Making an articulating welding fixture jig/arm!
https://www.youtube.com/watch?v=nJiuMWOKbxo
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Making an articulating welding fixture jig/arm!
https://www.youtube.com/watch?v=nJiuMWOKbxo
I really like this build the arm IE 3rd hand assembly is robust enough for medium fabrication work. most articulating 3rd hand type builds are made just strong enough for electrical work, and there is nothing wrong with that I own a couple pair with alligator clips, I wouldn't be without them for soldering work,
This is great! And I really like that you showed what it was for right off the bat, instead of just pointing to a pile of stuff that could end up being anything at the end of the video. When you were making up the articulating joint, I knew exactly what it was going to be, so I could pay attention to how you were getting there, rather than wondering what you were doing. The only thing I would change about the tool, other than using the materials I might happen to have on hand (not exactly what you had), would be to add some big, fat, glove-friendly knobs, or T-handles, so I wouldn't have to be chasing down a wrench every time I wanted to tighten something on it. Great job and nicely finished, too!
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Thanks orioncons36! We've added your Articulating Third Hand to our Metalworking category,
as well as to your builder page: orioncons36's Homemade Tools. Your receipt:
<div id="blocks"> <div class="block b1 pngfix"> <div class="bimg"> <div> <a href="https://www.homemadetools.net/homemade-articulating-third-hand"> <img src="/uploads/253140/homemade-articulating-third-hand.jpeg"/> </a> </div> </div> <div class="head pngfix"></div> <div class="left pngfix"></div> <div class="right pngfix"></div> <div class="blockover b1 pngfix"> <div class="title"> <a href="https://www.homemadetools.net/homemade-articulating-third-hand">Articulating Third Hand</a> <span> by <a href="https://www.homemadetools.net/builder/orioncons36">orioncons36</a></span> </div> <div class="tags">tags: <a href='https://www.homemadetools.net/tag/third-hand'>third hand</a>, <a href='https://www.homemadetools.net/tag/fabrication'>fabrication</a> </div> </div> </div> </div>
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Nice! So, what's the trick to welding hardened ball bearings like that?
I tried doing something like this years back and had issues welding steel rod to the ball bearings. They didn't like each other very much, apparently.
This type of adjustable joint is often used on photographic equipment. The ones with smooth surface balls have an annoying tendency to slowly "wilt" if a heavy camera or flood is attached. The better ones have circumferential serrations on the balls and are much more rigid when clamped.
An example of what I'm on about can be seen here...
https://www.amazon.com/dp/B09C882D4M...roduct_details
Congratulations orioncons36 - your Articulating Third Hand is the Homemade Tool of the Week!
One of the nicest articulating arms we've seen, and a great use of ball bearings.
Some more good builds from this week:
Picture Frame Hanging Method by rgsparber
Lanyard by thehomeengineer
Shim Washer Boring Holder by Frank S
Drill Bit Shaping and Sharpening Method by RCTURKA
Lathe Chuck Adaptor Plate by theeddies
Magnetic Base Drill Press by Marsh
Silicone-based Mixtures by Kovanca Polock
Steel Infill Miter Plane by e_m_maker
Garage Heater by sams wood creations
Swedish Torch by Andrii Pysarenko
Lathe Headstock Gearbox by Vyacheslav.Nevolya
Power Tool Flip Cart by Marsh
Bottom Quill Nut Spacer by Frank S
Spring Compressor by Kwandotechnic
orioncons36 - you'll be receiving a $25 online gift card, in your choice of Amazon, PayPal, or bitcoin. Please PM me your current email address and gift card choice and I'll get it sent over right away.
This is your 2nd Homemade Tool of the Week win. Here are both of your Homemade Tool of the Week winning tools. Congrats again :thumbsup:
<div id="blocks"> <div class="block b1 pngfix"> <div class="bimg"> <div> <a href="https://www.homemadetools.net/forum/welding-tack-up-clips-82026#post168296"> <img src="https://www.homemadetools.net/uploads/236307/homemade-tack-weld-clips.jpeg"/> </a> </div> </div> <div class="head pngfix"></div> <div class="left pngfix"></div> <div class="right pngfix"></div> <div class="blockover b1 pngfix"> <div class="title"> <a href="https://www.homemadetools.net/forum/welding-tack-up-clips-82026#post168296">Tack Weld Clips</a> <span> by <a href="https://www.homemadetools.net/builder/orioncons36">orioncons36</a></span> </div> <div class="tags">tags: <a href='https://www.homemadetools.net/tag/magnet'>magnet</a>, <a href='https://www.homemadetools.net/tag/holding'>holding</a>, <a href='https://www.homemadetools.net/tag/welding'>welding</a> </div> </div> </div> <div class="block b1 pngfix"> <div class="bimg"> <div> <a href="https://www.homemadetools.net/forum/diy-articulating-helper-arm-89324#post196329"> <img src="/uploads/253140/homemade-articulating-third-hand.jpeg"/> </a> </div> </div> <div class="head pngfix"></div> <div class="left pngfix"></div> <div class="right pngfix"></div> <div class="blockover b1 pngfix"> <div class="title"> <a href="https://www.homemadetools.net/forum/diy-articulating-helper-arm-89324#post196329">Articulating Third Hand</a> <span> by <a href="https://www.homemadetools.net/builder/orioncons36">orioncons36</a></span> </div> <div class="tags">tags: <a href='https://www.homemadetools.net/tag/third-hand'>third hand</a>, <a href='https://www.homemadetools.net/tag/fabrication'>fabrication</a> </div> </div> </div> </div>
Thanks for the share - nice tool.
Did you do any research or trials regarding the ratio of the size of the balls to the size of the holes?
Likewise the location of the holes relative to the edge of the bracket?
I made a couple of small ones - alligator clip size - and just took a guess, but I wonder if they could have been better.
Wow! Nicely done!
I can definitely see the the value of this tool and it’s possible variations. I am not a welder so I would have to approach a build like this in another way.
Thanks for posting and congratulations on a well deserved win!
Dick
I made one of these about 12 months ago and used a female threaded plastic knob in place of the nut which squeezes the ball bearings together. This very conveniently allows the tightness to be hand adjusted.
Also if ball bearings are placed in a slow combustion wood heater for a few hours and the fire is allowed to die down to hot ashes overnight the bearings will become soft enough to drill and if drilled in a lathe the hole will be dead centre of the sphere. If the hole is just a whisker undersized the shaft can be press fit into place. This not only saves welding but allows a neater joint free of weld metal.
I found a hole size about 10% larger than ball bearing provided the best fit and level of grip whilst allowing maximum movement within the side brackets.
The addition of a large switchable magnet as the base also adds a very significant improvement in usability.
Hope this helps anyone intending to make one.
Agree with schuylergrace and Frank S, all kinds of positives.
T-handles a possibility, potentially get caught up in sleeves and cuffs. Having them part of kit, saved for useful manipulation might solve that.
Like Marv observes, the balls may lap in after awhile and slip; the centered bolt is large enough to delay it for some time.
Only detail I'd really alter is contour of the bracket clamping the spheres. Arch or peak in the middle, truss-like; averting bend or collapse with tightened fastener, backed up with heavy washers.
I have regularly used my articulating arm and noticed no degradation of clamping force over time. The mating surfaces between the ball bearings and the side brackets do wear with use but due to pressure rather than by rubbing together.
In use the clamp is kept loose until the correct position is found when it's then tightened very firmly. Adjustment whilst tightened isn't necessary so wear isn't an issue.
Wear with use would increase the surface area of the mating parts and allow greater friction between them anyway.
I used 10mm thick steel for the brackets and therefore didn't need to bend up the sides for added rigidity.
Use the largest ball bearings you can find, (mine are 25mm) and rusty (but wire brushed clean) is best.
A good source of free used large bearings is your local Caterpillar or heavy machinery dealer. Mine came from the main bearings allowing rotation between the body and tracks of a large excavator. The bearing was 400mm in diameter before I destroyed it to remove the balls themselves.
Also the plastic knob to tighten the assembly needs to be heavy duty, large in diameter and with a sturdy steel or brass insert for the thread. I used a 75mm diameter knob with an M12 thread. You need to screw it down tightly so movement is almost impossible.
The end result is extremely robust indeed.
I agree with schuylergrace..show the purpose for the completed tool at the front of the video, then show the building portion. And yes, glove friendly knobs would be a great feature to have on such a handy tool. Thanks for the excellent tool & video!
I like the idea of making the rods a press fit. I wondered about trying to anneal some balls then drilling and tapping them, but a simple press fit should work better. Thanks.
Another suggestion is to drill right through the annealed ball bearing whilst it's in the lathe, countersink one end, then weld or braze the shaft in place filling the countersink with weld metal, which is then ground or linished off to retain the spherical shape.
The holes in the brackets need to be perfectly aligned as matching pairs (drill them together) and be placed close to the ends of the brackets to allow maximum articulation of the shafts.
You will be very pleasantly surprised at how rigid the structure becomes when the knob is tightened firmly.
I have a mag base with three rods and two articulating couplers like this, but smaller, intended to hold a chip-guard. It's remarkably stiff despite the balls being very small. so I can imagine this would be good and solid. I'd be tempted to drill the holes undersize, then use a ball-nosed end mill the same size as the balls to get a matching curve on the holes. Over-engineer All The Things! I'll save this tip for a rainy day.
I re-hardened the balls by heating to cherry red and quenching in oil. No real need to champher the holes in the brackets as the sharp edge will lock onto the ball bearings, there's a lot of force applied to a small surface area. Trust me, if the knob is tightened firmly the arms won't move.
Thank you.
That would be a great idea!
Thank you. Glad you liked it.
Very nice idea and well done. Thank you, you gave me an idea,, tome now to get on it.