in mechanism you gona find 'joints', in that u will see the 'cam joint'.. there u have to define the cam surface and follower surface.. that joins both the surfaces and got attached...
in assembly mode cam is pin joint and follower is slider joint, then go to mechanism and in connection select cams and give surfaces of both cam and follower as reqired
hello,
good animation ..
i will be pleased if get any information related to CAM JUMP PHENOMENON as i require hte same for my Project work..
thanks & rgds.
swapvichare 1 year ago
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Is the compression of the spring achieved with standard mechanism design? How?
UpRisingTUBE 1 year ago
This has been flagged as spam show
Is the compression of the spring achieved with standard mechanism design? How?
UpRisingTUBE 1 year ago
This has been flagged as spam show
Is the compression of the spring achieved with standard mechanism design? How?
UpRisingTUBE 1 year ago
This has been flagged as spam show
Is the compression of the spring achieved with standard mechanism design? How?
UpRisingTUBE 1 year ago
great!!!
rcjs88 2 years ago
thanks friend for your comment on my cam and follower assembly in youtube. i am soon uploding more vedios of PRO/E, keep watching..
paharganj2nd 2 years ago
What constraint did you use to attach the follower to the cam?
svsvsv11 2 years ago
in mechanism you gona find 'joints', in that u will see the 'cam joint'.. there u have to define the cam surface and follower surface.. that joins both the surfaces and got attached...
if you r not getting this pls reply.........
paharganj2nd 2 years ago
in assembly mode cam is pin joint and follower is slider joint, then go to mechanism and in connection select cams and give surfaces of both cam and follower as reqired
paharganj2nd 2 years ago
high vedio quality
paharganj2nd 2 years ago