Calculating Pulley Ratios for Scissors Lift

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SUMMARY

The discussion focuses on calculating pulley sizes for a scissors lift to achieve specific rotational speeds. The driver pulley has a diameter of 31 mm, and the user aims for the left pulley, initially sized at 46 mm, to rotate at half the speed of the right pulley, also 31 mm in diameter. A proposed solution suggests increasing the left pulley diameter to 62 mm to achieve the desired 1:2 speed ratio. This adjustment ensures that the left pulley rotates at half the speed of the right-hand pulley, aligning with the user's requirements.

PREREQUISITES
  • Understanding of pulley mechanics and speed ratios
  • Basic knowledge of geometry related to circular objects
  • Familiarity with belt-driven systems
  • Experience with practical applications of mechanical engineering principles
NEXT STEPS
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  • Learn about "Mechanical advantage in pulley systems" to enhance understanding
  • Explore "Calculating gear ratios" for similar applications
  • Investigate "Torque calculations in pulley systems" for performance optimization
USEFUL FOR

Mechanical engineers, hobbyists building lift systems, and students studying mechanical design principles will benefit from this discussion.

R4de0n
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Homework Statement



Hi, I am having a problem with calculating the proper sizes for a pulley.The pulleys are turning threaded bars and I want them to turn at different speeds. They are connected via a Belt. There are three pulleys arranged in a triangle. One is the driver pulley(Ø31mm) which I don't have a problem with... the one on the bottom right(Ø31mm) is the same size as the driver pulley, my problem is that I want to size the pulley on the left(Ø46mm) to turn about half as much as the the other driven pulley.
Originally I thought that a ratio of roughly 1:1.5 (31:46) would be ok, but I made the pulley and the difference in rotations did not appear to be 1:1.5.

I was hoping someone would be able to point out if I am missing something glaring. Any insight into how to calculate the proper size so that my threaded bars will turn at the above ratio would be much appreciated


Homework Equations


The Attempt at a Solution

 
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R4de0n: The left-hand pulley would need to have a diameter of 62 mm, if the diameter of the right-hand pulley is 31 mm. This would cause the left-hand pulley to rotate at one half the speed of the right-hand pulley.
 
Thanks very much nvn.
 

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