Difference between revisions of "Diyspotwelder"

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* Add timing and/or power-control to it
 
* Add timing and/or power-control to it
 
* Add a foot-pedal system to it to allow two-hand operation
 
* Add a foot-pedal system to it to allow two-hand operation
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 +
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Explanation:
 +
Making something that has a high power running through it and will fuse some metal together isnt too hard to do, it'd seem. Getting the right cable + terminals seems to be the hardest part of all that.
 +
 +
The next step is to make something that'll leave your hands free to hold your work-piece while you're welding. Something spring-loaded (or rubberbanded) seems just the thing.
 +
 +
Then, the next step is to have something that allows you to first position the welder and only then turn it on for a quick weld. Either a switch or a 'push-through' pedal-system seems the right way to go.
 +
 +
Ontop of all that comes the wish to have some safety built in. A quick way to interrupt the power to prevent a meltdown, or even simply an automatic timing system that cuts off by itself. A feedback on the amount of power running through the welder is perhaps also great. An arduino with a sense-loop + a timer... connected to an SSR; seems just the thing.
 +
 +
Then, having that in place, the next step could be to use the SSR and some smart software to do PWM-based power modulation; see 'design references'.
 +
  
 
References:
 
References:

Revision as of 15:42, 14 August 2014

Projects
Participants
Skills Electronics, Metal- and woodworking, Soldering electronics programming
Status Planning
Niche Mechanics
Purpose Infrastructure

Lately, hackaday et al. have been supplying a number of reviews/buildlogs of DIY spotwelders. They all seem to be based around taking a used/surplus microwave transformer and removing the secondary (highvoltage) core , replacing it with a few turns of thick copper-cable which instead take the power from the primary coil and turns it into low-voltage, high-power.

Current state: We've liberated a transformer from a microwave; removed the secondary coil with a hacksaw. Saved the 'shunts'. It's now stored on a shelf below the 'woodworking-tables', next to the 'printer parts box'.

Meanwhile, Justa has found a nice two-conduit cable, used for supplying -48V power to telco-equipment. They contain 2 conductors, both consisting of 5-6 solid-core copper wires normally used to supply 20A+ each. Total cable-length is around 2meters, supplying up to 4 meters of heavy-duty copper-cable, useful for secondary coil. On one side, the copper cable has been finished with a galvanized-metal ring-lug; possibly to be replaced with a set of 'copper offset clamps' which seem perfect for the job.


The plan:

  • Start with a simple test-setup to check if everything works like it should
  • Add proper welding-terminals and enclosure
  • Make an assembly with spring-loaded clamping system
  • Add timing and/or power-control to it
  • Add a foot-pedal system to it to allow two-hand operation


Explanation: Making something that has a high power running through it and will fuse some metal together isnt too hard to do, it'd seem. Getting the right cable + terminals seems to be the hardest part of all that.

The next step is to make something that'll leave your hands free to hold your work-piece while you're welding. Something spring-loaded (or rubberbanded) seems just the thing.

Then, the next step is to have something that allows you to first position the welder and only then turn it on for a quick weld. Either a switch or a 'push-through' pedal-system seems the right way to go.

Ontop of all that comes the wish to have some safety built in. A quick way to interrupt the power to prevent a meltdown, or even simply an automatic timing system that cuts off by itself. A feedback on the amount of power running through the welder is perhaps also great. An arduino with a sense-loop + a timer... connected to an SSR; seems just the thing.

Then, having that in place, the next step could be to use the SSR and some smart software to do PWM-based power modulation; see 'design references'.


References:

Design references: