- The boom loom boss was a winner of the 2025 Core77 Design Award for Toys and Play.
It's like an analog computer of weaving.
If you have any experience with weaving you will understand the importance of shed formation. The key innovation is the heddle mechanism which affords great efficiency with weft pattern making through rotation of a pattern bar allowing the weaver to focus on other variables like yarn selection or design sequence. There is even a web app pattern picker to plan out designs developed with the help of a mathematician [1]
Perhaps other similar ideas might be something like tablet weaving [2] or Der Weberknecht [3]
The primary difference is the quick prep and setup time with the boom loom and it's near instant to develop modular samplers [4]
If anyone knows of any other hacking mechanical weaving machines like the boom loom; please share!
[1] https://www.theboomloom.com/krokbragd-picker
[2] https://en.wikipedia.org/wiki/Tablet_weaving
[3] https://weberknecht.notion.site/Projekt-Weberknecht-Project-...
- In primary school, we did this with a piece of cardboard by cutting /\/\/\ at the top and bottom and inserting a knitting needle as the cylinder comb for doing a batch of alternate lines at the same time.
It was 40 years ago but clear as day because I really enjoyed it. I made a coastal landscape with boats and it was very programmery to build up a real image from scan-lines. Making an abstract repeating pattern like the examples wouldn't be half as engaging.
- I'm not sure I understand the title, does looming help you think or something? I don't really have much inherent interest in looming, but I would have a lot of interest in that
- Creative thinking, patterns and mental focus.
Once you get the hang of it, it’s the sort of task you can do and run deep mental processes in the background.
- Is that specific to looming? I already do a bit of miniature painting which feels like it'd be similar but that takes too much focus to be running background processes, but maybe I'm just not good enough at it yet
- I am inspired to 3D print this, thank you!
- Do you have files for this?
- There's something to this. A lot of ideas that feel fuzzy in your head get clearer the moment you have to physically arrange them. Not sure an app captures that but worth trying.
- See also: writing a design doc before writing code :)
- Very neat.
It feels like you could make the patterns modular too, a series of discs that you line up as needed and then lock in place?
- You would need (counts on fingers) 0000, 0001, 0011, 0101, 0111, 1111 reversible dials for a four-shaft loom disc, I think (or 00, 01, 11 half-dials, or 0, 1 quarter-dials).
So it’s doable, printing one disc per warp and having a stable socketing mechanism. It’s going to be bearing the compression force of the warp tension into the outer peg or inner shaft of each wheel, so your locking mechanism will end up having to provide resistance to separation — lego pegs won’t be enough. Twist-locks would work in one direction but tend to separate in reverse, so you’re better off using a hollow center core with alignment pegs to stabilize the 4-way 90° inter-discs and then using a rod with a cotter pin holding on a crank wheel at both ends (that provides the grip to rotate it against the warp tension).
So, for a 40-thread you’d need 240 discs; or 160 plus a handful if you conserve on the 0000 and 1111 discs as specialty / edge-only. Plus a rod, two cotter pins, and two grab wheels.
Binary wheel storage starts to become a problem. If you construct wheels out of 0’s and 1’s you can store simpler parts, though probably at a 25% discount on end quantity (or better, depending on how you budget for all 1110/0001 or heavy use of 0000/1111 not). Or you can use wheels with dowel sockets and put metal pins into them that lock into neighboring discs when assembled, which would benefit from having the crank wheel be stable to set the tower upon during assembly.
None of this even remotely fits within the level of simplicity of production, storage, use that the 40-thread pattern bar provides at a $20 price point. You’re better off printing your own solid pattern bar as they do, if simplicity of use is a concern and you have the skills and access to do so; but if you distribute that pattern bar model or print, you’ll collide with their patent, since you haven’t materially innovated in the above disc-and-lock system ways, so plan for a licensing payment to them if you intend to distribute a solid pattern bar.
(Thanks to the video game Shapez for teaching me to think about 4-tile assembly in terms of rings rather than circles.)
ps. I still want one of these quite a lot.
- This is the hackernews I desire!
- Is there a link to US/Canada retailers?
Edit: Never mind. I always find it after asking a question.
- 100 bucks? I'll pass, thanks.
- tl;dr This is a project page describing a small hand woven loom. Small, means a little wider than a palm and maybe half the length of a forearm (depending on which you buy). Basically, you will run a string between two circular combs along the length of the stand and weave a separate thread or yarn horizontally many times to make a piece of fabric. These seem to cost at least 100$.
- The frames are $80 or $140. The circular combs are only $20.
- Does this scale to dining placemat size?
