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GL 110 Cam Mechanism
Education / GUNT Hamburg / Engineering Mechanics and Machine Elements / Fundamentals of Engineering Design /

Cam mechanisms are used in many areas of technology, such as for valve control in combustion engines. The simple experimental set-up permits quick demonstration of the action principle, and can be used to demonstrate the influence of different cam shapes. The cam follower can work either as a roller tappet, cup tappet, or trailing lever. The stroke is measured using a mechanical position measurement gauge. A scaled disk indicates the associated angle of rotation. 
  The well-structured instructional material sets out the fundamentals and provides a step-by-step guide through the experiments.


Learning Objectives / Experiments
- Displacement curves for cam mechanisms
  * arc/tangent/concave/asymmetric cam
  * choice of roller tappet, cup tappet or trailing lever
[1] Action principle of cam mechanisms
[2] 4 different cams: arc/tangent/concave/asymmetric cam
[3] Roller tappet, cup tappet and trailing lever
[4] Angled scale 0...360°, D=100mm
[5] Dial gauge D=58mm
[6] Cams and tappets easy to change, without use of tools 
Technical Data

Angle scale
- 0...360°
- graduations: 1°
Dial gauge for displacement
- 0...30mm

- graduations: 0,01mm


Dimensions and Weight

l x w x h: 160x160x260mm
Weight: approx. 7kg 

Scope of Delivery
1 cam mechanism experimental unit
4 cams
2 cam tracers
1 dial gauge
1 set of instructional material
Order Details
030.11000  GL 110  Cam Mechanism