Hello,
I am trying to create a strong vibration inside of a small cylinder. It is for a torque wrench and will be subjected to autoclaving and will not be lubricated.
The way it currently works is to twist a torsion beam to set the correct torque on the fastener. Picture a cylindrical tube and inside is a flat disc with a curved cantilever beam off of the disc. This disc rotates with respect to the cylinder.
When the wrench is twisted (angle of twist is about 20 degrees) clockwise the cantilever beam is radially compressed inward as it engages a bump on the inside of the cylinder. It snaps past the bump and re-contacts the inside of the cylinder, making a nice click and some vibration. However the vibration is not strong enough.
The stress in the cantilever beam is at it’s max (in-fact it lives for only 400 cycles and I need 1200.) It is stainless steel carpenter custom 455 with an h900 heat treat. So increasing the beam deflection does not seem possible. The cylinder is made of the same material and hardness is about HRC44.
I am thinking about making a small mechanism of a pivoting hammer arm with an extension spring. This would essentially be the same as the cantilever beam, but I could increase the defection and kinetic energy. I also though about thinning the cylinder wall thickness in the hopes of transferring more vibration through the rest of the wrench.
Any ideas are greatly appreciated.
Sincerely,
Steve
I am trying to create a strong vibration inside of a small cylinder. It is for a torque wrench and will be subjected to autoclaving and will not be lubricated.
The way it currently works is to twist a torsion beam to set the correct torque on the fastener. Picture a cylindrical tube and inside is a flat disc with a curved cantilever beam off of the disc. This disc rotates with respect to the cylinder.
When the wrench is twisted (angle of twist is about 20 degrees) clockwise the cantilever beam is radially compressed inward as it engages a bump on the inside of the cylinder. It snaps past the bump and re-contacts the inside of the cylinder, making a nice click and some vibration. However the vibration is not strong enough.
The stress in the cantilever beam is at it’s max (in-fact it lives for only 400 cycles and I need 1200.) It is stainless steel carpenter custom 455 with an h900 heat treat. So increasing the beam deflection does not seem possible. The cylinder is made of the same material and hardness is about HRC44.
I am thinking about making a small mechanism of a pivoting hammer arm with an extension spring. This would essentially be the same as the cantilever beam, but I could increase the defection and kinetic energy. I also though about thinning the cylinder wall thickness in the hopes of transferring more vibration through the rest of the wrench.
Any ideas are greatly appreciated.
Sincerely,
Steve