspection in industries.
The course is based on technical standard ASME Y14.5M-2009.
This course introduces participants to the GD&T system, providing a working knowledge of the correct interpretation and application of each symbol, general rules, the datum system, and 'bonus' tolerance and highlighting some of the changes in the updated Y14.5 standard.
The training is reinforced with many case studies, industrial practical problems and practice exercises.
DURATION - 10 Days
COURSE CO-ORDINATOR
Mr. Dharmender Singh (B.E. Mech., M.E. Production)
Mr. Dharmendra Patel (B.Tech. Production)
COURSE TOPICS
1. Introduction to GD&T
Why use GD&T
Fundamental dimensioning rules
Coordinate tolerancing and its shortcomings
Geometric tolerancing and its benefits
Benefits of GD&T
Technical standards
2. GD&T Terms, Symbols, Rules, and Concepts
Dimension Types
GD&T Symbology FCF, Modifiers and Symbols
Feature and Feature of size
Material conditions MMC, LMC, RFS
Variation Types on a Feature
Difference between Regular and Irregular Features of Size
Virtual Condition
Statistical Tolerancing
Continuous Feature symbol for multiple features of sizes
3. Datums
Importance of Datums
Restraining degrees of freedom with datums
Datum Application to Features and Features of Size.
Use of Datum targets
Datum Shift - Material Conditions applied to Datums
4. Form Tolerances
Form Tolerances Flatness, Straightness, Circularity, Cylindricity
Form tolerance applications
Inspecting flatness
5. Orientation Tolerances
Orientation Tolerances – Angularity, Parallelism, Perpendicularity
Implied right angles, Degrees basic angle, tolerance linear units
Application of Orientation tolerances
Inspecting Orientation tolerances
6. Profile Tolerance
Profile Tolerance and its applications
Inspecting Profile tolerances
Composite Profile
Profile for Co-planar surfaces
7. Location Tolerances
Location Tolerances Position, Symmetry, Concentricity
Application of Position Tolerance Feature Control Frame
Size and Shape of Tolerance Zone
Position Tolerance measurement methods - Functional Gage, CMM data
Zero Tolerancing at MMC
8. Composite Position Tolerance
Basic concept and characteristics
Various Interpretations of composite position tolerance
9. Runout Tolerances
Basic concepts and characteristics of Circular and Total Runout
WHO SHOULD ATTEND
Product Design Engineers
Manufacturing Engineers
CAD Designers,
Quality Inspectors
Machine Operators
Students ITI, Diploma, B.E., B. Tech., M.E., M.Tech.
PREREQUISITES
Knowledge of Engineering Drawing (Course Code : EG1502)
Knowledge of Machine Drawing (Course Code : EG1503)
COURSE NAME
CONSTRUCTION DRAWING PRACTICES AND GRAPHIC STANDARDS
COURSE OVERVIEW
This course offers the students the in depth knowledge of principles and techniques of construction drawing.
The course will enable the students to appreciate the use of engineering drawing as a communication medium in the construction industry.
CAD users can incorporate the knowledge of drawing symbols, standards and conventions in their drawings.
DURATION - 10 Days
COURSE CO-ORDINATOR
Mr. Dharmender Singh (M.E. Production)
Ms. Rattan Amol (B. Arch.)
COURSE TOPICS
1. TECHNICAL DRAWING AND STANDARDIZATION
What is the need of Engineering Drawing
Principle of Engineering Drawing
Introduction to Types of Drawings
-Presentation Drawing
-Working Drawing
2. FREE HAND SKETCHING
Requiremnt of Free hand sketching
Principle of Free hand sketching
Engineering Use of sketches
Sketching Drawing
3. DRAWING INSTRUMENTS AND THEIR USES
Drawing Board
T-Square
Drawing Sheets
Mini- Drafter
Scales
Compass and Dividers
Set Squares and French Curves
Templates
4. SIZES AND LAYOUTS OF SHEETS
Sizes of Sheets
Designation of Sheets
Drawing Sheets Types
Folding of drawing Prints
Title Block
5. LINES AND LETTERING
Types of lines
Types of lettering
Dimension in lettering
Practice Sheets
6. SCALES AND UNITS
Conversion of Units
Unit Systems - Metric, ANSI, IS
Scale Designations
Types of scales
Comparative Scales
Vernier Scales
7. ORTHOGRAPHIC PROJECTIONS
Principle of orthographic Projection
Projection of Solids
First Angle method
Third Angle method
Projection symbols
Standard views
Representation and Position of views
Projection exercises
8. PERPECTIVE VIEWS
One point perspective
Two point perspective
Three point perspective
Worm view
Birds eye view
9. ELEMENTS OF BUILDING CONSTRUCTION
Foundations
Floors
Stone Masonry
Brick Masonry
Arches and Lintels
Doors and Windows
Stairs
Planning and designing of buildings
Plan Layout
Elevations
Perspective Views
Service Drawings
10. STEEL STRUCTURES AND CONNECTIONS
Rivets and riveted joints
Steel structure fabrication
Steel roof trusses
Plate girders
Working drawings and details
WHO SHOULD ATTEND
XI and XII Class Students
Graduates / Under Graduates
ITI, Diploma, B. Tech. Students
CAD Operators
Product Designers
Interior Designers
PREREQUISITES - None
ALLIED COURSES
Freehand Sketching Fundamentals (Course Code : EG1501)
AutoCAD Essentials (Course Code : ACAD1501)
AutoCAD Advanced (Course Code : ACAD1502)
AutoCAD 3D (Course Code : ACAD1503)
3DS Max (Course Code : MAX1501)
Revit Architecture (Course Code : ARCH1501)
COURSE NAME
FREE HAND SKETCHING FUNDAMENTALS
COURSE OVERVIEW :
A freehand sketch is a drawing that is created without the use of a mechanical device (such as a projector, straightedge, compass, or protractor).
Free hand sketching is still an important tool for engineers with the abundance of CAD programs.
This course allows the students to work on basic line drawing skills (horizontal, vertical, incline, curve), use grid paper initially as a guide and attain sketching consistency so that they gradually work on speed.
Utilize proper construction techniques to sketch parts or part elements in shape and maintain proper aspect ratio.
After thorough practice, technical diagrams and sketches are practiced on orthographic, pictorial, isometric and perspective views and projections.
COURSE CO-ORDINATOR
Mr. Dharmender Singh (B.E. MECH., M.E. Production)
Ms. Rattan Amol (B. Arch.)
DURATION - 40 HOURS
COURSE TOPICS
Drawing instruments
Drawing papers
Free strokes
Hatching lines
Drawing surfaces and areas
Dimensioning sketches and elevations
Plan layout and exterior
Lettering and dimensioning freehand sketches
Drawing solids in isometric
Drawing solids in perspective
Drawing household objects
Drawings from scenes
Drawing streets
Sketching stairs
Worm view
Shades and shadows
Drawing plants, flowers and blooms
Drawing people
WHO SHOULD JOIN
Students XI and XII class
Graduates / Under Graduates
Civil/Mechanical Draftsmen
Civil/Mechanical/Architectural Engineers
CAD Operators
Product Designers
Interior Designers
Graphic Designers
PREREQUISITS - NONE
COURSE NAME
FREE HAND SKETCHING FUNDAMENTALS
COURSE OVERVIEW :
A freehand sketch is a drawing that is created without the use of a mechanical device (such as a projector, straightedge, compass, or protractor).
Free hand sketching is still an important tool for engineers with the abundance of CAD programs.
This course allows the students to work on basic line drawing skills (horizontal, vertical, incline, curve), use grid paper initially as a guide and attain sketching consistency so that they gradually work on speed.
Utilize proper construction techniques to sketch parts or part elements in shape and maintain proper aspect ratio.
After thorough practice, technical diagrams and sketches are practiced on orthographic, pictorial, isometric and perspective views and projections.
COURSE CO-ORDINATOR
Mr. Dharmender Singh (B.E. MECH., M.E. Production)
Ms. Rattan Amol (B. Arch.)
DURATION - 40 HOURS
COURSE TOPICS
Drawing instruments
Drawing papers
Free strokes
Hatching lines
Drawing surfaces and areas
Dimensioning sketches and elevations
Plan layout and exterior
Lettering and dimensioning freehand sketches
Drawing solids in isometric
Drawing solids in perspective
Drawing household objects
Drawings from scenes
Drawing streets
Sketching stairs
Worm view
Shades and shadows
Drawing plants, flowers and blooms
Drawing people
WHO SHOULD JOIN
Students XI and XII class
Graduates / Under Graduates
Civil/Mechanical Draftsmen
Civil/Mechanical/Architectural Engineers
CAD Operators
Product Designers
Interior Designers
Graphic Designers
PREREQUISITS - NONE
COURSE NAME
MACHINE DRAWING AND BLUE PRINT READING
COURSE OVERVIEW
The modern drafting offices use computers to generate and maintain drawings.
Use of computers and specific types of specialized software has made drafting easy but the drafting personals lack technical knowledge.
This course is intended for the technical or non-technical students to have a complete understanding of production of detail and assemble drawings of machines, threads, gears, cams, tolerances and limit dimensioning, surface finishes, and precision drawings.
Theory and practice include a study of standard drawing and design characteristics.
Students will solve problems in dimensioning sections, threads and pictorials so that they develop the skills required to draw complete assemble drawings.
This Machine Drawing and Blue Print Reading course will make students in design to visualize and communicate three-dimensional shapes thereby improving presentation considerations of machine parts in computer graphics using CAD softwares.
DURATION - 10 Days
COURSE CO-ORDINATOR
Mr. Dharmender Singh (B.E. Mech., M.E. Production)
Mr. Dharmendra Patel (B.Tech. Production)
Ms. Rattan Amol (B. Arch.)
COURSE TOPICS
1. TECHNICAL DRAWING AND STANDARDIZATION
What is the need of Engineering Drawing
Principle of Engineering Drawing
Introduction to Types of Drawings
-Single Part Drawing
-Assembly Drawing
-Drawings of Standard Engineering Parts
2. FREE HAND SKETCHING
Requiremnt of Free hand sketching
Principle of Free hand sketching
Engineering Use of sketches
Sketching Drawing
3. DRAWING INSTRUMENTS AND THEIR USES
Drawing Board
T-Square
Drawing Sheets
Mini- Drafter
Scales
Compass and Dividers
Set Squares and French Curves
Templates
4. SIZES AND LAYOUTS OF SHEETS
Sizes of Sheets
Designation of Sheets
Drawing Sheets Types
Folding of drawing Prints
Title Block
5. LINES AND LETTERING
Types of lines
Types of lettering
Dimension in lettering
Practice Sheets
6. SCALES AND UNITS
Conversion of Units
Unit Systems - Metric, ANSI, IS
Scale Designations
Types of scales
Comparative Scales
Vernier Scales
7. ORTHOGRAPHIC PROJECTIONS
Principle of orthographic Projection
Projection of Solids
First Angle method
Third Angle method
Projection symbols
Standard views
Representation and Position of views
Projection exercises
8. CONVETIONAL REPRESENTATION OF DRAWINGS
Conventional Representation of materials
Conventional breaks
Square end of shafts
Conventional representation of lines and their application
9. SCREW THREADS AND CONVENTIONAL REPRESENTATIONS
What is screw thread
Types of screw threads
Threads for power transmission
Convention associated with threads
Multiple threads
Application of thread conventions
Empirical formulas for drawing Threads, Washers, Nuts and Bolts
Sections of reinforcement ribs and Webs
Sections of Ribs, Arms and Holes
10. SECTIONAL REPRESENTATION OF SOLIDS
What is section
Types of section
Use of section views
Convention in section views
Section of Solids
Sections of standard parts
Shafts, Keys, Cotters, Bolts, Rivets
Sections of reinforcement ribs and Webs
Sections of Ribs, Arms and Holes
11. ISOMETRIC PROJECTION
What are Pictorial Drawings
Divisions of Pictorial Projections
Need of isometric views
Isometric exercises
Isometric Scale
Construction of various Drawing Elements in isometric Views
12. DIMENSIONING
Components of a dimension
Principle of Dimensioning
Types of Dimensions
Dimensioning Styles
13. BLUEPRINT READING
Locate, understand, and analyze data in drawing documents.
Analysis of orthographic views and creating sectional views.
Creating detailed views form a given drawing layout.
Supply a missing orthographic view on a drawing.
Supply missing dimensions on a view.
Sketch an isometric view from given orthographic views.
Sketch orthographic views from given isometric views.
Find errors and correct sketches made by others.
Identify drawing symbols and abbreviations.
Sketching quick oblique views (cavalier or cabinet) from given orthographic views.
WHO SHOULD ATTEND
Students XI and XII class
Graduates / Under Graduates
ITI / Diploma Engineers
Mechanical Draftsmen
Mechanical Engineers
CAD Operators
Product Designers
Machine Operators
PREREQUISITES - None
CNC Turning
CNC Milling
Turning CAM
More Courses:
COURSE NAME
ENGINEERING DRAWING FUNDAMENTALS
COURSE OVERVIEW
A comprehensive course offered by Jagjit Institute designed to cover the importance of Engineering Drawings.
This course has proved to be an essential tool for the in depth knowledge of Engineering Graphics.
A very simple yet intense course content of this training program exhibits a clear and directional approach towards building a strong platform so that you can work very confidently choose our next level of advance courses from different engineering streams.
While going through this course, you will :
Know the different sizes and size relationships of series of drawing paper used in engineering drawings.
Set up a drawing sheet with the appropriate title block.
Make effective use of basic drawing instruments and equipment.
Understand the relationship between line thicknesses and line types, as well as drawing specifications used in Engineering Drawing.
Make suitable freehand drawings of engineering components and proportion your drawings correctly.
Know Orthographic, Perspective and Isometric projection methods.
Draw projections of points, lines, planes and solids.
Learn by hands-on exercises in free-hand sketching and computer-based drawing.
DURATION - 10 Days
COURSE CO-ORDINATOR
Mr. Dharmender Singh (B.E. MECH., M.E. Production)
Ms. Rattan Amol (B. Arch.)
COURSE TOPICS
DRAWING INSTRUMENTS AND THEIR USES
SHEET LAYOUT AND FREE-HAND SKETCHING
LINES, LETTERING AND DIMENSIONING
SCALES
GEOMETRICAL CONSTRUCTION
CURVES USED IN ENGINEERING PRACTICE
LOCI OF POINTS
ORTHOGRAPHIC PROJECTION
ORTHOGRAPHIC PROJECTIONS OF POINTS
ORTHOGRAPHIC PROJECTIONS OF STRAIGHT LINES
PROJECTIONS ON AUXILIARY PLANES
PROJECTIONS OF PLANES
PROJECTIONS OF SOLIDS
SECTIONS OF SOLIDS
DEVELOPMENT OF SURFACES
INTERSECTION OF SURFACES
ISOMETRIC PROJECTION
OBLIQUE PROJECTION
PERSPECTIVE PROJECTION
WHO SHOULD ATTEND
Students XI and XII class
Graduates / Under Graduates
Civil/Mechanical Draftsmen
ITI / Diploma Engineers
B.E. B. Tech Civil/Mechanical/Architectural Engineers
CAD Operators
Product Designers
Interior Designers
PRE-REQUISITES - None