A second Update for my brushless
Flywheeler, and may very well be the last. This third iteration is,
unlike the other two, completely functional, robust, effective, and
is also the first 100%
assembled and working form of the
blaster I have to date.
Digital renderings on the top, actual blaster on the bottom.
I have also reworked the gearbox to
better fit with this design. The original gearbox that I had used
came from a version somebody before had designed on Thingiverse. I
added a bracket for a NEMA 17 and a slot for an endstop switch, but
there were still some flaws with the rotator mech. They worked OK,
but I optimized them in this revision. The opening for the Arduino
and corresponding circuitry was also made bigger, as I found it
challenging to tuck and insert all the electronics into the original
space provided.
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| Legacy versions on the left |
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| New versions on the right |
One of the other larger revisions that came with this version is the trigger and gearbox cover. This mainly stemmed from the need to create anchored nuts for the handle (as a large portion of the lower part of the weapon is supported through it). It ended with an almost complete overhaul of the lower portion of this area. I revised it to connect along a flat edge compared to originally coming together at an angle. This gives more room for the gearbox cover to have captive nut slots and a more robust overall structure. The internal handle structure was also redone to better accommodate the microswitch used for the trigger. A channel was added behind for the wires so they would not interfere with the moving parts.
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| legacy seam is angled |
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| new seam is flat |
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| a 3d printed new seam |
The firmware works, but up to now, it has been more of an experiment to see if everything worked. It only has 2 modes, full auto and burst (3-4 dart), but since everything functions well up to this point, I will update it to support more features.
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| Yes, I know that even these are not true Littlebees, but they work just as well, so they might as well be. |
Preformance-wise, the blaster does
even better than originally expected, topping out at 190 FPS and
averaging at 170 FPS. It gets around 4-8 DPS which is OK, but not
great. That could be improved by replacing the current stepper with
one that is more optimized for the task. The blaster itself it
terribly front heavy with the balance point being right in the center
of the magwell. This makes sense, as the battery, unlike blasters
made by others, is situated in the front above the flywheel cage. Not
much can be done to combat this, but it defenitely isn't a deal
breaker.
Here are some images of the completed blaster (I will acquire more internal shots when I get the time).
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| An image of magwell and concealed On/Off toggle |
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| Nothing much about the front end was changed. |
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| Battery tray without battery |
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| Battery tray with battery |
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| Arduino Nano and A4988 driver tucked inside a nest of wiring |
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| Backend without cover. Everything is nice and snug |
As usual, the updated files will be up on Thingiverse right here
Firmware and another set of STLs can be found on Github here
Blog post Update: (update 3)
Didn't think this was wroth a totally new post, so I will slip it in here with the previous update.
This update was more of a addition to the current blaster. 2 parts in total were updated: The handle and the dart tooth.
The original handle works, but is not the most comfortable to use, so an alternative with better form has been produced.
The new dart tooth solves an issue with the original where the first dart would commonly jam when being fed into the cage. The new one is thicker and has 0 slope to it, hopefully resulting in less friction while feeding the initial dart.
Updated files can be found at the links above
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