Judging by videos of batteries bursting into flames I've seen, by the time there's (ignitable) smoke, it's too late to do anything but run. When the temperature activated siren sounds, I'll be throwing the as yet unlit battery out of a window, with the metal box I charge the battery in, using the shovel I charge my battery on. I think the GuerneyHome Ruination by Ebike Battery Fire Expulserating PreTerminator™®©℠ will buy me enough seconds to throw the damn thing safely out of my house.
I don't watch it, I simply wait to hear the siren... which is my cue to throw the damn thing out ASAP before it burns my house down. Of course I'll pause for a moment of consideration, because batteries aren't free.
The sensor is situated in the middle of the top of the battery case - I'm counting on heat rising via convection from an overheating cell or cells. I set the alarm to sound a few degrees above normal charging temperature, so hope to be alerted well before ignitable smoke appears aflame. I've also placed a smoke detector inside the metal box I charge my battery in, on the shovel I charge the battery on, next to the window I'll throw the battery out of.
I don't know what the probability is, because fire brigades in the UK don't yet have such ebike battery ignition and home ruination by conflagration events categorised in their data collection databases - rather too new for bureaucracy; more tickboxes required. But I do know most ebike batteries are charged inside the home, where they can do the most damage to life and property. I assembled this gizmo to scratch an itch, because I know for certain I'd regret having thought about setting it up, and never having done so, if something awful sparked a personal homelessness crisis all of a sudden unexpectedly, especially considering it's all so cheap. Expect the unexpected is my motto, or that could be a ninja thing. I am not a ninja, I wear too much hiviz.
At the moment, I charge directly underneath with the battery inside a metal box on a shovel. I can chuck it out within seconds of hearing the siren.
I don't know either, but contrary to my expectations, the temperature rise displayed while charging changes fast - I had tried using the thermocouple on a Neoteck DMM previously, and it didn't detect any change at all, so didn't hold out much hope. Happily the temperature detection function of the STC-1000 is much more sensitive. I guess you'll have to try it yourself. Like I said, it's cheap and easy to set up. I do think it'll give me tens of seconds of advance warning. If not, the smoke alarm will activate quickly in such a small space, and it'll be rapidly thrown out of the window.
All my batteries have fuses. Maybe yours does too? How would this be better than a fuse? What are you thinking might short circuit?
Thanks, that's the type of input I was hoping for. Interesting (in a bad way) that the bottom fuse holder would overheat! The connections on the middle holder seem the same as on my motorbike's breaker (the one I am intending to use for the e-bike). Maybe bicycle vibrations are worse, due to thinner tires, no suspension and lower mass? I had naively assumed that if it works on a motorbike it should work on a bicycle. Maybe that's not true.Just an observation. I don't run any fuses or breakers anywhere. I run two batteries in parallel (52v, 16 and 18 ah) plugged directly into each other. They both run the same BMSs (2 separate BMSs). Yes, I'm probably setting myself up for an incident but has not been an issue on the road in 6 years. I had a direct short once while working on the bench with one of the packs. It instantly melted the 12 ga. wire off the XT90 connector. Acted like a heavy fuse. I have messed with breakers and fuses (the ones I have are shown below) and they were more problems than I wanted to mess with so I gave up. (Please save your breath on warnings and condescension. You're entirely right!).
I'm not recommending anyone doing this. Just relating my experiences and what I am comfortable with.
@add - For the knowledge base: The bottom holder kept overheating at the base legs of the fuse. Cleaning, crimping, dialectic grease were all temporary fixes. The middle holder (above) had trouble with water egress and connections at the end due to vibration. The top (above) circuit breaker was a challenge to find some place to put/mount it and keeping it's lugs insulated was more of a challenge than I thought it would be. Any one of these probably could have been made to work but as I said, I got tired of messing with it (and that was about 8,500 miles ago).
I had it out in the open and inline without much support. I should have tinned the 12 ga. wires which is small for that fuse holder and it frayed off at one end and leaked at the other. Supported correctly with the right gage wires and restraining the wires it could be a good alternative.
Has been reported more than a few times on this forum.
They look beefy and robust at first glance, the the actual connectors have bottlenecks where you're pushing a lot of amps through some very narrow/thin pieces of copper. In a lot of the examples posted on ES, the fuse is intact, except for the plastic being melted from the holder heating up. The holder basically becomes the fuse.
