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Genius modular approach you used for the model

Hello, I am a seller of deck boxes on Amazon. I saw the video on RUclips. I would like you to do a review of our product Would you like to do a review video for our deck box? We offer free samples here. We look forward to your reply. Thank you very much for your support.

Nice

Nice implementation! Have you thought about getting one of those holographic print beds? The effect would suit the project so well

Damn, I looked into 3D printers back when they started getting popular but decided that they weren't ready for me yet, and hadn't looked much into them again until randomly clicking this video. Seeing how this print turned out straight from the printer is really impressive. 3D printers have come a long way!

I don't think the old slicer Super Slicer has a profile for the prusa XL, but I'd like to see if anyone could port its "Filled concentric infill pattern" to another slicer. It solves the problem of those gaps with the many perimeters.

Awesome! I Like it.

Very cool and exactly what I was looking for. The only suggest I have for it, would be to implement some sort of spring plate on the lid of the box so that when you have a deckbox half filled with cards there's something to hold them in place to prevent them from sliding up and down if the deckbox gets inverted or sits vertically.

Just printed this and I’m blown away with the detail. Great job on the file and thank you so much for sharing it!!

Now that was cool bro

dude that is super cool! i love how simplistic it is, it sounds horrible but i think a mini delta is super awesome!!! good job :)

LOL!

channel name checks out

How tf havent you killed any gostages is beyond me 😂

Damnit....now I've gotta learn blender

perhaps they are supposed to be laid down on their long edges?

Using a magnet, can you reset it?

3 eixos e menor, aí teremos um produto

Cool design

what about the other 2 axes?

Good MVP idea

What you have built is essentially a threshold accelerometer. This implementation is well known in flexures and compliant mechanism literature! Nice job! You could change this design using a bistable mechanism and switch the position of the button using an external switch.

Nice, cheaper design, I don't know how much normal ones cost, but this one is probably cheaper

not going to work if it falls at a weird angle, even if you have one for each of the three axis.. the 45 degree component of the force vector is simply not in the right direction. meaning it will take significantly more force to trigger it, and it doesn't look like it is designed to be able to work on any force other than one with a large perpedicular force to the springs. This is unusable, unless you use like 20 of them to account for all angles it can impact at.

Thanks man, I've seen these somewhere on YT and wanted to try making my own 3D printable version. I didn't get around to it and there you are, delivering, much appreciated 😊 P.S. There is also one to detect rotation of an object I'm definitelly subbing to know if you decide to make that one haha

Amazing! You should add up-down arrows to indicate the direction of sensitivity!

Short and sweet.

I would love to know more about how you designed it. What equations did you use? Ect

Very cool design. Maybe possible to provide detection for x, y, and z axis in cube form and a ball bearing in the middle. I might try to mock up a design later.

0:43. Instead of forcing, pause the print at the top, insert the weight, then continue the print to cover with a top layer.

Pretty cool! I guess you could just use two of those to detect impact in 4 directions.

cool project. i think one area of investigation that could be intresting is doing this all print in place. another would be while compliant mechanisms are cool af, they might not be so neccesary with 3d printing, and maybe not the best solution for this kind of product. what about super slim shear points that surround the puck. enough force results in the weak layers to just shear, releasing the puck from confinement. impossible to tamper with.

this is easily reset with a magnet. next.

Simple and effective, nicely done

Thanks for the great video! This looks like a great solution for a quick, cheap, physical, and easily reusable validator for midscale manufacturing!

VERY COOL!

Brilliant!

I approve this build.

Wow I would have never thought of the idea to 3d print these, I love it! This is a much more economical for sporadic than commercial ones.

Use case brainstorming ⤵️

Not able to tell at all with those colors

You can make 2 pucks with one for X axis and other for Y axis fall detection. This X-Y axis is just 90° rotation for first axis. People have a doubt about Z axis. Instead of making a box stick out, we can use 2 such detectors on adjacent faces of our wooden/box package.

Speed bumps?

Good engineering looks like magic to those who don’t know what the internals look like

A potential issue with existing off the shelf shock detection devices is that if they are placed on the outside of the box like they can be for crates then the shipping company can just buy those same detectors and swap them out if there is a shock. A simple solution to fix it is just to put the shock detector inside the box, but then it isn’t easy to see and a determined enough delivery company worker could find and replace the detectors. A combination approach is best, some on the inside and some on the outside, the outside ones for quick checks and internal ones for more reliability. A unique shock detector like this if made tamper proof could eliminate the possibility of people replacing off the shelf detectors when they get triggered. It would only have benefit until they get common enough though, unless they are kept unique and not publicly accessible. An even better, yet more expensive solution is to use a microcontroller and accelerometer to log accelerations and shocks and some MCUs come with unique IDs from the factory so they would be good since they would be less tamper proof and record shocks in a more detailed way, so you could tell exactly how many shocks and how severe. They could be made reusable too, to minimise costs.

I like it. i can see some room for improvement,bur overall, it is a cool concept.

Well presented, cleat, and extremely useful, thanks for sharing

If you put some ramps on the left and right you might be able to detect a wider range of motion

Fantastic!

personally if i was using this for shipping packages i would just tape 3 inside the box on each wall