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Campbell 2536-6 nibbling machine rebuild Part 3
The business end of the main shaft is two pieces, with the shaft end counter-bored to receive the eccentric insert, which is adjustable.
P1010397 copy.jpg The eccentric can be advanced for a longer stroke or retarded for a shorter stroke. These 3 strokes, combined with the two sheave speeds and the collet height adjustment, allows for metals from .025 to .250 to be nibbled smoothly. P1030728 copy.jpg The plunger bearing is bronze with a lengthwise split at 10:00, and is pinned in place. Another (bronze) pin with flats on one end keeps the plunger aligned while it reciprocates. P1010398 copy.jpg P1010402 copy.jpg P1010408 copy.jpg Shims allow for compression on the bearing. P1010409 copy.jpg The hollow cap screw retains the plunger alignment pin. P1010411 copy.jpg The fork engages the collet end, while the threads raise and lower the collet. Up on top, the hand knob raises and lowers the collet in increments determined by the detents - IF the spring is awake and ready. Some penetrant awakened the spring, which took the dentent cap with it. Both were located nearby. P1010405 copy.jpg Detent cap up proud with a new spring and lube in the spring bore. P1030722 copy.jpg P1010404 copy.jpg - end of Part 3 -
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Kent http://www.tinmantech.com "All it takes is a little practical experience to blow the he!! out of a perfectly good theory." --- Lloyd Rosenquist, charter member AWS, 1919. Last edited by crystallographic; 05-23-2017 at 08:00 PM. |
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Kent, can you use this 3/8" round wool felt from McMaster?
https://www.mcmaster.com/#8767k24/=17raqlt I'd be interested in seeing some comments on the pros and cons of the Scotch yoke vs connecting rod for a home shop reciprocating machine if anyone wants to share them. The Scotch yoke seems like it would be limited to slower frequency cycles, but it also seems like it could offer a lot of bearing area that could be very reliable with the right bearing bronze and mating sliding surface. cheers, Michael Last edited by Michael Moore; 05-23-2017 at 08:38 PM. |
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https://www.youtube.com/watch?v=ZWihPadDZQg
https://www.youtube.com/watch?v=_xurB-3wI3g Model 250 Campbell nibbler videos |
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Quote:
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Kent http://www.tinmantech.com "All it takes is a little practical experience to blow the he!! out of a perfectly good theory." --- Lloyd Rosenquist, charter member AWS, 1919. |
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If that felt is too hard/restrictive you might try drilling some small OD holes through it. Or maybe give it a good hammering to loosen it up?
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Campbell 2536-6 nibbling machine rebuild Part 4 - The Motor and Cast Iron Welding
The 3ph 2hp motor is mounted on a pivot plate with 4 bolts. The plate pivots at the bottom and the top is held to tension the belt with a long adjuster stud, two nuts and washers.
P1010239 copy.jpg The rusty patch on the right side of the housing is the skid mark where the machine slid to a stop on the road, after falling from the flat bed truck. The motor spun fine by hand, so I removed it from the frame and took it to the local elect. motor shop - lucky we have a good one here. They pulled it apart and cleaned it and then called me up and offered to sell me a new one. I went back down to their shop and found the bearings, armature and all the working to be very nice so I turned down their kind offer and brought the assembled motor back to my shop and set up to weld the 11 inch crack across the housing. Cast iron welding can be a head scratcher. Conventional cast iron welding methods are : Ni-Rod - "Weld an inch and pound an hour." A 99% nickel rod available in stick format for AC or DC electric welding, or in bare rods for TIG welding. No pre-heat needed - BUT it MUST be peened after roughly each inch of welding, and peened until you can lay your bare hand on the weld. NiRod welds are NOT machinable. I once welded a 56inch crack in a chain-driven hay bailer and hired a kid just to peen my welds. I veed the entire length first and then tacked it up, peening as I tacked. Then I would weld an inch and the kid would sit and pound for an hour until it cooled enough and we'd repeat that .... for about two weeks straight. One root pass and two fill passes was what that job took, and that housing went right back on and it all lined up just right. ...... For some reason I never saw that kid again ... Cast rods and flux for torch welding - The torch will preheat small heads, manifolds and blocks enough for the torch welding process, without extra preheat ... Clean and vee as needed, then heat the rod and dip it into the flux and use the flux-coated rod to weld with. Machinable and good color match. Can repair valve seats and spark plug holes very nicely. http://www.tinmantech.com/products/w...g_supplies.php (instructional video on that page, too) Best material for welding cast iron on the market today - and has been for the 25 + years we have been selling it. Large casting will need a pre-heat to 650F and then post-heating back to 650F and then a long cool-down.... 24hrs is best. Special Ni-Rod that needs NO pre-heat and NO peening. MACHINABLE. (Read: unconventional) I have been using and selling this mystical rod for 25 years. Clean and vee as usual. Tack as usual. Balance the stresses whenever possible, so tack and weld both sides opposite each other whenever possible ... (covered on the dvd, too.) I welded a Toyota 4wd engine back together one time, in the truck, in the snow, and then hand filed the welded pan rail. Cleaned the 22inch weld (welded both sides, so x2), new pan gasket, filled with oil and fired it up. Engine ran fine for another 10 years. I've welded a number of iron heads, manifolds, blocks and such over the years. P1030825 c.jpg Adjuster stud. P1030845 c.jpg P1030846 c.jpg P1030852 c.jpg P1160035 c.jpg This is the rod I used to weld this electric motor with - a fully-assembled electric motor. I veed the crack and made a root pass and a fill pass. Rough weld, I know, but no cracks and it is a very sound repair. Motor runs just fine, like new in fact. And - I did not have to re-drill the pivot plate and shim it all to fit a new motor. .... End of part 4 ....
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Kent http://www.tinmantech.com "All it takes is a little practical experience to blow the he!! out of a perfectly good theory." --- Lloyd Rosenquist, charter member AWS, 1919. Last edited by crystallographic; 05-25-2017 at 04:39 PM. |
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Side note: Having been to Kent's Shop on several occasions and recalling his description of the recent rain/show season, a relevant story resurfaced in my (imperfect?) memory.
A guy who sells high-end gensets for RVs, recommended improving performance pf windings in motors and alternators, exposed to "high humidity", by "baking" the moisture out of them at the time of O'haul. I don't recall exactly, but I think re-sealing the windings was an included step. Second point, I have a 12" x 18" x 36" digitally controlled heat treat oven if someone elects the 24 hr. cool down method. Use of the oven is occasional so I'd help you out for the cost of the electricity. (Might work if you're close?)
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Marc |
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PART 5 - Rebuilding the Campbell 2536 - 6 nibbling machine
Adjustments and operations.
P1030729 copy.jpg Right side -controls - On, Jog (pause), Off (all contacts cleaned and function well.) Lifting shield is protection against loose adjustment bolt being tossed during ops. Zerk lubes slider. P1030725 copy.jpg Left side - Fixed shield - missing and replaced with stlss. Zerk lubes slider. Note that fork is out and collet and slider are up/disengaged. P1030723 copy.jpg Front of business end. Push-pull fork Engaging screw for bronze slider guide pin. P1030738 copy.jpg Non-trivial info. P1030726 copy.jpg Left side of bed / die plate. Bed held down with 6ea 1inch bolts. Many extra close-spaced bolt holes available for longer beds/plates. Nice saw marks. P1030727 copy.jpg Right side Shows big knob for adjusting stripper height - important to keep stripper looser than closer to material being nibbled. Extra holes on Right side for bed/plate extension. Holes at rear allow for longer beds/plates. P1030876 copy.jpg Collets, dies and punches shown are 1/4" and 5/16". Some difference in collet manufacture noted. Not shown are 3/16 collet, die and punch. Punches and dies are available from Cleveland Tool and Die - include dimensions and photos with your correspondence. P1030877 copy.jpg Since bed moved in crash I made an alignment pin to relocate it. P1030884 copy.jpg Test cuts before alignment show punchouts stacking up, and also large new moons. Cuts after alignment show sliver moons. P1030198 copy.jpg Cuts are even. These are nibbled latches from a 1938 Howard DGA, very early model. I did not make these as they are originals and show what I intend this machine to reproduce. P1030882 copy.jpg This machine now nibbles in any direction, 22ga galvanized. Holes punched to start cuts inside panel. End.
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Kent http://www.tinmantech.com "All it takes is a little practical experience to blow the he!! out of a perfectly good theory." --- Lloyd Rosenquist, charter member AWS, 1919. Last edited by crystallographic; 06-02-2017 at 12:53 AM. |
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Congratulations Kent for bringing another one "back alive". Why do you suppose Howard "nibbled" the parts as opposed to cutting them?
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Bill Longyard Winston-Salem, NC |
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Very, very cool stuff!
The vision of the cast iron welding of the engine block in the snow and hand filing sure has imbedded itself in my memory. I only wish I had a story like that to tell. Very impressive Kent.
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Will |
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