You can build AWESOME things with this 3D Printed System!
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- Опубліковано 1 сер 2023
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In this video I show how I build awesome things, like a nice looking desk lamp out of the 3D printed system that I've shown in an earlier video. This is not just any desk lamp, it has some interesting design concepts that makes this thing very interesting!
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Hi everyone! I didn't expect this video to go so well, and it did! So awesome! It turned out that I forgot to add the actual tensioner tool in the download on my website, and I just updated the file properprinting.pro/product/desk-lamp/. Bear in mind that this design still needs to be optimized, probably with some metal parts. Most important thing when designing things like this, and that's often the challenge, is to find widely available, standard and affordable parts. If that's not possible a 3D printed solution is required. I think I do have some interesting ideas for it which I'll show when I'm going to turn it into a 3D printer! Thanks everyone for watching and your awesome comments!
ps. I'm hijacking this pinned comment now. I forgot to mention that the length of the fiber also is a factor for its frequency. The length I used in the rig is similar to the length in the profile, so therefore the direct comparison. I found an interesting article that is quite easy to understand explaining this ffden-2.phys.uaf.edu/webproj/212_spring_2014/Claressa_Ullmayer/Mersenne%27s%20Laws.html So yes, if the profile becomes shorter we have to tune it at a higher pitch to get the same tension.
Fantastic project, with the print files are the list of items you use present? ( and maybe links so i can buy it directly? )
@@andreasponchiado8839 Thanks! You can find that in the "Parts needed" tab on the page of that product!
i want you to understand that this is getting scaled up to mech suit
Needs a steel cable for the heavier load of the microphone. Or perhaps an end joint part that the beam section fits deeper into. CA glue all the pieces after tensioning.
Tuning the rope to match the tension was genius. I've never seen it done the other way around before this is mind opening!
Fairly common, you can measure linear density of a string and calculate tension basing on frequency and length of the string, it's in many design manuals too
Motorcycle drive belt manufacturer has an app for tensioning belt using that concept, pretty neat
Resonant frequency is a function of tension, length, and mass of string. This is probably a pretty accurate technique if the lengths of the string are the same and the string is the same.
This is how voron does their belt tension
The mechanical engineer in me is wondering how the resonance frequency changes between the test rig and the 3d printed part would affect the results.
This dude is in the year 3000. This is like engineering and art.
Pitch (frequency) is a function of both length and tension. At double the length, a string at the same tension will have half the frequency.
That's true! A guitar is a nice example and therefore I made sure that the length of my rig was the same as the one I used in the design. In hindsight I should've mentioned that.
@@properprinting I mention it because I assume in the future you’ll have variable length spans. You should theoretically be able to use the measurement you already made to calculate the expected frequency at different tensions and lengths.
Awesome work!
For the counter-weight spring, consider borrowing from nature: the human elbow has a protrusion called the olecranon, which acts as a lever for the muscles that extend the forearm. A similar lever design would force your spring to expand more as the joint collapses, rather than pulling into the middle of the joint.
True!
Good thing to look at nature more often, thanks for this info!
Geez thanks, now I just had to watch a video on how the elbow work.
(ua-cam.com/video/3l3-5Ij3JZ8/v-deo.html)
But i really don’t get how the olecranon helps as a lever arm? It seems that its just a ”claw” around the humerus joint, the biceps attaches below it (just like the springs in his desk lamp), and the triceps attaches at the back of the claw.
Or am i thinking backwards? Should his springs be concidered the triceps?
@@lillalysmasken3 The springs are like triceps: they have to apply force around the outside of the joint (more than 180 degrees). The olecranon improves this (I think?) by 2 means: first, extending the path taken by the tricep, so there is a bigger difference between the length when flexed and the length when relaxed; second, providing a lever arm that is closer to perpendicular to the muscle's force, allowing it to generate more torque around the joint.
I may not be explaining super well. But if you look at the counter spring in this video, you can see that it doesn't stretch very much as the arm flexes, and as the arm flexes more and more you'll see that the spring is pulling "back" against the arm, not *around* the joint.
Why not replace the spring with more Kevlar? You can put some knobs near the joints so you can hand change the length of the Kevlar to get different angles.
A beautiful project! Well done!
Beautiful. Just Beautiful.
Filling up the print midway with sand.. that way sealing it is genius. Also nice design using easy parts like a built in dimmer etc.
bro awesome build. very beautiful! Thank you for sharing all of this with us!
Just love love love the design !
Man. That’s a work of art. Awesome job.
P.S I love the matching microphone holder
Beautiful work!
This is awesome… wonderful work. Thanks for your content.
I was thrilled to see your video in my subs list again - I always enjoy your videos and the thoughtfulness of your engineering.
First timer viewer here: I have to say your production quality is what piqued my interest, and I stayed for the cool concept, great presentation and excellent editing. I'll be sticking around!
You are an inspirational genius. Thank you 👍
Beautiful project.
This is brilliant and beautiful, Jon! I really love watching you create amazing things!
Beautiful project. Nice work.
Excellent work!
Only one word: Awesome!
This is absolutely gorgeous!!!!!
Great build...Well Done
WOW!! I have to agree, that lamp is probably the most beautiful design you've made to date. I hope that your Patreons will have access, cause I'm definitely going to be making one. Those trusses would look pretty awesome as a Delta style printer, frame, end -effector arms (scaled down), top, and base.
That is a thing of beauty. Form and function.
Bright design work!
Awesome work!
This lamp looks absolutely beautiful!
Well done!
I love how you’re working on this big project, and taking time to demonstrate what you’ve learned by making smaller projects along the way. It’s really cool.
Very nice indeed. I love the combination of colours.
Wonderful project, thanks for sharing your build process.
It came out beautifully!
Thats cool, not seen that before. Beautiful build, well done
I agree. It's space age. Great work. Thanks.
awesome built! Thanks for making this video ❤
Ive just started watching and I'm already impressed 👍
Both brilliantly engineered & beautifully created
This is really amazing, you should be really proud!
These struts are so perfect.
This was great to watch. I love the innovation with the 3D printing structures and the tensioning system. You went to great lengths. I tried making my own system for a boom like this to hold my smartphone and had some similar issues. The geared joints with the tension spring was a good solution to keeping the weight in position.
By far the most beautiful 3D printed project I've ever seen! 😍
That is a beautiful lamp, great job dude :D
Art. Workmanship. Pride. I want one.
What an awesome idea and desk lap!
This looks so f***ing awesome. I love it.
This is so nice!!!
Awesome as can be
What a sick project! Very very cool!
Actually funny here is that I created a lamp myself that has a lot of the very same bulb holders!! :D
Great example of how a basic design can be used for multiple purposes!
Cool man. Really nice! Beautiful!
That is gorgeous. nicely done.
That’s definitely your best project yet. Very unique.
One of the most functional, yet aesthetically pleasing 3D printing projects I have ever seen. Bravo.
That is awesome!!!!
A really great build, quite impressive both aesthetically & functionally.
Beautiful build! I love the industrial design of this lamp 🎉🎉
Very fascinating journey of design! Love what you've come up with!
That is really cool.
You are such a cool guy for making all of this things and videos! :)
Well that sand trick is nice! Also first time right on this project! ❤
Looks cool. You can construct grooves in the connectors and gears. Then it snaps together.
Few thoughts:
Don't use PLA for this system, it'll be constantly under tension and PLA is semicrystalline polymer so it'll creep over time causing tension to go down and possibly breaking in the process.
For tension use phone with spectroid app, thanks to this you can see resonant frequency of the string and knowing linear density of the string (mass per unit length, eg g/cm), its length and resonant frequency you can calculate tension using appropriate equation
It might be possible to temper the PLA to reduce creep. I seem to recall PLA+ handles it better also.
@@TuttleScott PLA+ is a mess, some have better performance in certain aspects, some worse overall, not something I'd recommend. But yes, higher concentration of crystalline phases help a lot (fun fact, this can bring HTD up to over 90°C making it more temperature resistant than ABS or ASA), for this best pick are high quality PLA resins (3D870 for example) with added nucleation sites
The bulk of the PLA sections are actually under compression from the end caps. The little eyelets that are tied off are where the tension is. Being so small, if it creeps by a percentage of the total length, it would be a small creep. The risk here (IMO) is that the eyelet fails catastrophically, but I'm actually curious if simply gluing the sections of truss together wouldn't be enough to hold everything, given the copper rods on each edge. I would almost assume the bulk of the load is being carried by the copper rods, and the triangular trusses are sorting out internal loads, keeping the rods apart/together depending on where and how the truss is used.
@@koos42 yeah, sorry, I called it improperly, wanted to say load but was already thinking about tension of the string. Under compression parts still creep, just usually creep results in buckling failure in this case. I do think that it calls for different polymer mostly
@@TuttleScott Why use this plastic at all, what´s the point ?
WOW Amazing work here! Love the design, great story telling here too!
Thanks Grant! I'm working on improving my storytelling, so I'm very happy that you mention this!
@@properprinting As you know, I call em as I see em, and this was truly splendid! I hope to one day be half this good in terms of story telling!
Also, no clue how you did the black background in the front on shots, but MAN that is nice! The contrast of you lit up and the background being inky black was tremendous and helped bring some feel to the whole video. Really nice work!
@@3DMusketeers Thanks man! The backdrop is not too fancy www.amazon.nl/dp/B00SR28SJ8 but I took the time to iron it out. I used quality lights from the top with big soft boxes and grid to prevent light spill. I'm glad you like it!
That's a beautiful design, and the kevlar tensioning structure is awesome. Great piece of work overall!
Lamp looks really good! :D
Thanks man!
Pretty cool. I always like it when makers tell their end cost of materials just to gauge what kind of project it is in the spectrum of practical vs purely art.
And a little reward for your work 👍
Thank you!
Well done!
Hands down best 3d printing channel.
Wow. Fascinating stuff man
Really cool, what a great build!
Beautiful piece
A true artisan! kudos
very tasteful and industrial . Well done
Quality light. loving that Unique tension system
hats off, this was extremely inspiring. 10/10 design and executionwise
This looks stunning, well done!
Beautiful design on the lamp! Nice job mate :)
Amazing design as always, so inspiring.
This was an amazing watch. Thanks for sharing, loved it!
Would integrating a washer on the end of the tensioning system distribute the forces across the end profile a bit better and allow you to tension further? Or for off the shelf component use a brass plumbing flare fitting that has the conical shape you use to reinforce the tensioning nut? Love the design and can't wait to see all the potential uses for the truss system!
This lamp is looking very beautiful, true piece of art meeting technology of 3D printing! Very well done
this is really incredible man, best printing channel on youtube
I love the look it is a cool lamp
again super video. thank you man. I inspired from you. thank you.
Wow! Incredible
Great video! I love the lamp design and the build was very inspiring.
Very steampunk look, love it!
Amei, que lindo, Parabéns
cool stuff man!
So Awesome!!
Super clever
Great work. I saw your truss system in a previous video, and I love the aesthetic and strength of triangular designs. This is a perfect application for that system, and an awesome project.
I really loved to see your process. And the result is really really cool man. AWESOME lamp!!!
Such a nice project... 🎉 Well done.
Thanks Janos!
thats one cool lamp!
This is possibly the coolest 3D printed thing I have seen in some time. It seems to be a blend of modern industrialism and steampunk merged into a wonderful artistic sculpture. Two really amazing looks when combined. Great work. I would love to have this displayed on my desk, and I may try to make one for myself.
Lamp looks awesome!! I agree, the color of the wood filament contrasts the brass really nicely. If you are using it as a desk/task lamp, and not as a room light, I'd suggest adding a small lampshade. This will make it alot brighter and focused on what you are working on!
You got my follow with this vid... What a clever system! You can do so much with something like this it's a game-changer!
Perfect combination between engineering and art.
Congrats! It looks beautiful and cool!
Awesome video Jon!
Hello.
Thanks Joel!