ThomasUtley
Mechanical
All,
Need some ideas for controlling the speed at which an assembly which is being lifted by springs against gravity can travel upward. In general terms, the assembly being lifted weighs 50-75 lbf while being pulled upward by spring tension exerting approximately 111 lbf at the beginning of motion (most spring extension). The weight being lifted is a range because of a fixed component (the moving mechanism) and a variable component (user items which may or may not be present when the assembly is released).
The assembly rises 6", which reduces the spring tension to just balance the 75 lbf max load when spring tension is at its lowest.
Packaging space is limited. I have two pockets, one on either side of the mechanism, measuring approximately 1" thick X 15" wide X 12" tall. The 1" thickness seems to be the real limiting dimension for concepts I've come up with so far.
I would like the assembly to rise smoothly over a few seconds without slamming against stops at the end of its travel. The motion control device must work in only the upward direction and not fight the user trying to push the assembly back down when finished.
I have considered air dashpots and friction braking so far but been stymied by the lack of space for the dashpot diameter and lack of tunability/stability over time for the friction applications.
Yesterday I was reminded of mechanical escapements used in clockworks. Is there such a thing as a one-way linear escapement design that would slowly allow the mechanism to rise but not inhibit quick movement on the way down?
I'm open to any other suggestions as well. Nothing off the table if you have an idea you'd like to share.
Thanks!
Tom
Need some ideas for controlling the speed at which an assembly which is being lifted by springs against gravity can travel upward. In general terms, the assembly being lifted weighs 50-75 lbf while being pulled upward by spring tension exerting approximately 111 lbf at the beginning of motion (most spring extension). The weight being lifted is a range because of a fixed component (the moving mechanism) and a variable component (user items which may or may not be present when the assembly is released).
The assembly rises 6", which reduces the spring tension to just balance the 75 lbf max load when spring tension is at its lowest.
Packaging space is limited. I have two pockets, one on either side of the mechanism, measuring approximately 1" thick X 15" wide X 12" tall. The 1" thickness seems to be the real limiting dimension for concepts I've come up with so far.
I would like the assembly to rise smoothly over a few seconds without slamming against stops at the end of its travel. The motion control device must work in only the upward direction and not fight the user trying to push the assembly back down when finished.
I have considered air dashpots and friction braking so far but been stymied by the lack of space for the dashpot diameter and lack of tunability/stability over time for the friction applications.
Yesterday I was reminded of mechanical escapements used in clockworks. Is there such a thing as a one-way linear escapement design that would slowly allow the mechanism to rise but not inhibit quick movement on the way down?
I'm open to any other suggestions as well. Nothing off the table if you have an idea you'd like to share.
Thanks!
Tom