valve retaining nut:  5/8"-18 5/16" long hollow lock screw (jam set screw)  McMaster-Carr part number 91301A190 (alloy steel black oxide finish)

valve locking nut (located on underside of body): 5/16"-24 1/4" long set screw McMaster-Carr part number 91375A595 (alloy steel black oxide finish)
    or in stainless, McMaster-Carr part number 92311A594 (18-8 stainless steel)

cocking rod hex knob:  5/16" OD 10-32 stainless threaded hex standoff, 3/4" long, McMaster-Carr 91115A610 (18-8 stainless, $3.59)
    or 91780A810 (aluminum, $2.00)

grip frame screw anchor:  1/4" OD 8-32 brass threaded hex standoff, 1/2" long, McMaster-Carr 91115A535 (18-8 stainless, $1.26)
    or 90308A635 (zinc-plated brass, $0.27)

grip frame hole spacing is the same as AutoMags and Sheridans - 4.125"

To remove the screw from the vertical ASA, Timberwolf says to use a 1/4" 12 point socket.
 

Pre-98 vs. 98 and newer triggers:

This photo (from G3) shows two AKA trigger plates - the top one is the old style (note the point at the bottom right of the plate) and the lower one is the new style (rounded off rather than pointed).  Springs and sears will fit either the new or old frames.  Note that '98 plates and previous are supposedly narrower than the 99/2k plates.  [how to tell old/new grip frames apart?]
 

Rams:

This photo (provided by Jeff "Yankee Workshop" Barnett) shows (from top to bottom) a stock cocker ram (circa 1983), a Clippard 3SD-1 (unthreaded), and a Clippard/J&J ram (bought from J&J at Zap Am in 1995).  Note that older cockers (probably pre-96 or so) had ram threads that were threaded 5-40 (which is actually the correct thread size for a 1/8" shaft), while newer rams are threaded 6-32 (and thus the threads are not 'full' threads, but they do work well enough (plus, 6-32 is a much more common thread size).  Also note that the only rod threading option on the Clippard 3SD-1 is for 5-40 - if you purchase one from Clippard, get it with an unthreaded rod and do the 6-32 tapping yourself.  The ports on the 3SD-1 have 10-32 threads.

All cocker rams are double acting, have a 1" stroke and have the nose threaded 5/16"-24.
The nifty little stainless mini-ram from Clippard (also sold by ANS and perhaps others) is not a standard Clippard ram - it's a special order item with a minimum 500 pc. order.  Rats.  However, Ed Kang notes that SMC has a very nice stainless cylinder available (used, in fact, on Sandridge's F5).  He writes:

The SMC cylinders used in the sandridge cockers are $17.00 per piece for 1" stroke, 5/16"-24 nose thread, 6-32 shaft thread. They are excellent rams, quick, smooth, and very attractive - more attractive than Clippard units and I would dare say more attractive than any commercial unit out there, except for perhaps the Palmer unit.

        The part number is: NCJ2B10-100-XA07

        The standard part is NCJB10-100 for 1" stroke, 6-40 shaft thread. Appending the XA07 machine code changes the 6-40 shaft thread to a 6-32 shaft thread. A perfect fit for use with the autococker.

4-ways:
Nose is threaded for 15/32"-32
McMaster-Carr (www.mcmaster-carr.com ) sells a tap for this rather uncommon thread size, part # 2595A235, $27.25.  J&L Industrial (www.jandlindustrial.com ) has the cheapest price on this tap that I've managed to find - $11.97, part # TSP-15334-K.  Also, Ed Kang notes that ICS Cutting Tools (www.icscuttingtools.com) has them for $12.24.

X-way shaft drawing:

PDF
Cadket .prt drawing
DXF

Front block screw:
3/8-24 threads

Pneumatics regulators:
Threaded for 1/8" NPT

Barrel:
I don't recall who said this, but it was on Doc's tech forum:
"The threads on a cocker barrel are .912 (major dia.) 20 threads per inch. FYI when I cut them I single point them on a lathe, don't think you will find a tap that size."

Ed Kang found a 15/16"-20 tap (again at www.icscuttingtools.com) for $43.20.  This would give a major dia. of 0.9375", which might just be perfect for adding cocker threads to gun bodies.

Ed then did a bit more research on the subject, and called up Larry at AKA:
Just got off the phone with Larry Alexander. He offered the following information:

The tap used to cut autococker threads is:

15/16"-20, Oversize GH-7

The tap drill is 15/16" minus 46-50 thousandths.

This makes sense. 15/16" corresponds to a major diameter of 0.9375, with a minor diameter of 0.8875 at the largest. 20 threads per inch equals 50 thousandths point to point between threads, or 25 thousandths from valley to point, which means that one can cut these threads with a 45 degree cutting tool.

Fun fun fun. Now the question i have is, what does the Oversize GH-7 notation appended after the tap size mean?

Many thanks to AKA.

Aaron (the AKA in AKA) then popped in to help clear up the oversize notation a bit:
If my tired brain remembers correctly GH-7 is either .003 bigger or .005 bigger then the thread size you need. I would have to look it up again to make sure. This means that the tap would cut a bigger thread so when you industrial hard anodized it the barrel would still fit.
 
 
 
 
 

Feed tube is 0.875" OD, 0.75" ID

Bolt o-rings are 0.1" thick, 0.5" ID, 0.7" OD
Back block on '99 and older models is 1" thick
Pull-pin is 1/4" dia.
Air feed port from valve chamber to bolt is 1/4" dia.
 

Springs:
Ed the human computer recalled these spring sizes off the top of his head:
1/8" diameter x 3/4" length trigger spring (perhaps as big as 3/16" in diameter depending on the frame)
1/4" diameter x 2" to 2.5" length sear spring

Gun operation:
Click here for a copy of the Autococker animation from Worr's website.

Autococking cycle times:
Punisher writes: "I've been able to cycle down as low as 12ms. However only perfect, SMALL paint will feed reliably. you're better off to shoot for somewhere near 30ms."  When asked about the means that he used for these measurements, he replied:

"I initially used a rather complicated system, tacking optical (IR) sensors to the bolt and back block, with the stationary IR source hung off the back of the gun. I had a buddy cycle it as fast as he could. I measured the resulting signals with a Tektronix 3052 digital oscilloscope. He could rip off strings of 6 to 10 at around 11 balls a second. It's truly frightening to hear a guy shoot a cocker that fast all on his own. I saw that at that speed, the bolt was open for a total of (approximately) 63 milliseconds. Now that is counted from the time the block lifts away from the body, until it actually settles home again. In reality, the bolt was only fully open for around 40 milliseconds. Once I got that much, I started whittling down until it wouldn't allow it to feed."