The Fine Things are Always Hand Made
Rivet tool recommendations
Hello,
Can anyone recommend a solid rivet tool for replacement of rivets on the Philharmonic PS chassis?
Thank you!
Replies to This Discussion
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Permalink Reply by Brad Winder on
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I've been searching for such a tool for years...not sure anything exists? What kind of tool did they use in the factory? I'm assuming it was some kind of large, bench mounted device...
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Permalink Reply by Robert Feenstra on
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I have an AM/FM that I'm going to have to re-rivet. Been thinking of building something that will handle the entire chassis. Either a mechanical press or a hydraulic press.
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Permalink Reply by Troy Taylor on
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Hello-
Commercial riveting in sheet metal, particularly in lower volumes like custom-built radios, is done with machines generically referred to as "C-Squeezes". They are used extensively in aerospace manufacturing in general and at the specific company I work for. They are pneumatically operated with a foot pedal, so both hands are free for positioning parts. A threaded tool holder at the bottom of the C permits up/down adjustment for the lower die.
The smallest ones are hand-held and they can get very large from there. To buy a new C-Squeeze in a size large enough to accommodate a smallish-Scott chassis will likely cost about $4000+, not including any tooling. A machine with sufficient clearance in the yoke to reach the center of a Philharmonic chassis will be closer to $10,000+ These numbers are approximations, based on past purchases made by previous employers.
For reference, here is the website for General Pneumatic in Post Falls, ID. They are a company that builds quality machines. (DISCLOSURE: I have no personal interest in this company; my opinions are based on machines purchased from them for the companies I have worked for in the past 10 years or so.)
https://www.generalpneumatic.com/heavyduty.htm
The basic technology has not changed in many decades; we are using a few WWII surplus machines in daily production even now at the company where I work, as the largest sizes of machines are, to my knowledge, no longer built new by anyone. Used machines are undoubtedly available, although I do not have a source.
Tooling for the machines is specific to the type of rivet being used and is also affected by the geometry and clearances of the parts being riveted. Generally speaking, a cupped lower die holds the head of the rivet (specifically mated to the diameter and profile of the particular rivet), and a flat or flaring style die is used on top to clinch the rivet. All the Scott rivets I have seen are flared-type, but I cannot state this is always the case. Rivets being clinched in deep pockets, or with nearby obstacles in the part design, or limited clearances require very specialized tooling.
As such, a considerable portion of tooling used in production is custom designed/machined for the particular parts being riveted. I imagine Scott had toolmakers employed to design/produce specialized rivet tooling as needed.
Generic tooling examples can be found here: https://www.yardstore.com/riveting/squeezers/squeeze-sets/new
Riveting at home is difficult at best. Unless a powered tool (hydraulic or pneumatic) is used, the pressure required will probably necessitate an arbor press. Keeping the upper and lower dies concentric is essential. If the machine is powered, a method for limiting the travel of the cylinder is also essential or parts getting crushed is very likely. The difference between a raw rivet and one that is fully clinched is often 1/16 of an inch or less, particularly on the very small rivets used in radio chassis.
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Thanks to all for the great information.
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Permalink Reply by David C. Poland on
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Great info.
I have a few short rivets of the type Scott used. I had limited success - by tapping with a standard hammer on a small ball peen hammer placed on the rivet flair against a metal plate, but access limitations galore. The flair is flattened but result is not pretty. Screws and nuts are a lot easier.
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Permalink Reply by Norman S Braithwaite on
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I set nickel plated brass hollow rivets by hand using a hammer, rivet set, and aluminum mandrel plus a slew of other tools (levers, etc) for starting the set and for setting rivets in hard to access places. I occasionally end up with a split flair but seldom have a bad set.
Norman
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That's how I did my 16. I have several pieces of aluminum bar that I use on the rivet head. The aluminum will form a divot that matches the head of the rivet. I also use an aviation rivet squeezer for rivets that are on the side of the chassis. Still, I would like to build a large press that will handle the size of the chassis. I'm not great with a hammer!
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Permalink Reply by Scott Seickel on
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Below is a video I made on setting the rivets on my Philharmonic. It includes doing the brass eyelets and using a bar to reach into places where you can't get a hammer. I use a cupped set to support the rivet head, and the flaring set to roll it over. I believe I purchased the heads from here:
https://www.browntool.com/Listview/tabid/344/CategoryID/439/Level/a...
The set holders I machined myself. A steel table holds the cupped set, though a wood bench would be fine as long as it is solid. I did one amp chassis using aluminum to back the head and was not totally happy with it.
The set heads needed to be turned down to a smaller diameter to provide clearance to sockets, etc.
It really doesn't take much force with a hammer to roll over brass rivets. It sounds like I am hitting it harder in the video than I really am.
All in all, setting the rivets by hand is very fast and easy. I spent far more time figuring out socket orientation and where ground lugs went.
https://www.youtube.com/watch?v=svwGcx78hD4&feature=youtu.be
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WOW!! Awesome attention to detail!
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Great video Scott!
Scott Seickel said:Below is a video I made on setting the rivets on my Philharmonic. It includes doing the brass eyelets and using a bar to reach into places where you can't get a hammer. I use a cupped set to support the rivet head, and the flaring set to roll it over. I believe I purchased the heads from here:
https://www.browntool.com/Listview/tabid/344/CategoryID/439/Level/a...
The set holders I machined myself. A steel table holds the cupped set, though a wood bench would be fine as long as it is solid. I did one amp chassis using aluminum to back the head and was not totally happy with it.
The set heads needed to be turned down to a smaller diameter to provide clearance to sockets, etc.
It really doesn't take much force with a hammer to roll over brass rivets. It sounds like I am hitting it harder in the video than I really am.
All in all, setting the rivets by hand is very fast and easy. I spent far more time figuring out socket orientation and where ground lugs went.
https://www.youtube.com/watch?v=svwGcx78hD4&feature=youtu.be
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Excellent, Scott. You helped out greatly!
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