Summary
Now you can check if your belts lengths are correctly tuned and check the quality of the single motor movements!
The parallel faces are all 20mm apart and there is a small chamfer at the base to cut any problems with elephant foot.
I’ll tune the font ASAP. Not printed yet,
Print Settings
Printer:
Hypercube Evolution
Rafts:
No
Supports:
No
Resolution:
0.2
Notes:
Do not worry about the thin parts of the letters of the motor faces. 😀 I just like the font and would like to test it.
Author: Thingiverse
-

CoreXY Calibration Ocatagon (“cube”) 3D Print Model
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Hamster ball (sorta) 3D Print Model
Summary
Ever wanted a hamster ball (sorta) laying around your house?
…Then this is just for you!
Print Settings
Printer:
Monoprice mini
Rafts:
No
Supports:
Yes
Infill:
50 -

Lucky Fishing Cat Leg 3D Print Model
Summary
So at the end of my koi pond I’ve had my lucky fishing cat (tiger). He’s been there for years, and over time he somehow lost a leg.
Thanks to 3D printing we can rebuild him. I intend on replacing his other leg, his right arm, and his eye soon, so he can be just like the bionic man:)
Print Settings
Printer:
Hictop CR-10
Rafts:
No
Supports:
No
Resolution:
.2
Infill:
20
Notes:
Just sharing, doubt anyone would print…unless of course you have a lucky fishing cat.
How I Designed This
Blender -

Flex tentacle tool holder 3D Print Model
Summary
This is a triplet of twisted tentacles that can hold a tool or something similar. It is made to be printed with flexible filament.
The tentacle base slips over the knob on the holder. The holder can be screwed to things like a magnetic base (as shown).
How I Designed This
The shape was made from a mathematical shape created with the Octave Isosurface function, and warped into something that looked good. I imported the resulting raw stl file into openscad where I added the mounting parts and the notation.
I started by playing with the fascinating “monkey saddle” (z=x*(x^2 – 3 y^2) ) which has three fold symmetry without trigonometry. I worked up an interesting shape in Mathematica, but transferred it to Octave, since it is open source. -

T-Pin BuilderBlocks by BalsaBuilder Magazine 3D Print Model
Summary
These builderblocks are super useful right angle pin blocks that readily accept DU-BRO’s small 1-inch “T” Pins #252. BuilderBlocks are used in model airplane stick construction and support the Lavoie Method of Stick building. See BalsaBuilder Magazine Issue 8 for more information on this method. Lavoie also offers a selection of great works on YouTube describing this method. Have fun out there!
Keep’em Flying!
—BuildIt!
Print Settings
Printer Brand:
Printrbot
Printer:
Printrbot Simple Metal
Rafts:
Doesn’t Matter
Supports:
No
Notes:
These simple blocks are easy to print and don’t require any special printer settings. I picked the defaults in Simplify3D and let them rip!
How I Designed ThisCompleted builderblocks with “T” Pins installed
Additional supporting tools for the Lavoie stick building method.
builderblocks in use
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Communicator Belt Holster 3D Print Model
Summary
The Star Trek TOS communicator made by The Wand Company is a great prop replica. The only downside to it is you can’t put Velcro on the back and wear it like they did in the show. They were nice enough to give you a pouch to put it in, but that just provides some protection if you pocket carry it. I like to use mine to listen to podcasts while puttering around the house. The speaker is not super loud so putting it in a pocket also means I won’t be able to hear it.
I decided to create a holster that could be worn on the belt that would capture the feel of the way the communicator is meant to be worn. This holster leaves the front of the communicator unobstructed so I can get the maximum sound from the speaker.
To make the holster you will need 2 neodymium magnets ½” x 1/8” disc shaped. I used M12x18DI from Apex Magnets. Also, you will need some black peel and stick felt which you can get at any craft store.
You need to 3D print the main holster. I print mine with the flat side on the print bed and with support type set to everywhere and fill amount at 10% (cura). This provides support for the bottom lip that keeps the communicator from falling. You will probably have to do some filing to smooth down the areas where the supports printed. Once that is done, super glue the 2 magnets into the holes in the holster. Note: determine the proper polarity of the magnets first by sticking them to the back of the communicator and make sure you glue them in the right way. Once the glue is dry cut a piece of felt and place it over the back to hide the magnets and keep the communicator from getting scratched.
Next you need a belt clip. I did not feel the need to re-invent the wheel on this, as there are a number of belt clips available on Thingiverse. I used this one: https://www.thingiverse.com/thing:35940 Maybe you are a serious cosplayer and already have a uniform with pants that has Velcro on it. I guess you could skip the belt clip and put Velcro on the back to attach the holster directly to your pants.
There are a couple of things you could also do if you are so inclined. The only element missing now is the Velcro rip sound when you remove the communicator. You could put a small piece of Velcro on the communicator near the top, high enough so it won’t interfere with the recharging base. Then you would get the appropriate Velcro sound when you call for that emergency beam up.
Print Settings
Printer:
Maker Select
Supports:
Yes
Resolution:
0.1
Infill:
50%
Notes:
My support setting in Cura is set to 10% for this print. -

MPCNC chain mount 3D Print Model
Summary
USE Open_Cable_Chain to connecthttps://www.thingiverse.com/thing:611593 -

Legion scale Tie Fighter 3D Print Model
Summary
Legion scale (1:48) version of the Tie Interceptor version of the model by Astrofossil.
Please note that this is set up as non-derivative so I cannot add it as a remix but he has given his ok to publish. This is an remix of https://www.thingiverse.com/thing:2256033 -

Pegboard Socket Holders 3D Print Model
Summary
Tired of all your socket sets being in a box and not on your pegboard and easily available?
Yeah… me too.
For STANDARD PEGBOARD (25.4mm / 1inch BETWEEN HOLES + 6mm holes)
Takes 1/4inch sockets, 3/8ths inch sockets and 1/2inch sockets.
Angled upwards for ease of supporting heavy sockets and to prevent those suckers falling off…
Enjoy.
Print Settings
Printer Brand:
Prusa
Printer:
Prusa Clone
Rafts:
Yes
Supports:
Yes
Resolution:
0.2 works fine for me.
Infill:
60% works fine for me.
Notes:
ALL my prints are in ABS because I only make actual working parts, not busts of Yoda…
My ABS was printed at 225degC with the bed at 45degC.
Raft typically takes out the imperfections in my print bed but print the ABS as you see fit and as works for you.
How I Designed This
Designed in Fusion360.
I find them very useful and easier to access than having them in a box have to root through every time I want to use them.
Fusion360 file included so you can see how the shape was created, which is often the best way to learn. -

Pi Zero Cam 3D Print Model
Summary
batteru : https://amzn.to/2HlLKfH
Charger : https://amzn.to/2vAn2qi
Print Settings
Printer:
D-Bot CoreXY
Rafts:
Doesn’t Matter
Supports:
Doesn’t Matter
Resolution:
0.2mm
Infill:
25% -

WilderRig-PopSinker 3D Print Model
Summary
It got it name because it act as a POPPER and can dive with a steady retrieve and hold its depth rising slowly. Like the Mini-Bite with the treble hook dressed it moves though thin weeds very well.
I print with a 2 part file stopping at the point I want to drop the BB’s in, but you can use the one file, pause the print, add your weight and continue that’s up to you.
It has a through hole to either add your wire or line and hook if that’s your preference. It has an air chamber in the top half and a belly chamber for up to 3 BB’s. Depending on the amount of infill and BB’s you use will determined how it sinks/floats.
I use different color PLA and a Sharpie maker to give it some life and as you can see in Pics it at-least fools the fish.
Good Luck and “GO GET SOME FISH!!!”
Print Settings
Printer Brand:
Creality
Printer:
CR-10
Rafts:
No
Supports:
No
Resolution:
0.2
Infill:
10 to 15%
Notes:
I go at least 4 to 5 top and bottom for durability with 2 to 3 shells. Eyes socket size I think are 8mm x8mm. -

Conair Hair Dryer Nozzle Adapter 3D Print Model
Summary
The nozzle for my Conair Infinity Pro hair dryer has 2 broken tabs. With only one holding tab and 3 other non-holding tabs left, the nozzle does not stay on to the dryer. This adapter fits snugly with the original nozzle and the hair dryer without having to glue it for me. It is printed with the ABS and recommended with other high temp filaments only. The print time for the 0.2 mm layer height, 30% infill will take about 30~60 min, depending on your speed settings.
Print Settings
Printer Brand:
TEVO
Printer:
Tarantula
Rafts:
No
Supports:
No
Resolution:
0.2
Infill:
30%
Notes:
Rotate 90 degree and print with the tabs on top. Due to the hair dryer’s high temperature, it is recommended using only with the ABS and other high temperature filaments. -

MK3 style X-motor end for MK2(S) 3D Print Model
Summary
Added the mount for the endstop onto the MK3 X-motor end to fit MK2(S)
Use MK3 X-idler end in conjunction with this design.
Helps alleviate belt rubbing, twisting at the idler end AND easier belt tension adjustment.
You will need (4) 3x18mm for the trapezoidal nuts as the mounts are thicker. -

Winter Soldier Combat Mask 3D Print Model
Summary
This Thing is a break apart of the Winter Soldier mask by Jace1969 to fit on my print bed. I broke each part (mask and goggles) into half and then half again. -

Star Wars Legion Terrain – Lothal Merchant Crates (Rebels) 3D Print Model
Summary
Two different sized crates based on those seen on Lothal in the TV series Star Wars Rebels. Not entirely sure what they’re for, but they were in the market scenes on Lothal, hence the name “Lothal Merchant Crate”. Multiple crates can be combined to create a makeshift barricades or just for scenery, and the larger crate can be oriented vertically or horizontally to offer heavy cover to trooper units (I think).
The miniature used for scale IS NOT MINE, all credit for the trooper model goes to sablebadger, who remixed dutchmogul’s model to make it legion compatable.
Star Wars Legion – Scale Model Dummy (sablebadger): https://www.thingiverse.com/thing:2859230
Sgt. Scalesby, the Miniature Scaling Dummy (ducthmogul): https://www.thingiverse.com/thing:1465372
Comments are encouraged, and I ask that you please post your makes (in action on the tabletop if possible).
Print Settings
Printer Brand:
Creality
Printer:
CR-10
Rafts:
No
Supports:
No
Resolution:
0.12mm
Infill:
10
Notes:
The design is optimized for a 0.40mm or 0.20mm nozzle, and 0.12mm layer height.
I also recommend using 4+ top layers to reduce gaps in the top surface. -

Filament Spool axis adapter 3D Print Model
Summary
Filament spool adapter for M8 type axis.
The part is optimized, it consume only 2m of 1.75 filament.
The adapters must be tight against the spool using the nuts and washers on the shaft. The axis rotates with the roller on the support.
The Solidworks file is provided to enable customization.
Print Settings
Printer:
ANET A8
Rafts:
No
Supports:
No
Resolution:
0.2mm
Infill:
20%
Notes:
Consumed: 1910mm of 1.75 PLA
Print time: 20 min -

Compact 90 straight and cross for 15×15/OpenBeam/Makerbeam XL 3D Print Model
Summary
This is a compact 90 degree brace for Openbeam/Makerbeam XL 15×15 extrusion. There are two versions – one is a straight 90, the other is a very handy 90 degree rotated variant so you can do crossovers. The crossover version is pictured in the as-built photo.
A couple of things make this design different than the numerous other corner braces out there. This one has channel grooves to keep the part stable, which makes for a really nice, sturdy brace. I also did countersunk holes to make for a nice clean installation.
You do need to print this with supports but cleanup isn’t bad.
Print Settings
Printer Brand:
LulzBot
Printer:
Mini
Rafts:
No
Supports:
Yes
Resolution:
Any. I did 0.3mm
Infill:
20%
Notes:
Supports are required. Rotate the part so it sits flat. -

Wemos D1 Box (reminder Box) 3D Print Model
Summary
I made 2 fittings for screws for my Reminder box, made by Andreas.
Additionally i made a better fitting for the wemos D1, see photos.
Made with PETG – Filament from eSun: https://amzn.to/2wCj297
I am using this box for my BME 680 Sensor:Fhem: Air-Qualitysensor BME 680 – Temperatur – Luftfeuchte – Luftdruck über MQTT getestet
Print Settings
Printer Brand:
Ultimaker
Printer:
Ultimaker 2
Rafts:
Yes
Supports:
No
Resolution:
0.4
Infill:
100% -

Lee Hardness Tester Peg Board Holder 3D Print Model
Summary
I customized https://www.thingiverse.com/thing:537516 to create a pegboard holder for the Lee Precision Hardness Tester.
Also included is a lens cap for the microscope.
The opening for the pressure die is sized for a Hornady Lock-N-Load die bushing, but it should work without the die bushing (though it will be loose).
If anybody is interested in the OpenSCAD files I will post them here.
Lee Precision Hardness Tester: https://amzn.to/2KWLRjT
Hornady Lock-N-Load Bushings:https://amzn.to/2HBnVRS (10)https://amzn.to/2qAi7Qe (3)https://amzn.to/2GZ7AcC (2)
Print Settings
Printer:
i3 “dolly” clone
Rafts:
Doesn’t Matter
Supports:
Doesn’t Matter
Resolution:
.2mm
Infill:
20%
Notes:
I usually print these successfully without supports, brim, or rafts. -

TronXY X3 Z Axis Motor 3D Print Model
Summary
the first time i built my printer, i hated how much unnecessary time i spent puting the Z motors.. everything was loose or not in perfect alignment. Then i found Lexa’s one and i loved it, except for one thing.. i had to screw the piece first and then the motor, which for me, was troublesome or unconfortable, so I created this piece which has the scew holes outside, so.. if you t-nut wasnt placed correctly you can fix it without too much trouble.
TL;DR; the screw holes are outside from the motor case so you can put the motor or the screws in whatever order you want.
YOU WILL NEED:
3x m4 screws (i used only the 2 from the original ones, one on top and one on the side)
3x m4 nuts (t-nut or else)
Print Settings
Printer:
Ttronxy x3
Rafts:
Doesn’t Matter
Supports:
No
Resolution:
0.2
Infill:
20%
Notes:
im so sorry, but the ideal print way is as in the first picture and, ideally, with a fan, since i kept modifying the file, i found it was better to just fix the position in the slicer rather than in Fusion 360 -

HTC VIVE – TPCAST CABLE CLIP FRONT 3D Print Model
Summary
I wanted to arrange all front cables used by TPCAST on my vive. Now they are all alligned and do fit perfectedly. Also no further risk of connection lost.
Print Settings
Printer:
Anycubic I3 Mega
Rafts:
No
Supports:
No
Resolution:
0.2
Notes:
PLA, ~ 8 minutes print time -

Tripple Succ 3D Print Model
Summary
This is my first succulent planter that I’ve made. Not sure why the model is on it’s side, but just rotate it in your slicer.
The modele is really big so I recommend scaling it down to ~50% but YMMV. Mine pictured above was at 30% and I’d say that’s too small.
I tried to implement a base and water holes for healthier plants. I also added a circular riser so it can actually drain.
Feel free to remix or whatever.
Happy printing!
Print Settings
Printer Brand:
MK3
Printer:
Prusa i3
Rafts:
No
Supports:
No
Resolution:
1.5
Infill:
15
Notes:
Infill doesn’t need to be high. Scale down the model, you will see how large it is if you actually try to print. If you do print, post a pic and what scale/resolution you printed at! -

Valance Clip 3D Print Model
Summary
This is a valance clip I made to replace one we broke adjusting the blinds. -

Exercise Gym Bra and Panties hook 3D Print Model
Summary
As far back as I can remember, every girlfriend I’ve ever had has had the habit of hanging their bras and panties on my exercise equipment. When I complained about it, they would always say something like “Well, you never use it!”.
Anyway, so I got this idea: Why not make a bra and panties hook that looks like exercise equipment? I mean it just seems like women would naturally gravitate towards using it for that express purpose.
Print Settings
Printer Brand:
Robo 3D
Printer:
C2 R2
Rafts:
No
Supports:
Yes
Resolution:
Fast (0.2mm)
Infill:
15%
Notes:
This thing needs a lot of support material so you might want to set your support density to 5 to 10% for easier clean-up.
Post-Printing
Mounting on the wall
Just hang it on the wall using the mounting hole in the back.
How I Designed This
Credit goes to….
I got the exercise gym model here:
https://free3d.com/3d-model/big-gym-1571.html
The wall mount I got here:
https://www.thingiverse.com/thing:387890
Thanks Geoffro
I put them all together with TinkerCAD -
Esqueleto 3D Print Model
Summary
Esqueleto miniatura, ideal llavero, espejo del auto, etc.
Print Settings
Printer Brand:
RepRap
Printer:
Prusa I3 Rework
Rafts:
No
Supports:
No -

Spinosaurus Emerging from Sea 3D Print Model
Summary
The large Spinosaur dinosaur emerges from the sea after eating his share of fish and looking for other prey. His left claws are just starting to show.
Spinosaurus was among the largest of all known carnivorous dinosaurs, nearly as large as or even larger than Tyrannosaurus or the less familiar Giganotosaurus. Scientists believe it lived on land and in the sea eating both aquatic and terrestrial prey. Best known for his sail fins and arms similar to the Tyrannosaurus with sharp claws.
Piece is designed to be placed in a sea campaign as if emerging to attack or discover your players.
The sea surrounding the dinosaur can be found here for printing.https://www.thingiverse.com/thing:2902642
Print Settings
Printer Brand:
PowerSpec
Printer:
PowerSpec 3D Pro
Rafts:
No
Supports:
No
Resolution:
0.2
Infill:
15% -

2 Vape Pen Holder 3D Print Model
Summary
When 1 vape just is not enough. Mix flavors get baked! 3 pen holder coming soon. -

SLIK 618-330 Tripod Plate – Parametric 3D Print Model
Summary
I designed this plate for my SLIK PRO 340DX Tripod with a SLIK SH-705E 3-way head.
The part number is: SLIK 618-330
Print Settings
Printer Brand:
3D Systems
Printer:
Cube 3
Rafts:
No
Supports:
Yes -
Parametric 4-post mounting plate for symmetrical circuit boards 3D Print Model
Summary
I’ve made enough 1-off designs for specific boards to motivate me into designing a fully parametric mounting plate. The included .stl file is for a Raspberry Pi with 6mm magnets as the mounting method, but you could use screws or glue just as well. The .f3d file can quickly generate similar mounting plates for other symmetrical 4-mounting-point circuit boards.
Print Settings
Printer:
creality cr-10
Rafts:
Doesn’t Matter
Supports:
No
Resolution:
.16
Infill:
25%
Notes:
MakerGeeks pro-HTPLA, 235C.
Post-Printing
The example print uses CA glue to secure 6mm magnets as the mounting method. -

ITEM-THING W/ HOLES 3D Print Model
Summary
ITEM-THING W/ HOLES
Print Settings
Printer:
MP SELECT MINI
Rafts:
Doesn’t Matter
Supports:
Yes
Resolution:
0.001
Infill:
NOHow I Designed This
IDK PLUS AUTOCAD -

customisable miniature base plate 3D Print Model
Summary
customisable miniature base.
option to include an indentation as well as a slot.
parameters to print multiple copies too. -

Kayak Bungee cord clip 3D Print Model
Summary
This is a model similar to the bungee clips (not sure what they are really called, feel free to correct me) that come on my sundolphin kayak.
Included models with and without supports. -

Zootrope du 19ième siècle – Activité éducative 3D Print Model
Summary
Le zootrope est l’un des premiers instruments d’animation. Il a ravi les enfants et les adultes à la fin du 19e siècle. La présente activité permettra aux élèves de construire leur propre zootrope et de créer leur propre bande d’images pour zootrope.Overview and Background
Objectifs d’apprentissage
Cette activité permettra aux élèves de :
i) Apprendre comment un zootrope crée une impression de mouvement au moyen d’une série d’images fixes;
ii) Donner libre cours à leur imagination afin de créer une bande pour zootrope.
Informations supplémentaires
Le zootrope est l’un des premiers instruments d’animation. Inventé en 1834 par William George Horner, il a d’abord été appelé « daedalum » ou « roue du diable ». Il n’est devenu vraiment populaire que vers 1867, lorsque William F. Lincoln, aux États Unis, et Milton Bradley, en Angleterre, l’ont redécouvert et fait breveter. C’est Lincoln qui l’a nommé « zootrope » ou « roue de la vie ». L’invention d’appareils d’animation plus perfectionnés, comme le praxinoscope, et l’avènement du cinéma et de la télévision ont entraîné un important déclin de l’intérêt pour le zootrope. Aujourd’hui, on trouve rarement des zootropes dans les foyers, bien que certains artistes et animateurs-graphistes continuent d’en utiliser.
Remarque : L’image 3D originale de l’artefact porte le nom « zootrope-artefact.stl ». Le zootrope est conçu pour être visualisé dans un environnement virtuel au moyen d’un logiciel. Vous pouvez tenter de l’imprimer. Toutefois, nous ne pouvons garantir la qualité de l’impression. Nous avons modifié le modèle afin de le rendre plus facile à utiliser (« zootrope-base-modifié.stl » et « zootrope-support-modifié.stl »). Vous utiliserez ces fichiers dans cette activité.
Pour un complément d’information et des autres activités éducatives sur les zootropes, visitez le sitehttps://ingeniumcanada.org/ingenium/musees/educatif/zootrope-3D.php
Vous trouverez nos conditions d’utilisation à l’adresse https://ingeniumcanada.org/ingenium/doc/content/cstmc/CSTMC%20terms%20of%20use%203D%20FR.pdf
Lesson Plan and Activity
Bande d’images pour zootrope
Pour cette activité vous utiliserez les modèles que vous pouvez trouver sur cette page. Le modèle que vous choisirez dépend de l’âge des élèves. Dans le cas des élèves les plus jeunes, vous pouvez utiliser le modèle de bande avec images, sur lequel les élèves n’ont qu’à ajouter la bouche à un visage. Nous avons inclus un exemple de ce qui peut être dessiné. Dans le cas des élèves les plus âgés, vous pouvez utiliser le modèle de bande vierge sur lequel les élèves peuvent dessiner les images qu’ils veulent.
1) Demandez aux élèves de planifier ce qu’ils veulent dessiner dans chacune des sections de la bande. Il peut être utile de leur faire esquisser les idées qu’ils ont en tête sur du papier brouillon avant de faire des dessins sur la bande. Vous pouvez leur donner les conseils généraux suivants :
i. Optez pour la simplicité.
ii. Commencez et terminez la bande avec des dessins semblables, pour que la séquence d’images soit continue lorsque le zootrope tournera (c’est ce qu’on appelle une « animation en boucle »).
2) En suivant les lignes pointillées, découpez le modèle de bande vierge ou avec le
modèle de bande avec images.
3) Demandez aux élèves de dessiner la séquence d’images qu’ils ont planifiée sur leur bande d’image. Si vous utilisez le modèle de bande vierge, laissez environ 1,2 cm d’espace au bas pour que la base ne perturbe pas l’animation.
4) Pour utiliser ces nouvelles bandes, les élèves vont devoir fabriquer un zootrope en suivant les instructions ci-dessous.
Fabrication d’un zootrope
Pour cette activité, les noms suivants seront utilisés (Image 1 dans l’écran de visionnement).
Fabrication du tambour
1) En suivant les lignes pointillées du modèle, découpez l’un des tambours de zootrope. Si votre imprimante ne permet pas d’impression bord à bord, prolongez le haut et le bas du tambour pour que les bords du papier soient les bords du tambour (comme on le voit dans le document en format PDF).
2) Formez un cylindre en fixant un côté du tambour à l’autre côté. Pour obtenir le meilleur résultat possible, faites chevaucher les bords sur environ 2 mm.
Fabrication des bandes d’images
1) Transformez la bande en cylindre en fixant une extrémité à l’autre extrémité. La section en gris à une extrémité d’une bande peut chevaucher l’autre extrémité. Si votre imprimante ne peut faire d’impression bord à bord, utilisez la marge du papier pour remplacer la section en gris.
Fabrication du zootrope
1) Placez le stylo dans le support. Assurez-vous que le stylo pointe vers le haut et que la pointe dépasse d’au moins 4 cm le sommet du support (Image 2 dans l’écran de visionnement).
2) Insérez le bas du tambour dans les rainures aux extrémités des bras de la base (Image 3 dans l’écran de visionnement).
3) Placez la bande cylindrique à l’intérieur du tambour. Pour obtenir de meilleurs résultats, assurez-vous que chaque image se trouve directement en face d’une fente du tambour (Image 4 dans l’écran de visionnement).
4) Insérez l’ensemble formé de la base, du tambour et de la bande sur le support avec stylo.
5) Le zootrope est prêt à être utilisé (Image 5 dans l’écran de visionnement).
L’animation que le zootrope produit repose sur la « persistance de la
vision ». Ce phénomène est le suivant : quand on cesse de regarder un objet, le cerveau en conserve l’image pendant environ 1/30 de seconde. Lorsqu’on regarde une image à travers les fentes d’un zootrope, le cerveau retient cette image jusqu’à l’apparition de l’image suivante, ce qui donne l’impression que la première image se « déplace » jusqu’à l’image suivante. Les fentes sont importantes, car elles limitent le temps d’observation de chaque image. Sans elles, les images en rotation deviendraient floues.
Materials Needed
1 – Ensemble tridimensionnel de parties du zootrope (« zootrope-base-modifié.stl » et « zootrope-support-modifié.stl »)
1 – Modèle imprimé de tambour de zootrope^
1 – Ciseaux
1 – Imprimé d’un modèle de bande vierge ou d’un modèle de bande avec images^
1 – Ruban adhésif
1 – Stylo (les stylos BIC ® fonctionnent bien)
Crayons, craies de cire (ou autres fournitures pour dessiner)
^ Remarque : Imprimez le modèle de tambour sur un carton de format tabloïd (279 mm x 432 mm ou 11 po x 17 po). Imprimez les autres modèles sur une feuille de format tabloïd. N’imprimez pas à l’échelle du papier : assurez-vous que l’impression est à une échelle de 100 %. Si possible, faites en sorte que les modèles soient imprimées bord à bord. -

15W Stereo Amplifier Case 3D Print Model
Summary
This is a case to a 15W audio amplifier board that can be found on eBay, AliExpress, … such as https://www.aliexpress.com/store/product/Hot-Sale-1pc-TDA7297-Version-B-2-15W-Digital-For-Audio-Amplifier-Board-Dual-Channel-AC/1959068_32666077241.html?spm=2114.12010615.0.0.7a894502EdjFEn . I use this amplifier for an Asus Tinker Board.
You will also need a mini toggle switch, a barrel power jack and a 1/8″ stereo jack and some 22 gauge wire. The hole for the power jack is 8.25 mm. The hole for the audio jack is 6.25 mm.
The board is held in the case with one 8 mm, M3 screw on the front. Since the screws in the back are difficult to reach, using 20 mm, M3 screws help. Then with tweezers, it is possible to put the nut on top of the screw. The heads of the screws are on the bottom of the case. -

Ikea Trådfri Motion Sensor Corner Mount 3D Print Model
Summary
Ikea Trådfri Motion Sensor Corner Mount
This is a simple wall edge/corner mount for the Ikea Trådfri Motion sensor.
I recommend using double-sided adhesive tape for mounting on the wall as well as attaching the motion sensor plate.
There’s two versions – a regular version and a version with a 5° skew in case you want to hang it at an angle. -

Marblevator, Mechanisms 3D Print Model
Summary
“Marblevator, Mechanisms” is the latest in my Marblevator series of marble machines. My fascination with gears, mechanisms, marble machines and history formed my inspiration for this model.
A video of Marblevator, Mechanisms in action is here: https://www.youtube.com/watch?v=bl2-R0jftvw.
The model incorporates two antique mechanisms; a “Peaucellier–Lipkin” straight line mechanism (vintage 1864), and a “Whitworth” quick return mechanism (vintage 1800’s) that, when combined as they are in this design, provide a straight line slow ascent, and a straight line rapid descent. In this model, these combined functions are use to slowly raise a bucket containing a marble (an 8mm ball bearing) to the top of a short, built in, track, dump the marble onto the track, rapidly lower the bucket to pick up the marble at the bottom of the track, and then repeat the process.
I’ve included a sketch illustrating the method I used to compute the bar lengths for the straight line mechanism. If you have any questions about the illustration leave a comment and I’ll do my best to answer.
As usual, I probably forgot a file or two or who knows what else, so if you have any questions, please do not hesitate to ask as I do make mistakes in plenty.
Designed using Autodesk Fusion 360, sliced using Cura 3.3.1 and printed in PLA on both an Ultimaker 2+ Extended and an Ultimaker 3 Extended.How I Printed and Assembled Marblevator, Mechanisms.
Purchase, Print and Prepare the Parts.
Marblevator, Mechanisms requires a 300 rpm gear motor (33x12mm 300RPM Metal Mini DC 6V Gearbox Gearwheel Motor Mini Reduce Speed Geared Electric Motor), a 1.5 vdc power supply, and an 8mm (3/8″) ball bearing.
I printed “Bucket.stl” with .1mm layer height and 100% infill. I printed the remaining parts at .15mm layer height with 15% infill. I printed two “Bolt, 4.2mm shoulder.stl”, four “Bolt, 8.4mm shoulder.stl”, four “Arm, DB.stl” and one each of the remaining parts.
Prior to starting assembly, test fit and trim, file, sand, etc. all parts as necessary for smooth movement of moving surfaces, and tight fit for non moving surfaces. Depending on the colors you chose and your printer settings, more or less trimming, filing and/or sanding may be required. Carefully file all edges that contacted the build plate to make absolutely sure that all build plate “ooze” is removed and that all edges are smooth. I used small jewelers files and plenty of patience to perform this step.
Marblevator, Mechanisms uses threaded assembly, thus a tap and die set ((M4 by 0.7, M6 by 1) may be required for thread cleaning.
Assemble the Upper Arm (Arm CD).Position the first “Arm, DB.stl” onto “Arm, CD.stl” as shown.
Position the second “Arm, DB.stl” onto the first as shown.
Secure the three arms together with the first “Bolt, 8.4mm shoulder.stl” as shown.
This is the upper arm assembly.
Assemble the Lower Arm (Arm CE).
Position the third “Arm, DB.stl” onto “Arm, CE.stl” as shown.
Position the fourth “Arm, DB.stl” onto the third as shown.
Secure the three arms together with the second “Bolt, 8.4mm shoulder.stl”.
This is the lower arm assembly.
Assemble the Mechanisms.
Position the upper and lower arms together as shown, then position “Bucket.stl” into position as shown and secure the bucket and arms together using the third “Bolt, 8.4mm shoulder.stl”
Secure the remaining two arms together by positioning “Arm, Wheel.stl” as shown then secure the arms together using the fourth “Bolt, 8.4mm shoulder.stl as shown.
This is the mechanism assembly.
Attach the Mechanism Assembly to the Base.
Position the mechanism assembly on “Base.stl” as shown.
Position “Wheel, Geared (64 teeth).stl” as shown.
Secure “Arm, Wheel Geared.stl” to the base with the first “Bolt, 4.2mm shoulder.stl”.
Secure “Wheel, Geared (64 teeth).stl” using “Axle, Wheel Geared.stl”. The axle will travel through the center hole in the geared wheel, through the free hole in the lower arm assembly, throughout the free hole in the upper arm assembly, then into the threads in the base.
Attach the Mechanisms to Wheel, Geared (64 Teeth).stl.
Position “Arm, Wheel.stl” as shown then secure it to “Wheel, Geared (64 teeth).stl” using the second “Bolt, 4.2mm shoulder.stl”.
At this point, “Wheel, Geared (64 teeth.stl)” should easily rotate and the mechanism should work smoothly. If any binding occurs, make sure the arms are positioned properly and the bolts are not over tightened.
Attach the Gate.
Position “Gate.stl” onto the base assembly as shown, then secure it in place with “Axle, Gate.stl”.
Final Assembly.
Press “Gear, Spur (8 teeth).stl” onto the motor shaft as shown, then slide the assembly into the base until “Gear, Spur (8 teeth).stl” aligns with the teeth on “Wheel, Geared (64 teeth).stl”
Apply 1.5vdc to the motor such that “Wheel, Geared (64 teeth).stl” rotates counter-clockwise when viewed from the front.
That’s how I printed and assembled “Marblevator, Mechanisms”!
Hope you enjoy it!
-

esc cover with rx antenna tube 3D Print Model
Summary
Imported existing esc cover into fusion 360, converted to a BRep and added an antennna tube for my rx antennas.
Fusion 360 source at: https://a360.co/2HUtSfT
Orient the stl in your slicer to position the antenna tube at a 45 degree angle to the horizontal, and print with supports in TPU. Use mirror in your slicer to print for the arm on the opposite side. -

Sonic 3 Planter 3D Print Model
Summary
Inspired by Augustin Flowalistik’s work with some of his gaming planters – this is one made with some 16 bit love for the Sega side of the console wars. Featuring the classic silhouettes of Sonic, Tails and Knuckles, and a fourth side featuring the 7 chaos emeralds. The top is adorn with rings all the way around.
Designed in Rhino, this comes in both single and dual extrusion varieties, and theres options for drainage or no drainage hole versions. -

Balkonhalter Sonnenschirm 3D Print Model
Summary
Hallo. dies iat ein Halter für den Sonnenschirm auf dem Balkon! Der Rohr vom Sonnenschirm sollte einen Durchmesser 32mm haben! Die Balkonaufnahme beträgt 42mm.
Print Settings
Printer Brand:
TEVO
Printer:
Tornado
Rafts:
No
Supports:
No
Resolution:
0.2
Infill:
20 -

League of Legends 3D Print Model
Summary
This is a LoL Logo not designed by me.
I’ve added a little triangle holder at the bottom which fits with a master base as a support stand.
Currently there is only one base stand but there will be more coming soon.
Print Settings
Printer:
prusa i3 aluminum
Rafts:
Doesn’t Matter
Supports:
Yes
Resolution:
best with 0.15
Infill:
15+%
Notes:
Support is recommended due to the fact that it has a little triangle holder at the bottom and that doesn’t fit with the other part if printed without support -

Visuo Gear Cover 3D Print Model
Summary
Visuo XS809 Gear cover so u dont loose your small pinion gear, with small holes for heat ventilation. The other cover on thingverse does not print bc the walls are too thin for 90% of nozzles -

Viofo A119 Dashcam CPL Lens Holder 3D Print Model
Summary
Suitible for 25mm diameter, 1.2mm thickness CPL lens…
Clear 2 and 3 columns in the CPL lens location after print & before placing the CPL lens. -

Insignia remote battery door / cover 3D Print Model
Summary
This is a replacement battery cover / door for an insignia tv remote.
Print with 100 percent infill.
You may want supports on the little rear tab, and possibly under the spring arm tabs if they come out droopy.
No raft needed.
Print Settings
Printer Brand:
Wanhao
Printer:
Wanhao Duplicator i3 Plus
Rafts:
No
Supports:
Yes
Resolution:
.2mm
Infill:
100% -

Quarto game + holder 3D Print Model
Summary
Easy to print QUARTO GAME and it’s support if you need to transport it.
Print Settings
Printer:
discovery200
Rafts:
No
Supports:
No
Resolution:
0.2
Infill:
17 -

Clone Cody Commander Star Wars Legion Scale 3D Print Model
Summary
I extract the clone body from a game and then put the commander head and blaster.
It’s for Legion scale, hope you like.
I
Print Settings
Printer Brand:
Formlabs
Printer:
Formlabs Form 1
Rafts:
Doesn’t Matter
Supports:
Yes
Resolution:
50 micrones -

Samsung S5 Bracket for Heinkel Tourist Scooter 103 A1 & A2 (Windshield mount) 3D Print Model
Summary
I needed a way to hold my GPS when riding with my old Heinkel Tourist Scooter 103 A1.
I used the holder from here:https://www.thingiverse.com/thing:1114561 (Thanks For Sharing!) It’s a nice design, lightweight, yet sturdy.
I then designed an adapter for the windshield-holder on the scooter, to adapt to the S5 holder created by Sonmor.
I added the famous Heinkel logo on it. (just for show)
-Additionnel Parts-list-
You will need the following to assemble the whole thing:
2x M3 (16mm)
4x M3 Washers
2x M3 Bolts
2x M10 (40mm)
4x M10 Washers
2x M10 Bolts
-PrintStuff-
No need for supports, they are included.
PartII needs to be rotated so that the cylindres touch the buildplate.
Tested print on Prusa MKII.
-Material-
I advise to print in ABS as it’s sturdier, and UV-resistant. (NoFan, preferably a small brim to avoid warping of ABS)
-Assembly-
Remove supports from PartII. (they break off when twisting’em)
First assemble PartII and PartIII with the small M3 bolt’n screws.
Then use M10 bolt’n screws to attach to the windshield bracket.
Now clip the Samsung Galaxy S5 holder on it.
-Additional Idea-
I made an USB cable going from battery (with power adapter) to the underside of the handlebars .. so I don’t drain the S5 battery.
-Usage-
I put 4 small foam pieces in each corner of the bottom of the Samsung S5 holder, to keep the phone from shaking too much (oldtimer=vibrations), and avoid the risk of jumping out of the holder whiles driving.
That’s it.
I can only say how gratefull I am that people share stuff so others can change it. So if you’re keen to that principle, don’t go making money on what people share for free !
-enjoy- -

Kratos Busto 3D Print Model
Summary
full without support 0.1 100 50 PLA enjoyStandards
NGSS
Overview and Background
–
–
Lesson Plan and Activity
–
–
Materials Needed
–
– -

AirBlade Eclair V2 Backpack for Split Mini 3D Print Model
Summary
This is designed to re-locate the pouch on the backpack to the top, freeing up spaces inside the Eclair frame to stack up Split Mini boards. The eclair frame is able to take up to 4 boards inside the cage. The pouch is still for VTX. The receiver can be installed behind the stack.
Print Settings
Printer Brand:
Prusa
Printer:
i3 MK3
Rafts:
No
Supports:
Yes
Notes:
Print in TPU -

santa claus sloppy drunk 3D Print Model
Summary
I’ve made this with a friend ! my model lol ^^
funny 🙂
Print Settings
Printer Brand:
Prusa
Printer:
i3 MK2S
Rafts:
No
Supports:
Yes
Resolution:
0.2 max
Infill:
25% -

Extended RPi Zero W Einsy Door + Hub Mounts 3D Print Model
Summary
Milo5000’s Einsy case mod was great but I was having issues putting in my RPi with a heatsink mounted. The modded lid allows for a heatsink extending at least 4mm above the MK3 PI frame so around 7mm total in height for the heatsink. The additional space also allows for easier removal of the SD card with pliers or really precise fingers.
I have also included two different sizes for hub mounts. One fits a 26mm X 18mm X 61mm hub which I use for just ethernet connectivity. The larger one fits a 31mm X 21mm X 96mm hub which has 3 usb ports and an ethernet ports. -

Rocklet router plate insert 3D Print Model
Summary
This is an insert for Rockler’s router plates.
It’s for the 4 inch OD inserts that these router plates use: http://www.rockler.com/rockler-aluminum-pro-router-plates
I’ve included the Fusion360 f3d file so you can customize the hole size, or you can print out the pilot hole version and drill your own hole.
Print Settings
Rafts:
No
Supports:
No
Infill:
35
Notes:
I used PLA at 35% infill, PETG or ABS should work too.
How I Designed This
Fusion360 -

Loyal Order of the Water Buffalo Hat 3D Print Model
Summary
Loyal Order of the Water Buffalo hat. print upside down with proper supports, paint the horns and the forehead details, then roll on down to the fabric store for some blue fur and some spray adhesive to glue on. -

Circular-cap杯子 3D Print Model
Summary
看最小壁後可以到多少
順便拿來當作零件盒
Print Settings
Printer:
X1E-PLUS
Rafts:
Yes
Supports:
No
Resolution:
0.2
Infill:
0%Post-Printing
-

tronxy xy-08n sensor stable mount to Anet A8 3D Print Model
Summary
tronxy xy-08n sensor stable mount
Print Settings
Printer:
Anet A8
Rafts:
No
Supports:
No
Resolution:
0.2
Infill:
100 -

Prusa I3 MK3 Build Volume Reminder 3D Print Model
Summary
Just thought I would print something to remind myself of my printers Build Volume 🙂
Held onto Frame with BluTak
Print Settings
Printer Brand:
Prusa
Printer:
i3 MK3
Resolution:
0.2
Infill:
100%
Notes:
If you want to change the numbers, Goto Tinkercad – Upload .stl – click .stl – click Ungroup – click Text (numbers) – edit to your own Build Volume – when done select all objects (ctrl+A) – click group – click Export, and your done.
Use Settings that work for you. -

Robot Monka 6×4 3D Print Model
Summary
3D model of 6×4 Monka robot. All parts are there: https://www.patreon.com/Jirkasirka
Monka is cheap but smart 3D printed robot, I will discover some usefull tools and upgrades for monka and pepe robot.
Monka 4×2 files:https://www.thingiverse.com/thing:2867512https://www.thingiverse.com/thing:2892049https://www.thingiverse.com/thing:2876379
Pepe files:https://www.thingiverse.com/thing:2886866 -

Wood tile with Yeti 3D Print Model
Summary
I decided to hide a Yeti in one of Dakanzia’s wood tiles. I’m going to print one of these for my board and hopefully it turns out good.
I’m not sure how this will turn out so if someone prints one let me know, i’ll report back if it goes good when I get a chance. I hid his hands in some trees, hopefully the printer doesn’t have issues with the angles of his arms.
I grabbed the yeti from here (https://www.thingiverse.com/thing:2401220)
The wood tile from here (https://www.thingiverse.com/thing:2525047)
Hope you like. -
Digoo camera DG-MYQ wall mount 3D Print Model
Summary
Printed to mount the camera on the wall or other flat surface. I printed in PLA 30% infill, supports are optional. You’ll need a 4cm 3M screw and nut. -

warframe busts 3D Print Model
Summary
found the tenno gen file decided to make some fun stuff with them -

Smaller Gödel, Escher Bach shadow cube 3D Print Model
Summary
This is just the design of https://www.thingiverse.com/thing:151240, scaled down to 40% of its original size (40mm).
Print Settings
Resolution:
0.2mm
Infill:
20% -

Wide Mouth Mason Jar Handle 3D Print Model
Summary
Needed to make a Wide Mouth version of this thing… so I took two different things and mashed them together.
Print Settings
Printer Brand:
MakerBot
Printer:
Thing-O-Matic
Rafts:
No
Supports:
Yes
Resolution:
.25
Notes:
Print with supports because the thumb nub is elevated. -

Ratchet (507 Mechanical Movements #75) 3D Print Model
Summary
This is the ratchet model from 507 Mechanical Movements: http://507movements.com/mm_075.html
You will need a 3/8″ dowel and 2x 1″ #6 sheet metal screws. It is best to assemble everything on the dowel, pilot drill through handle and moving pawls hole, screw screws in, and cut the dowel ends flush.
Some filing will be necessary to get the stop pawl to fit.
See my blod post about this here: http://artofrandomness.net/blogs/matts-blog/ratchet-model-maychanisms-1/
-

centrifugal fan hotend support 3D Print Model
Summary
centrifugal fan support for E3D hotendOverview and Background
-

axial fan support for E3D hotend (40×40) 3D Print Model
Summary
axial fan support for E3D hotend 40×40 -

Geometric Lithops Plant Pot 3D Print Model
Summary
As Lithops/Living Stones are a type of succulent that require very good drainage, this pot is designed with gaps in sides to allow the water to escape. They are also taller than wide to allow space for the tap roots.
The slots down the side are 1.5mm wide so to ensure the mix doesn’t fall through its a good idea to sift out anything smaller than this size. My soil sifter design has a 1.5mm option to do this: https://www.thingiverse.com/thing:2853130
I tend to print these pots with infill for the base but 0% infill above so there will be no infill showing.
I will be printing more at different sizes so will upload more when i make them.
Print Settings
Printer:
Anet AM8
Rafts:
No
Supports:
No
Resolution:
0.2mmHow to Print Different Infills on same model in Cura
After adding the model you want to print into cura, add a basic solid stl, such as a 10mm cube.
Scale the cube to cover the area you want to have a different infill to the rest of the model.
On the left click Per Model settings, then select Modify setting for overlap with other models.
Then you can select settings that are modified within this area, just select infill density, in the example below i used 15% for the base and the rest of the model was printed with 0% infill as per the general settings.
I thought i would put this instruction online somewhere as i took some time looking up how to do this! -

Tripoly / Michigan Rummy Tray 3D Print Model
Summary
Chip tray for Tripoly / Michigan rummy card game.
Print Settings
Supports:
Yes -

Tie fighter helmet 3D Print Model
Summary
a helmet you can print so you can wear it or you can print it small so you can have a little toy. -

Key Chain (Maaz) 3D Print Model
Summary
Name Key Chain.
Print Settings
Printer:
MP Delta Mini
Rafts:
Yes
Supports:
No
Resolution:
.2
Infill:
10% -

RC Body Clip 1/10 Tamiya etc 3D Print Model
Summary
Here’s a redesigned body clip and spacer for Tamiya style RC cars. It’s an alternate design to the little metal clips which is more suitable for printing in plastic.
These little suckers break easily so just print out a stack of them and have plenty of spares on hand. -

Projects box 3D Print Model
Summary
The caps fit nicely in the standard plastic downspout that I used and are very easy to cut. Saves a lot of time for making electronic enclosures providing the boards will fit. -

BMW i3 Key fob cover 3D Print Model
Summary
The key fob for the BMW i3 has got to be the worst shape and design I’ve ever seen. This thing is obnoxiously wide and flat. In my pocket, I’ve accidentally unlocked the car at least 7 times in 3 months. One time caused my car to be burglarized. So I decided that I needed a cover to block the buttons from being pressed. It took some iterations to get the shape right, but I now have a working cover that easily slides on and off for the BMW i3 key fob.
Hopefully this helps you too.
Print Settings
Printer Brand:
Prusa
Printer:
Prusa Mk2
Rafts:
No
Supports:
Yes
Resolution:
0.2mm
Infill:
50%
Notes:
The edge that this prints on has very little surface area, make sure your first layers are good or it will get loose from the bed. -

2020 Volcano Nozzle Rack 3D Print Model
Summary
Nozzle holder for volcano nozzles. The dots below the numbers are from https://wiki.e3d-online.com/E3D-v6_(Volcano)_Documentation#Nozzle_Identification. The other sizes are from Aliexpress and have the number stamped on the nozzles. .step and .ipt files included for relabeling.
Push the nozzle from the bottom for easier access.
Print Settings
Printer:
Voron 072
Rafts:
No
Supports:
Yes
Resolution:
.3
Infill:
10%
Notes:
print with 2 outline brim.
2 shells
How I Designed This
Autodesk Inventor -

18650 to C-Type Battery Flashlight 3D Print Model
Summary
C_Battery Flashlight change for 18650 Li_battery
C_battery x 5 change for 18650 Libattery x2 。
18650 to C_Battery x1
C Battery-Ext 105mm x1
C Battery-Ext EndCap x2
Print Settings
Printer:
CR-8
Rafts:
No
Supports:
Yes
Infill:
30 -

SPINNER FAST 3D Print Model
Summary
Modelo de elemento giratorio. Se le debe introducir en el centro un rodamiento 608, sin obturacion. Si fuera posible se debe quitar
Print Settings
Printer Brand:
Prusa
Printer:
Prusa Clone
Rafts:
No
Supports:
No
Resolution:
0.2 mm
Infill:
40% -

PanelDue 7i case (thin) 3D Print Model
Summary
This is a modified version of the ‘PanelDue 7i Case with flexible mount by LumberjackEngineering’. I printed the original design and discovered it was just far to thick for my liking so I was able to shave 10mm of thickness out of it and it fits perfect. I also widen the cut out in the back to accommodate the wire connectors. The rest of the mounting stl are located on the original file so make sure to toss a thumbs up for the original creator! -

Novelty Glasses Mustache Extruder Indicator 3D Print Model
Summary
Just a funny Extruder Indicator i had to do up after adding the eyes lol
https://youtu.be/InjhvkvRYXw
Print Settings
Printer Brand:
Prusa
Printer:
i3 MK3
Rafts:
Doesn’t Matter
Supports:
Yes
Resolution:
.2
Infill:
30
Notes:
Just secure an 6-8MM magnet to the post and let’er spin -

Sonoff Basic – Consumer distribution Unit Rail mount 3D Print Model
Summary
This is a design for mounting the PCB of the Sonoff Basic on the rail inside a consumer distribution box (Mains electric box, power distribution box)
This has not been tested, since my printer is broken for now.
USE THIS AT YOUR OWN RISK
I do not recommend using this in the same box as your power Breakers (MCB, FI, fuses etc.)
Make sure you know what you are doing.
This is technically not the right dimensions as a single slot MCB, since the Relay of the Sonoff is as tall as that, but I didn’t want it to take 2 MCB slots.Requirements
Sonoff Basic PCB:
with a removed push button or shortened push button “shaft” &
and led either bend, or removed,
if you are using one of the designs with the LED and button holes you can use some wire to extend them to the face
4x M3x25 screws
4x M3x18 screws
2x M3x10 screws
6x M3 nuts
4x M3 square nuts
4x M3 washers (optional)
4x Screw terminal crimp (preferably one that has a hole so it doesn’t get of while installing)
1x Small spring -

GP7/9 upper speaker body mount 3D Print Model
Summary
1 of 4 parts to build the upper speaker enclose to mount a Visaton FRS 5 in a G scale USA trains GP7/9. This is the mounting base that gets bolted to the existing mounting holes in the top of the engine and the first part installed. it is designed to use 3- 3mm x 5mm thread forming screws. Sorry about the orientation I’m new to 3D drawing just rotate 90 deg on axis X -

Uk to USA Plumbing Adaptor 32mm (1-1/4 BSP) to USA 1-1/2 Schedule 40 Fittings 3D Print Model
Summary
I needed a 32mm threaded UK style plumbing adapter to it a USA style schedule 40 P trap.
In true maker fashion i knocked on up on the 3d Printed.
UK Style 32mm / 1-1/4 BSP Female Thread to USA Style 1-1/4 male.
Used a small o ring in the bottom of the threaded section to help seal. -

dual unregulated mod. 18650 Vape 3D Print Model
Summary
nice box mod with mosfet and 15Kohms resistor. I purchased other supplies on aliexpress for 8 bucks in total. I used neodym magnets from Geomag (3 mm high and 6 mm width)
How I Designed This
Easy design in TinkerCAD. It took me about 15 minutes -

DanO’s BIg O Extruder 3D Print Model
Summary
This is a Geared extruder I designed to be compact.
The gear ratio is 1:5.22
Printed with PLA
You will need
2x 609zz bearings
1x 5mmX70mm bolt
8x 3mm screws
4x 3mm nuts
Print with supports except for the large gear (causes binding if not cleaned fully)
Assembly
If you are mounting to a base Do it now
Press in Bearings
Attach drive gear to the motor. align gears.
Assemble large gear assembly.
Add the motor to the housing. Do not tighten.
Align gears.
Secure the motor
Add Direct drive extruder of your choice.
Have a beer for a job well done.
Please allow 2-4 hrs of use to break-in for smoothe action. (realign and retighten bolts)
Print Settings
Printer Brand:
Prusa
Printer:
Prusa Clone
Rafts:
No
Supports:
Yes


















