Friday 27 October 2017

Lever operated collet chuck for Schaublin B32 collets on the Chipmaster Lathe

Usually when starting with a project I realise what I need in order to complete the project, and often get stuck on some prerequisite to get to the actual project. a tool to make a tool, to make a tool..

This project is no different, I will need an ID and OD grinder, should I want to preserve some of the Schublin collets accuracy. Here I can convert my Eagle Surface Grinder to hold ID and OD spindles perpendicular to the existing spindle axis. Well I need to rebuild it first. Or build a tool post grinder for the Chinese lathe.

Scouring the internet in search of ideas of how to construct such a beast, I came across some similar but different ways to implement the lever closer.

Originally I wanted to base my design on this drawing out of  the book "Taschenbuch für den Maschinenbau" by Dubbel. A plate clutch mechanism similar to the one used in the Matrix clutch on the Chipmaster lathe. 


Below two designs from South Bend Lathe co. The first drawing uses balls for the wedging action. The later heavy 10 model uses a more "common" lever arm action.


http://cdn0.grizzly.com/manuals/g4026_m.pdf
http://sherline.com/Wordpress/wp-content/uploads/2015/09/1150inst.pdf 

Design elements to consider
  • physical dimension (constrained by lathe spindle bore and collets) 
  • materials
  • clamping force
  • balance
  • safety
  • easy to maintain, quick to install, usability, ease of use, attention to detail
The spindle bore on the Chipmaster is 35mm, the minimum OD for the pull bar is specified at 33.5mm, this gives the the draw bar its dimension of OD 34,5 x ID 27.7 
sources on popular forums suggest the pulling distance to be no more than 1/8 inch

The collect requires a clamping force of 11500N. My interpretation of this is 112,8 Kg. How to derive the distance the draw bar needs to be pulled back? The lever pull on the ramp, which engages the lever action to pull the draw bar in. Lever action on lever action with force on incline.
https://www.engineeringtoolbox.com/inclined-planes-forces-d_1305.html

Collet pull force 11500  Newton 1173,469
lever ratio prawl 2,75

cam force 4181,818  Newton  426,7161








Cam Angle 37  deg
C3*SIN(RADIANS(C6))+0,2*C3*COS(RADIANS(C6))  3184,631  Newton

324,9623 Kg
Lever closer ratio 10

Force required 32,49623 Kg




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