posts tagged with the keyword ‘openscad’

2018.03.18

bumps-on-fabric-0921a

I finally got around to 3D printing on fabric. It worked out okay. I need to experiment a bit more to perfect it, but for a first attempt, it worked out okay.

bumps

I used OpenSCAD to design a bump, and then made a field of bumps. (It’s a low-poly half sphere, actually. Really simple to do in OpenSCAD.)

bumps-openscad

Also really easy to generate a bunch of them in OpenSCAD by using two for loops. I know OpenSCAD isn’t for everyone, but if you think in code, it might work for you.

bumps-on-fabric-0923a

I used this organza fabric to print onto. It’s a mesh material, so the process of printing on it involves printing a few layers, then pausing the print, moving the print head out of the way, laying down the fabric, securing it to the bed, then continuing the print. The fabric gets embedded within the layers of the print.

cura-script-custom

My Maker Select Plus did not allow me to pause the print and move the extruder using the on screen controls, so I added some custom gcode to my print. Cura has a post-processing plugin that allows you to inject gcode bits into your script. I had make an edit to get it to work with my printer. And then I actually made my own version so I don’t lost the changes when I upgrade Cura next time.

bumps-on-fabric-0917a

So what use is this? It allows you to wrap a print around something. It an be used to create fake armor for cosplay, or to wrap anything cylindrical, or add an interesting texture to something. Over at Milwaukee Makerspace we may have something in the works for Maker Faire Milwaukee this year.

A post shared by Pete Prodoehl (@raster) on

Stay Tuned!

2017.04.02

Stand

I recently had to design a simple cabinet to serve as a stand for a mill/lathe. I thought about pulling out some rulers and triangles (yes, I used to actually do drafting with pencils and paper) but instead I decided to try using OpenSCAD.

Stand

I used specific colors in my design, of course when you actually render a thing in OpenSCAD the color goes away, but you can export the different views just fine without rendering. Here are the various view of the thing. Oh, since OpenSCAD is a “unit-less” thing which mostly outputs in millimeters (at least for STL files) I just assumed the units were inches.

Stand

I used the OpenSCAD “scale” feature to scale up the thing by 25.4 times in each direction, which means my 1 millimeter became 1 inch.

Stand

But in a real drawing you plan to hand to someone you need dimensions for things. While there’s been some experimentation in adding them, there just doesn’t seem to be an easy way to show dimensions of things in OpenSCAD. I resorted to printing out paper and marking it up… with a pencil.

Stand

I probably need to learn how to use FreeCAD for this sort of thing. I’m sure I can easily add dimensions with it. One of the really interesting things about FreeCAD is that it has an OpenSCAD Module. You can import a CSG file which you’ve exported from OpenSCAD, and you can just open .scad files as well.

Much more to explore here… stay tuned!

2017.04.01

Adjustable Rectangular Mount v1

I finally got around to creating a parametric version of the 3D printed mount I’ve been using for the past few years. Typically I’d just open a previously designed thing in OpenSCAD, make some adjustments, and export an STL to print. Eventually I realized that I should just create a bunch of variables so I can easily just make minor adjustments each time and not have to do a bunch of find & replace operations.

The result is Adjustable Rectangular Mount v1 which you can find on Thingiverse and Youmagine.

It’s a work in progress, and it still needs some tweaking, but I figured it was worth releasing to the world. (Hey, make it better if you can!) It doesn’t work for all sizes and configurations, but for most of my needs, it’s good enough.

Adjustable Rectangular Mount v1

I should probably do more research on how to improve things by reading through other OpenSCAD code, but as mentioned, you’ve gotta start somewhere. I’ll probably be using this one quite a bit in the future, and I’ll update it as I can.

This mount specifically expects that you can use screws (or bolts) to mount it to a surface you can screw into or drill through. I also often add some double-sided foam tape to the inside of the mount and stick it directly to the object being mounted.

2017.03.31

Borrowing a bit from our friends at Bolt Depot, their chart showing US Machine Screw Diameters is helpful, but often I’m designing with Metric units (or a unit-less system that outputs in millimeters) and I need to convert Imperial units to mm. (I tend to do a lot of work using OpenSCAD and Inkscape for 3D printing.)

The chart below allows me to specify screws and bolts and then design holes that will work. For instance, I used a lot of #4 screws, and the chart tells me I need a hole diameter of approximately 2.794mm. Handy!

Size Thread Diameter
Decimal Nearest Fractional Metric
#0 0.06″ 1/16″ 1.524mm
#1 0.07″ 5/64″ 1.778mm
#2 0.08″ 3/32″ 2.032mm
#3 0.09″ 7/64″ 2.286mm
#4 0.11″ 7/64″ 2.794mm
#5 0.12″ 1/8″ 3.048mm
#6 0.13″ 9/64″ 3.302mm
#8 0.16″ 5/32″ 4.046mm
#10 0.19″ 3/16″ 4.826mm
#12 0.21″ 7/32″ 5.334mm
#14 0.24″ 1/4″ 6.096mm

See Also: Millimeters, Inches, Fraction, Decimals

2017.02.27

Cabinet Lock

Our new(-ish) kitten is still getting into trouble on a daily basis, and he occasionally opens up the kitchen cabinet doors, and either crawls inside, or worse, gets into the trash can and has a good ‘ole time. Not cool, kitten! The solution was simple, those child-proof cabinet door locks. I took a quick look on Amazon and found some, but they typically come in a 12 pack or 20 pack or some other number that makes sense to put on all of your cabinets. Of course, when you’ve got a 3D printer, why bother ordering things you can just print out?

Cabinet Lock

I found Child safety lock for cabinet/cupboard on Thingiverse, printed one, and put it on the cabinet that has the trash can. Problem solved! I printed two more, one for the cabinet with the pots and pans, because who wants cat fur in their frying pan? And the third was for the cabinet where we keep the cat food. It’s probably a good idea to keep him out of that one.

Cabinet Lock

Here’s Mr. Kitten inspecting my handiwork. Or maybe he’s just trying to figure out how to get around this terrible device. This is one of those things where I probably would have enjoyed 3D modeling this part, but I was able to find one someone already created, and best of all, it was created in OpenSCAD, which was nice because I could easily alter it, and I could learn from looking at code someone else wrote. Win all around.

Cabinet Lock

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