Caliper Clamp 1: Form Follows Function

Shown below are the beginnings of part "Caliper Clamp 1" mentioned here:http://objects.reprap.org/wiki/Cyberdyne_T-1

Things all fell in to place when the decision was made to follow in the McWire's footsteps and exclude the mill from the build process. This made the part less time consuming to produce and more in keeping with the original design objective.

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The process being relatively straightforward: a sharpie was used as layout dye, a sharpened TIG electrode was used as a scribe, a compass/dividers and automatic centerpunch were used to locate holes relative to the scribed tracing.

Only two of the four holes were located in this method, with the other two being laid out using the very same digital calipers as hermaphrodite calipers to scribe a centerline between the tracing and the edge of the part. None of these dimensions are critical of course as the caliper jaw merely needs to be contained within the hole pattern.(ideally: not directly next to the knife edge)

A vise/drill press, and a 6-32 tap plus tap drill(#36) were used to drill and tap holes for 6-32 all thread. The initial 4 holes were stacked drilled with the #36 bit. All other operations were done individually.

Parts list:
4X 6-32 nuts
4X 1" lengths of 6-32 all-thread
1/4" alluminum plate

Tools:
Drill
Calipers
Sharpie
Tungsten TIG Electrode/scribe/hard pointy metal/razor blade/etc.
Centerpunch
6-32 Tap
#36 Drill bit
#28 Drill bit
Dividers/compass(optional)

The "12" sliding jaw clamp" has become a separate part for simplicity sake and will be fixtured to this part with small cap screws hidden under the 6" caliper jaw.

The game is afoot!

Took the plunge today and invested in a an Arduino"Duemilanove Atmega328" and "Motor Shield" from adafruit.

http://www.adafruit.com/index.php?main_page=product_info&cPath=17_21&products_id=81

http://www.adafruit.com/index.php?main_page=product_info&cPath=17&products_id=193


Got a day's worth of CAD work done in Solidworks as pictured above. Salvaged some linear rails/bearings and a stepper motor from an old piece of equipment, so I have a platform to experiment with the Cyberdyne Hydraulic Control System once that's up and running.

Doubling the number of arduino's and motor shields isn't appealing to me at the moment, so it looks like I'm working with DC motors there. Speaking of which: I updated the wiki on the CHCS: http://objects.reprap.org/wiki/Cyberdyne_Hydraulic_Control_System

That's all for now.