Y.A. Khulief 1 MECHANICS OF MACHINES Reciprocating radial roller follower Oscillating roller follower.

Slides:

Advertisements

Similar presentations

Advertisements

1 Cams Cams are used to convert rotary motion to oscillatory motion (almost always) or oscillatory motion to rotary motion (rarely) For high speed applications.

Tutorial schedule changes  Original schedule: cam follower displacement diagram --March 13,2014 cam profiles --March 20,2014 Ordinary gear trains --March.

Cams Cam Basics.

MEEN 4110 – Mechanisms Design Fall Lecture 09

Cams are used to convert rotary motion into reciprocating motion

Dynamic Mechanisms. CAMS A cam is a machine part for transferring rotary motion to linear motion In a radial plate cam, the cam is mounted on a rotating.

Learning with Purpose January 25, 2013 Learning with Purpose January 25, Mechanical Design II Spring 2013.

Packaging Project Net construction This is an example of constructing a net of a complex shape (Hexagonal based pyramid) using a compass drawing equipment.

CHAPTER 20 GEARING AND CAMS INSTRUCTOR: M.YAQUB. ME 210: Gear: week# Gears Gears are used to transmit power and rotating or reciprocating motion.

Introduction zMechanisms are widely used in industry and society zMany mechanisms will be familiar to you.

Gears and Cams Chapter Technical Drawing 13 th Edition Giesecke, Mitchell, Spencer, Hill Dygdon, Novak, Lockhart © 2009 Pearson Education, Upper.

Moving toys A project for class 4. Different types of movement Linear – Reciprocating – Rotary - Oscillating - Intermittent – Irregular -

Y.A. Khulief 1 MECHANICS OF MACHINES ME-309 S tatic F orce A nalysis.

Y.A. Khulief 1 MECHANICS OF MACHINES ME-309 Yehia A. Khulief, PhD, PE Professor Mechanical Engineering, KFUPM Room , Tel: 2327.

MECHATRONICS ENGINEERING TECHNOLOGY Concepts of CAM Prepared by: Gautam Agarwal, M.S (Technology)-PUC.

UNIVERSAL COLLAGE OF ENGINEERING & TECHNOLOGY

Cam and Follower The cam and follower is a device which can convert rotary motion (circular motion) into linear motion (movement in a straight line). Cam.

Mechanisms Design MECN 4110

CAM. Meghe Group of Institutions Department for Technology Enhanced Learning 2.

Y.A. Khulief 1 MECHANICS OF MACHINES ME-309 Example

Unit 19 Cam Diagrams and Prints Copyright Goodheart-Willcox Co., Inc. May not be posted to a publicly accessible website. Learning Objectives Identify.

CAM PROFILE -Converts linear motion into rotary motion ` TERMS -GRAPH OF DISPLACEMENT -SCALE -CAM SHAFT/SPINDLE -FOLLOWER -DIRECTION -MINIMUM CAM PROFILE.

PREPARED BY: PATEL MANTHAN(12ME132)

Unit III KINEMATICS OF CAMS

Indexing, Helical and CAM Milling

CAM MACHINE ELEMENT Prepared by R.A.ARUL RAJA, ASSISTANT PROFESSOR,

The reading is 7.38 mm. The reading is 7.72 mm.

THOERY OF MECHANISMS AND MACHINES

THOERY OF MECHANISMS AND MACHINES Module-10 CAMS (DESIGN) Instructed by: Dr. Anupam Saxena Associate Professor Department of Mechanical Engineering Indian.

Kinematics of CAMS UNIT IV.

UNIT-1 MACHINE ELEMENTS-1 Part – A Springs

Cams and Cam Followers.

Mechanisms Mechanisms PLTW Gateway

What is the Cam? A Cam is a rotating or sliding piece in a mechanical linkage used especially in transforming rotary motion into linear motion. A cam may be defined as a rotating machine part designed to.

Mechanisms Mechanisms PLTW Gateway

KINEMATICS OF MACHINE INTRODUCTION TO CAMS AND FOLLOWERS.

Mechanisms There are 4 types of movement Rotary Linear Oscillating

Mechanisms Mechanisms Gateway To Technology®

Cams are used to convert rotary motion into reciprocating motion

Cams and Followers Eccentric Cam Pear Cam Drop Cam

Gears and Cams.

CAMS WITH SPECIFIED CONTOURS

Ewald construction Think of set of planes reflecting in x-ray beam.

Pimpri Chinchwad Polytechnic, Nigdi.

Chapter 05 CAMS & FOLLOWER

Mechanisms Mechanisms Gateway To Technology®

Cams Cams are used to convert rotary motion to oscillatory motion (almost always) or oscillatory motion to rotary motion (rarely) For high speed applications.

Nirmalraj, Asst. Prof, mvjce, BLore-67

Cam Motion and Design IED Activity 4.5.

CAM Design – Part 2, Focus on the CAM

Mechanisms Automation and Robotics VEX

ME321 Kinematics and Dynamics of Machines

Perform the following transformations on the point (4,−8):

Lathe Operations. Lathe Operations Lathe Operations.

WEEK 5 Dynamics of Machinery

EXAMPLE 2 Find lengths in circles in a coordinate plane

Cams and Followers.

Unit 36 Constructions and Enlargements

ME321 Kinematics and Dynamics of Machines

Rotate Around (0,0) By 180 Stretch Scale factor ½ In x and y directions Stretch Scale factor 2 In x and y directions Reflect In line y=x Stretch Scale.

Mechanisms Automation and Robotics VEX

Structures and Mechanisms.

( , ) ( , ) ( , ) ( , ) ( , ) ( , ) ( , ) ( , ) ( , ) ( , ) ( , )

Transformations Review

MECHANISMS Mechanisms Mechanisms Automation and Robotics VEX

Moving toys A project for class 4.

Presentation transcript:

Y.A. Khulief 1 MECHANICS OF MACHINES Reciprocating radial roller follower Oscillating roller follower

Y.A. Khulief 2 MECHANICS OF MACHINES Cam Profile Construct a cam profile using the given Displacement Diagram (given to a scale with follower rise in mm) using Reciprocating radial roller follower of roller diameter 10mm. The cam base circle has diameter of 40mm. The cam rotates Clockwise. Here the DD sub-divisions of 20 degrees are used. Lay off radial lines CCW

Y.A. Khulief 3 MECHANICS OF MACHINES