Ever heard of screw grab? I wish I’d learned of it 10 years earlier. It’s usually great for dealing with damaged screws. I read lapping compound works as well, though I’ve never used that myself.
I didn’t take a picture but I had glue on all 4 of my screws. I drilled the holes under the springs out and ran 20awg wire from the top of each spring to a screw hole on the board. I didn’t take any measurements before but I could tell it was brighter.
Just received mine! Everything looks fine, except the LED centering. Anyone have a tip on how to get the reflector out? It just won’t budge and I don’t want to use excessive force trying to get it out.
Did you remove the screw that holds it down? Gotta take driver out - then you'll see it - one M4 x8mm (think), centered. It's in very tight - use a really good screwdriver. After than the reflector may need a little nudging because the o-ring kind of holds it in.
I'm replacing this screw as well. Think should be a combo, some are phillips only - another inconsistent thing... :FACEPALM:
My theory: when they put the M2.5 screws on the later prototype, (earlier ones were M3), they were thinking about commonality with the tail screws, which makes perfect sense. They got the driver drilling changed to M2.5 (correct) but they forgot to tell manufacturing to update the CNC program, so ended up with battery tubes to the old design, and maybe had to source a bunch of M3 screws ASAP, and took whatever they could get. Then forced them into the M2.5 driver boards (hey, look, if you force it you can get the screws in, result, we don’t have to manually re-drill them all, phew.)
Bad enough having a mix of M2.5 and M3, but worse still if some are Phillips and others JIS. Recipe for wrong screwdriver being used (if they even have any JIS drivers).
My tail screw replacements are torx pan head, but my driver replacements are hex socket button top (lower profile), and my M4x8mm reflector replacement is phillips pan head.
Nothing like variety.... :FACEPALM:
I suppose torx button tops all around would be best? Lower profile would help. If I could get them at a reasonable cost and time...
Thanks for the info. I ordered an assortment of 0603 smd resistors just in case. Hopefully both leds will work just fine with the supplied voltage. If not, I can swap out the 1 resistor with something lower to provide 3v to power the blue and do some adhoc soldering to drop the voltage even further to 2.5v for the pink.
Thats the right attitude. And when you have got it working nicely you can tantalise others by posting your pictures. Mod on.
Maybe you might get sent a new LED board with two resistors which would make it trivially easy, but by figuring it out for yourself by trial and error you will learn so much more. Playing lego with smd components, e.g. stacking another resistor on the end of the pink one is fun and will tax and improve your soldering skills.
I just opened the driver of one of my Q8 in order to flash my own firmware.
Could see the screw which fixes the LED board to the reflector.
What type of tool do I need to turn this screw? The center of the screw just looks like a big hole. Either it needs a very special tool or the screw is damaged like the small ones in driver and tail pcb.
Should be a combo head, but some were just phillips - think I had one stripped like that too but was able to get it out with a a lot of downward force. If it was stripped only from tightening, then should loosen.
If they were using professional powered drivers, which they should, if only for health and safety (RSI etc.), never-mind productivity, they would be calibrated to apply the precise torque setting necessary, no more, no less.
Or if using hand screwdrivers they should also be torque-limited, and regularly calibrated.
Otherwise it only takes one ham-fisted operator, maybe having a bad day, to generate a huge amount of the sort of problems that we are seeing. Frankly, it is completely unacceptable to my mind.
I’m not expecting perfection on a $40 torch, but some things we are seeing on this one disappoint me. No need for this.