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This took well over a dozen iterations to get it just how I liked it, but the tiny size helped me iterate quickly. Now, though, it's perfect. The LED easily slides right in, the legs lock into their grooves, and the holder snaps easily and securely into the panel it needs to be on. This will make installing the LEDs onto the actual build much easier.

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This has got to be the highest engineering-to-volume thing I've ever worked on. It's a holder for an LED that's meant to easily snap into a dashboard. So, it's got a slot for the LED, slots for its connectors, a retaining ring, and two clips.

All for something that's barely a centimeter across!

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Trying something a little more snug for the new smaller screws I bought.

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Here's the above colorful panels, printed and assembled. I'm glad I tried this partial test before going for the full panel design. I learned a couple things that will inform the design of the rest.
1) Gonna make the holes smaller and use smaller hardware. Those screws are at least half of the weight of the panel.
2) Gonna do some 2x2 square screw brackets instead of the 4x1 long ones I started with.
3) The fitted edges work really well (look at the border between blue and green on the right above). The angled triangles help keep everything aligned. Where I don't have them, the build is far less cohesive.
4) I need to make the panel above the yoke hardware-free to ease in final construction. It should just be an easy pressure fit, which will allow me to place the yoke, remove it, and mount its bracket to the frame before replacing it... without having to disassemble half the panel.
5) I am never not surprised by how much smaller these end up in real life compared to my modelling program.

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Also got a touchscreen hooked up to an Arduino and running on it. Refresh rate is a problem, though, even with certain techniques to improve it... The problem is that with a glass cockpit type program, pretty much the entire background can need to be refreshed at any given frame.

Next thing to try is generating graphics elsewhere and just pushing them through the USB cable.

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Working on the panel now. It has to be designed in a way that it can be printed in my 3D printer, which is a bit smaller than 5"x10", and it has to be sturdy and easy to connect without slipping.

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It's disturbing how quickly journalists normalize this manchild just because he's rich.

Got the frame mostly built out now. Once I get the component unit tests complete, I'll start 3D printing the dashboard cover pieces.

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Stepped out my front door to find this beauty staring me in the face this morning. They only bloom at night, so it's pretty rare to see them in this state in the sunlight (this was taken shortly after dawn).

After getting it all designed, I measured up the pieces and bought them and cut them to size. That's enough for today, I think. By next weekend I should be able to have the desk portion constructed and make a little more progress on the dials.

I do need to wait on a number of components I ordered before I can hook up the electronics.

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Today, I got to work on building the frame for the cockpit itself.

I designed the frame in and then went out to purchase the lumber. I'm planning to 3D print the dashboard itself, so the lumber part just needed to be the base frame, enough to support the rest without getting in the way. This is what I came up with (along with a representation of the yoke controller).

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Next, I needed to figure out the gear faces. I want the designs to be crisp and readable, so free painting is out of the question (too finicky). I considered printing the design into the face as recessions that could be filled with paint, but that's pretty finicky too. Then, I realized I could just print the pattern negative space and put that over a white sheet of paper to show only the design I wanted to see.

Unfortunately, I ran into precision issues on this one too, as you can see in the image below.

Ultimately, I think I'll just be printing the designs onto paper and pasting that on the back of the dial. But it'll have to wait until I get a replacement ink cartridge for my printer.

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So, I applied this gear design to a dial with a pressure-fit cap and two 3D printed clips. This allowed the to drive the needle on the other side through the .

The gears are a 3:1 ratio, and they're double-stacked, so that's 3^2 or 3*3 or 27x. That brings our 7.5 degree/100 fps margin of error down to 0.3 degree/3.5 fps, which is perfectly acceptable.

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Enter the icon of industrial : the !

I went through about a dozen iterations trying to get these to work. The one pictured below was the first to work properly!

Originally, I started with the standard gears like you think of in a watch, but I quickly discovered that there were precision issues with the sizes I wanted, and getting the gears aligned when they don't barely weigh anything was tricky.

So, I quickly discovered that thicker gears work a lot better in these situations, but they have issues with lateral slipping. So, I discovered this herringbone design that works way better than all the rest.

Finally, I had an almost working design, but there were issues with precision from my 3D printer. The design was just too small. So, I upsized it to the biggest the 3.25" dial diameter could fit and got the gears pictured below.

If you're interested in learning more about the herringbone design, check out this video I learned it from: youtube.com/watch?v=FqNkHA6-61

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While I waited for all those to arrive, I picked up a stepper motor at a local parts store to start prototyping the gauges. I'm using the vertical speed indicator as my first prototype because it's simple.

However, the stepper motor has a step size of 7.5 degrees, which is a lot (which seems to be common with smaller motors?). Anyway, doing the math, 7.5 degrees on the vertical speed indicator is almost 100 feet per second! That's way too big for a single step, so I either needed to buy better motors, or find another way to increase the resolution.

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Finally, I got Logitech G Flight rudder pedals with toe brakes. I like these so far, they're simple and to the point and have the features I need, so I'll likely be using them in the final build.

newegg.com/black-logitech-945-

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I bought a Cessna-style throttle too, but I can't recommend it for a few reasons:
1) It's 3D-printed parts that are simple sliders; it doesn't have the rotational actuation or button locks of the actual Cessna throttle.
2) The Cessna I plan to simulate does not have a propeller angle control (the middle blue one).
3) I left a middling review for the above reasons, and the seller delisted the item and it popped up under another seller the same day, so something fishy is going on.

There's a pretty good chance I'll be rebuilding this controller myself to match my specs.

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