Solving Hydraulic Cylinder Issue: 100N Force at 4m/sec, Stroke 128mm

AI Thread Summary
A hydraulic cylinder delivers a force of 100N at a speed of 4m/sec with a stroke length of 128mm, and the goal is to convert this force to drive a cylindrical roller at 1465rpm. The torque required can be calculated using the relationship between force, velocity, and angular velocity, while ignoring inertia and losses. Concerns are raised about the practicality of driving the cylinder at such high speeds, suggesting that a motor might be a more efficient solution. The discussion emphasizes the need for precise calculations to ensure compatibility between the hydraulic system and the roller's operational requirements. Overall, careful consideration of the system's design is crucial for effective performance.
Murali_1972
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hi everyone,

i am a new entrant to this forum. can anyone help me to solve this issue.

i have a hydraulic cylinder arrangement which delivers 100N force at 4m/sec with a stroke length of 128mm. i need to convert this linear force to run a cylindrical roller.

what will be the torque it can deliver if the cylindrical roller needs to run at 1465rpm.

thanks
murali
 
Engineering news on Phys.org
hi everyone,

if anyone can help to solve this, i will be very thankful.if any other details are also needed for solving this, please let me know so that i can try to provide the same.

thanks,
R.Murali
 
Try to write an energy balance without considering inertia contribute and losses (force*velocity=torque*ang_velocity).

M
 
This sounds like a poor way to drive a cylinder so quickly; I personally would use a motor coupled to it's end. If the driven cylinder is going 1465 rpm, that means the hydraulic cylinder would have to be going the same speed which is fantastically fast for something like that...
 

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