Pulley system with equal spacing

  • Thread starter Thread starter youp tulpin
  • Start date Start date
  • Tags Tags
    Pulley
AI Thread Summary
The discussion focuses on designing a pulley system with equally spaced attachment points along a vertical bar, where the points move upwards while maintaining consistent distances between them. The desired outcome is for points A, B, and C to rise at different speeds but reach the top simultaneously. Participants suggest incorporating a mechanism that allows for this coordinated movement and recommend using sketches for clarity. Additionally, telescopic sliders are mentioned as a potential solution to enhance the design. The conversation emphasizes the importance of visual aids and mechanical understanding in developing the pulley system.
youp tulpin
Messages
3
Reaction score
2
Dear readers,

I want to design a pulley system like in the schematic below, a system where the distance between certain attachment points are equally spaced along a vertical bar. The main feature of these pulleys is that when a force (F) is applied on one end of the cable, the attachment points (A, B, C) move upwards and the distance between them closes and stays the same between point A and B but also between B and C, much like the crossing joints of a scissor mechanism.

Any ideas?

Kind regards.
 
Engineering news on Phys.org
youp tulpin said:
Dear readers,

I want to design a pulley system like in the schematic below, a system where the distance between certain attachment points are equally spaced along a vertical bar. The main feature of these pulleys is that when a force (F) is applied on one end of the cable, the attachment points (A, B, C) move upwards and the distance between them closes and stays the same between point A and B but also between B and C, much like the crossing joints of a scissor mechanism.

Any ideas?

Kind regards.
IMG_5968.jpeg
 
Welcome to PF.

So you want;
A to rise at a speed of 1.
B to rise at a speed of 2, and
C to rise at a speed of 3.
They will all reach the top at the same time.
 
Welcome? :cool:
Besides the pulleys, what type of mechanism do you have in mind?
Can you provide a diagram of your general idea, please?



 
Here, the three systems are shown separated. There may be duplicated pulleys when all three are combined. Notice that the top pulleys are anchored, but the lower pulley blocks are moved by a distance of T.

The movement of length T, results in a movement determined by the number of falls to T.
1T for point A; 2T for point B; 3T for point C.

1,2,3_Pulleys.jpg
 
Baluncore said:
Here, the three systems are shown separated. There may be duplicated pulleys when all three are combined. Notice that the top pulleys are anchored, but the lower pulley blocks are moved by a distance of T.

The movement of length T, results in a movement determined by the number of falls to T.
1T for point A; 2T for point B; 3T for point C.

View attachment 341297
Sorry for the late reply, I understand how to progress my idea with these sketches, thank you!

I will also look into the telescopic sliders recommended by @Lnewqban, it might even be what I needed in the first place.

Cheers!
 
Reply
  • Like
Likes berkeman and Lnewqban

Thread 'Query on Isentropic relationships (such as PV^gamma = constant)'

Hi all, I have a question. So from the derivation of the Isentropic process relationship PV^gamma = constant, there is a step dW = PdV, which can only be said for quasi-equilibrium (or reversible) processes. As such I believe PV^gamma = constant (and the family of equations) should not be applicable to just adiabatic processes? Ie, it should be applicable only for adiabatic + reversible = isentropic processes? However, I've seen couple of online notes/books, and...
View full post »
Thread 'How can I find the cleanout for my building drain?'

Thread 'How can I find the cleanout for my building drain?'

I am a long distance truck driver, but I recently completed a plumbing program with Stratford Career Institute. In the chapter of my textbook Repairing DWV Systems, the author says that if there is a clog in the building drain, one can clear out the clog by using a snake augur or maybe some other type of tool into the cleanout for the building drain. The author said that the cleanout for the building drain is usually near the stack. I live in a duplex townhouse. Just out of curiosity, I...
View full post »

Thread 'Dry sump pump issue'

I have an engine that uses a dry sump oiling system. The oil collection pan has three AN fittings to use for scavenging. Two of the fittings are approximately on the same level, the third is about 1/2 to 3/4 inch higher than the other two. The system ran for years with no problem using a three stage pump (one pressure and two scavenge stages). The two scavenge stages were connected at times to any two of the three AN fittings on the tank. Recently I tried an upgrade to a four stage pump...
View full post »

Similar threads

System of two pulleys and three masses
Replies
22
Views
6K
Ideal Vs Real Mass Pulley system
Replies
10
Views
5K
Motorizing a TV mount
Replies
9
Views
2K
Absolute motion analysis of pulley-spring system
Replies
10
Views
1K
Model Pulley: Understanding System Physics
Replies
27
Views
10K
(Mechanics) Pulley System Question
Replies
11
Views
3K
GD&T- Positional tolerance question
Replies
3
Views
2K
Choosing proper coordinates in a complex 2 pulley system
Replies
6
Views
3K
1 pulley with mass, 1 mass on the cord, 1 external force, no gravity
Replies
16
Views
3K
Distance traveled and period of a mass - spring - pulley system
Replies
13
Views
4K

Hot Threads

Recent Insights

Back
Top