Determine the magnitude of the vertical clamping force at E

AI Thread Summary
The discussion focuses on determining the vertical clamping force at point E in relation to the force P applied to a toggle clamp handle. The original poster struggles to connect their equations using static equilibrium principles (ΣFx=0, ΣFy=0, ΣM=0) and seeks assistance. Participants emphasize the importance of understanding the mechanism, specifically the "over-centre" clamp concept, and suggest practical experimentation with locking pliers. They provide a potential approach for solving the problem, including specific force relationships and approximations. The conversation highlights the need for clarity in the problem setup and encourages sharing initial work for better guidance.
Ella Tankersley
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Moved from a technical forum, no template.
Problem: Determine the magnitude of the vertical clamping force at E in terms of the force P applied to the handle of the toggle clamp.
Picture:
media%2Fdad%2Fdad30f90-a6cb-4dd1-b40f-e2fc66b6ffbd%2Fphp7wuVlp.png

I separated the machine into different parts and tried using ΣFx=0, ΣFy=0, and ΣM=0, but I can't seem to get the equations to link up to each other. Any help?
 

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Welcome to PF.
I can't see the picture, server not found. Posted address is wrong. Drag and drop your image onto PF browser.
Is this a homework problem?
 
Baluncore said:
Welcome to PF.
I can't see the picture, server not found. Posted address is wrong. Drag and drop your image onto PF browser.
Is this a homework problem?
Are you able to see the picture now? And yes this is a homework problem!
 
Yes.
 
Ella Tankersley said:
I separated the machine into different parts and tried using ΣFx=0, ΣFy=0, and ΣM=0, but I can't seem to get the equations to link up to each other. Any help?

Show us your work. We need to see your attempt before the homework helpers help.
 
First understand the mechanism. It is called an “over-centre” clamp.
Find and experiment with some locking pliers; https://en.wikipedia.org/wiki/Locking_pliers
Follow the over-center link to; https://en.wikipedia.org/wiki/Tipping_point_(physics)

Notice that as the point C passes through the straight line between B and D, the force multiplication will change sign and momentarily approach infinity.

You might solve the problem as an approximation.
The first step could be Force Cy = Force Py * 130mm / 18mm
The final step could be; Force Ey = Force Dx * 10mm / 70mm
The angle of the link vector B-C will translate the vertical component Cy into horizontal component Dx.
 
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