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Re: kWeld - "Next level" DIY battery spot welder

Posted: Jun 24 2019 9:31am
by bigbore
Acido wrote:
Jun 15 2019 11:55am
bigbore wrote:
Jun 13 2019 12:49pm
Acido wrote:
Jun 13 2019 11:10am
I keep blowing my lipos, will i reduce the time required to make the weld by increasing their voltage?
And there by reducing the heat and stress on the thin aluminum terminals

Im currently at 3s and can make a 5s batters from the cells I have left that are not broken (all the same 5ah 75c panther)
My old LiPos are still working pretty well .... did you see what I made?
Those batteries worked for some years on a e-scooter and then I rebuilt them in that configuration.

viewtopic.php?f=14&t=89039&start=275#p1359933
This is what i have done, similar to your setup but the solder unsticks probably from heat and then on the next weld a big spark happens and blows the terminal
I used the proper flux for aluminum terminals and the solder and wire sticked really well
https://imgur.com/a/s7h18lx
I made a 3S5P battery with massive copper conductors and in your picture I see a 3S1P. Only one cell alone isn’t enough for the task.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jun 25 2019 5:00am
by Acido
bigbore wrote:
Jun 24 2019 9:31am
Acido wrote:
Jun 15 2019 11:55am
bigbore wrote:
Jun 13 2019 12:49pm
Acido wrote:
Jun 13 2019 11:10am
I keep blowing my lipos, will i reduce the time required to make the weld by increasing their voltage?
And there by reducing the heat and stress on the thin aluminum terminals

Im currently at 3s and can make a 5s batters from the cells I have left that are not broken (all the same 5ah 75c panther)
My old LiPos are still working pretty well .... did you see what I made?
Those batteries worked for some years on a e-scooter and then I rebuilt them in that configuration.

viewtopic.php?f=14&t=89039&start=275#p1359933
This is what i have done, similar to your setup but the solder unsticks probably from heat and then on the next weld a big spark happens and blows the terminal
I used the proper flux for aluminum terminals and the solder and wire sticked really well
https://imgur.com/a/s7h18lx
I made a 3S5P battery with massive copper conductors and in your picture I see a 3S1P. Only one cell alone isn’t enough for the task.
Actually the lipos can give enough current but the terminals are the problem so Im going to make a 2p pack out of 4ah red graphenes

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jun 25 2019 7:11am
by DogDipstick
For you guys who have problems with lipos... Who need to rebuild them.. ...

I keep blowing my lipos, will i reduce the time required to make the weld by increasing their voltage?
And there by reducing the heat and stress on the thin aluminum terminals

Im currently at 3s and can make a 5s batters from the cells I have left that are not broken (all the same 5ah 75c
Build em like I do. You dont need solder, just some copper, some good force, and some pure rivets. I've blown soldered connections before.. Using these batts with a Kweld I haven't had a single problem with crimped clamped pressed connections.

Image

Image

Image

Pulled 1900+ amps repeatedly. No issue. There are alot of circular mil in the tabs, enough for the current. Geeze the I bet id do 600+ amps with the tabs on the EV cells, hobby cells are weaker but they still need to be good enough ( to handle the high current pulse... ? ) to be a product, and should have enough metal in them ... paralleling is also a good idea.. ( I still wouldnt solder, to many dangers with the compromising of the metal quality, ie embrittled ( softened) annealed o r/ and ect... ). Maybe cause my cells are all rather large that I dont have problems... Idk. Runs the Kweld flawlessly.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 10:25am
by Headrc
I am currently building a pack using .2mm nickel. I have to crank the Kweld up to 125j for good welds and as a result the electrodes and their lead wires get pretty hot after just 4 spot welds and I have to let them cool off. Is this setting normal for .2mm nickel? And what about the heat in the electrodes and their lead wires? This really slows down the process of building a pack. Has anyone tried using a lug and larger gauge lead wires and different electrodes? The lug would be needed to be able to connect larger gauge wire. Or would this be harmful to the Kweld itself? Thanks

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 12:16pm
by tatus1969
Headrc wrote:
Jul 04 2019 10:25am
I am currently building a pack using .2mm nickel. I have to crank the Kweld up to 125j for good welds and as a result the electrodes and their lead wires get pretty hot after just 4 spot welds and I have to let them cool off. Is this setting normal for .2mm nickel? And what about the heat in the electrodes and their lead wires? This really slows down the process of building a pack. Has anyone tried using a lug and larger gauge lead wires and different electrodes? The lug would be needed to be able to connect larger gauge wire. Or would this be harmful to the Kweld itself? Thanks
No, that's way too much for 0.2mm. I'd say 30-70J, but its always best to experiment with different settings, and make peel-off tests.

How much current do you get from your battery? And maybe repeat calibration while making sure that all bolts are tight (most importantly the electrode set screws, but don't overtighten since the material is copper), make sure the electrodes are clean (use fine sand paper), press hard during SHORT calibration. There should be no sparks at all.

The 8AWG cable shouldn't heat up from just 4 welds of 0.2mm nickel. The electrode system gets hot, but mostly because it picks up heat right from the molten metal in the spot - that's unavoidable.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 1:07pm
by Headrc
The battery is a 24V 8S built with HEADWAY 38120 HP 3.2V 8AH LIFEPO4 LITHIUM BATTERIES 25C 200A cells. So it is capable of 200A. I did tests on compatible batteries ....Boston Power Swing 5300's .... before starting to build the battery. I could not get a solid weld until I hit that 125J setting. Any lower setting and the welds did not hold. I will try repeating the calibration and check the connections again.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 1:35pm
by spinningmagnets
Have you tried using these cells in 4S / 2P? Also, the cell interconnects can sometimes cause some resistance in the circuit. Perhaps a pic of your pack would help?

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 3:20pm
by flippy
Headrc wrote:
Jul 04 2019 1:07pm
The battery is a 24V 8S built with HEADWAY 38120 HP 3.2V 8AH LIFEPO4 LITHIUM BATTERIES 25C 200A cells. So it is capable of 200A. I did tests on compatible batteries ....Boston Power Swing 5300's .... before starting to build the battery. I could not get a solid weld until I hit that 125J setting. Any lower setting and the welds did not hold. I will try repeating the calibration and check the connections again.
those are shit batteries so expect poor results.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 3:26pm
by eee291
You can also see how much time it took to dump those 125J by keeping the foot pedal pressed.

My welds for .3mm nickel required ~60J and 12ms when the system was cold, 17ms when it was warmed up.
I could do something like 20+ welds before it got too hot to touch, which was still bad so now I mostly use .2mm nickel at 35J.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 6:51pm
by Headrc
I recalibrated etc. and was able to do successful welds at 75J . I don't agree on Flippy's comments on the quality of the batteries. Regarding the battery interconnects they are 3/4" solid copper about 1/8" thick but I will look into taking a picture. I would like to be able to weld .3mm nickel ...or even nickel plated copper for that matter. Thanks folks ....I always value the constructive critique and suggestions here. Alway very much appreciated ...it is how methods and concepts get improved.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 7:13pm
by spinningmagnets
I apologize if I sounded dismissive. I simply had no idea about your battery set-up. The issue could have been any one of a dozen problems that were not obvious. I'm glad it is working now.

If you are welding 0.20mm thick nickel at 75J, and the kWeld was working at 125J, I am even more impressed with it...

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 9:17pm
by Headrc
No worries Spinningmagnets. I did not take it as such. Your input is always helpful and insightful. Yes I am quite happy with the Kweld ...still wish I could weld nickle plated copper but so far that has not been a successful endeavor.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 10:54pm
by spinningmagnets
Check out this, welding copper under nickel
viewtopic.php?f=14&t=84680&start=175#p1470809

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 04 2019 11:28pm
by Headrc
Thanks ...that is an interesting idea ...may give that a try.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 9:16am
by eikido
Will someone please be kind and explain why something like kSupply exists?
Why can't i just connect an appropriate/cheap power supply up to 8.1v to the kCap?
However 2s 18650 wouldn't work->4.2x2=8.4v?

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 9:40am
by ossivirt
eikido wrote:
Jul 22 2019 9:16am
Will someone please be kind and explain why something like kSupply exists?
Why can't i just connect an appropriate/cheap power supply up to 8.1v to the kCap?
However 2s 18650 wouldn't work->4.2x2=8.4v?
Because cheap powersuplies dont have current limiting system and will destroy thenselves because over load.(capasitors draw thousands of amps when they are at 0v and charge voltage is aplied.) And usually have low current for repeated welding.

2x 18650 works for some time like cheap psus and have same problems. Current limiting and low output. Dont try its dangerous..

Like li-ion chargers you need cc/cv (constant current constant voltage) but alot more amps than usually.. And not that common voltage..

There are cheap supplies with current limiting but currents are so low that you might need to wait like 60s between welds :roll:

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 9:57am
by spinningmagnets
Yes, it is very important to NOT charge a 2S cell bank to 4.2V, 4.05V-4.1V would work.

I do not recommend using an 18650 2S cell bank. I only mention them because they are an option that "would" work. Many DIY home powerbank builders have hundreds of low amp cells laying around.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 11:02am
by eikido
ossivirt wrote:
Jul 22 2019 9:40am
eikido wrote:
Jul 22 2019 9:16am
Will someone please be kind and explain why something like kSupply exists?
Why can't i just connect an appropriate/cheap power supply up to 8.1v to the kCap?
However 2s 18650 wouldn't work->4.2x2=8.4v?
Because cheap powersuplies dont have current limiting system and will destroy thenselves because over load.(capasitors draw thousands of amps when they are at 0v and charge voltage is aplied.) And usually have low current for repeated welding.

2x 18650 works for some time like cheap psus and have same problems. Current limiting and low output. Dont try its dangerous..

Like li-ion chargers you need cc/cv (constant current constant voltage) but alot more amps than usually.. And not that common voltage..

There are cheap supplies with current limiting but currents are so low that you might need to wait like 60s between welds :roll:
I was thinking something like this
https://www.amazon.com/Variable-Precisi ... +s&sr=8-72

I can dial in the voltage and limit the current.
How would these work?

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 11:37am
by john61ct
30V and 10A max?

really?

Re: kWeld -

Posted: Jul 22 2019 11:53am
by eikido
john61ct wrote:
Jul 22 2019 11:37am
30V and 10A max?

really?
Sorry I just found a link and pasted it without reading the specs.
The 30v spec is good but what rated max current should I look for?
Or Maybe thats just a bad idea?

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 1:47pm
by john61ct
I think you need to buy a welder.

If you can't afford it, wait scrimp and save.

Maybe a kit.

Or perhaps you can just follow some detailed HowTo with a complete MoM.

I do not think you can just slap something effective together by winging it like this.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 22 2019 1:58pm
by eikido
I'm getting a kweld.
I've made up my mind.
I'm just considering a kcap but I'm not really sure.
And the kcap needs a power supply.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 23 2019 7:15am
by tatus1969
eikido wrote:
Jul 22 2019 9:16am
Will someone please be kind and explain why something like kSupply exists?
Why can't i just connect an appropriate/cheap power supply up to 8.1v to the kCap?
However 2s 18650 wouldn't work->4.2x2=8.4v?
The main reason why I developed that module was that I realized that the welder not only requires lots of current during the short pulses, but also significant average power during heavy use. When you are in a good flow, then you can achieve close to one weld per second. Doing this with thicker nickel strips like 0.2mm easily requires 500W (average!) input power. At 8.1V, this is 500/8.1 = 62A. A bench supply with 50+ amps is out of reach for most of us, and I couldn't find off-the-shelf current limited buck converters with enough power. The kSupply module delivers even more current when being used with the recommended server power supply, and that at a much lower cost.

You can of course also use the kCap/[edit]kWeld system with a smaller 8.1V DC power supply, but the tradeoff will be that the system needs much more time to get ready for the next pulse. The kCap manual has a graph at its end that shows this relationship. That power supply must implement current limiting mode instead of overcurrent shutdown behavior, just like a charger or bench power supply. Virtually all standard DC adapters have overcurrent shutdown and cannot ramp up voltage of a supercapacitor.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 23 2019 9:04am
by eikido
tatus1969 wrote:
Jul 23 2019 7:15am
eikido wrote:
Jul 22 2019 9:16am
Will someone please be kind and explain why something like kSupply exists?
Why can't i just connect an appropriate/cheap power supply up to 8.1v to the kCap?
However 2s 18650 wouldn't work->4.2x2=8.4v?
The main reason why I developed that module was that I realized that the welder not only requires lots of current during the short pulses, but also significant average power during heavy use. When you are in a good flow, then you can achieve close to one weld per second. Doing this with thicker nickel strips like 0.2mm easily requires 500W (average!) input power. At 8.1V, this is 500/8.1 = 62A. A bench supply with 50+ amps is out of reach for most of us, and I couldn't find off-the-shelf current limited buck converters with enough power. The kSupply module delivers even more current when being used with the recommended server power supply, and that at a much lower cost.

You can of course also use the kCap/kSupply system with a smaller 8.1V DC power supply, but the tradeoff will be that the system needs much more time to get ready for the next pulse. The kCap manual has a graph at its end that shows this relationship. That power supply must implement current limiting mode instead of overcurrent shutdown behavior, just like a charger or bench power supply. Virtually all standard DC adapters have overcurrent shutdown and cannot ramp up voltage of a supercapacitor.
Thank you.
I understand everything now.
I also completely missed that bench power supplies were so expensive at higher currents.

Re: kWeld - "Next level" DIY battery spot welder

Posted: Jul 23 2019 4:26pm
by eikido
How does kweld weld 0.2mm pure nickel for you guys? I understand it depends on the power supply but i'd love to hear how it's going for you guys.
This is the last detail i'm unsure of. Order 0.15 mm or 0.20 mm.
:D
I'm learning a lot. :lol: