Search models, users, collections, and posts

BinLink

IP Report

Print Profile(6)

All
X1 Carbon
P1S
P1P
X1
X1E
A1
H2D
H2D Pro
H2S
P2S
H2C
X2D
A2L
A1 mini

BinLink all the parts 0.2mm layer, 2 walls, 15% infill
BinLink all the parts 0.2mm layer, 2 walls, 15% infill
Designer
59 h
15 plates
4.9(134)

test print 0.2mm layer, 2 walls, 5% infill
test print 0.2mm layer, 2 walls, 5% infill
Designer
1.3 h
1 plate
5.0(25)

All models sorted by color: 0.12mm layer, 15% infill
All models sorted by color: 0.12mm layer, 15% infill
53.6 h
6 plates
4.9(13)

One bin - 0.2mm layer, 2 walls, 5% infill. A1 mini supported
One bin - 0.2mm layer, 2 walls, 5% infill. A1 mini supported
53 min
1 plate
4.9(8)
Click to see more

Open in Bambu Studio
Boost
3214
7262
299
380
3.9 k
1.2 k
Released 

Description

Patreon : If you would like to support my work I now have a patreon here

The reason behind this project

I absolutely love 3D-printed storage systems, but there's one thing I don't like about them: how the bins connect to each other. With most systems out there, you need to print a base grid or tiny connecting pieces, which is a bit of a hassle. And the attempts at interconnecting storage systems are not aestheticly pleasing. That's why I came up with this new design! I wanted interlocking bins of various sizes that can connect on each side but with a sleek and simple design.

I've also added small bumps on the inside, which means you can add accessories and customise each bin to a dedicated task.

And to create custom storage boxes, I've adapted my SnapLock model to accommodate the bins.

 

How to choose the size

The standard bin, Bin_1x1x1, is 60x60x50mm outer dimensions.

All the dimensions in the STL names are based on those dimensions*

Every bin is named as follow : Bin_length x width x height

The other flat components such as lids are named : Lid_length x width

 

*The other bins are not exact multiples of the standard bin as I take into account the interconnecting part

 

Test print

I encourage you to test the fit by printing 2 Bin_1x1x0.5

It should be a nice, snug fit, but not so tight that it's impossible to split.

 

Printing

All the STLs are oriented to be printed directly

No support needed

You can use any material

The sweet spot between material use and rigidity for me is 2 walls ans 5% infill with a 0.4mm nozzle (bigger nozzle should work as well)

 

Accessories

You can even put the bins on their side to act as drawers.

For the moment I have designed several accessories that fit inside or outside the bins :

  • Drawers (I used the plastic's elasticity to lock them in place while closed)
    • Assembled drawer
    • Screw drawer
  • Lid (to close any bin
  • Screw organizer
  • Tray
  • Battery holder
  • Pen holder
  • SnapLock storage box

 

Feel free to give me some feedback if you give this project a try :)

Comment & Rating (299)

(0/1000)

License

This user content is licensed under a Standard Digital File License.

You shall not share, sub-license, sell, rent, host, transfer, or distribute in any way the digital or 3D printed versions of this object, nor any other derivative work of this object in its digital or physical format (including - but not limited to - remixes of this object, and hosting on other digital platforms). The objects may not be used without permission in any way whatsoever in which you charge money, or collect fees.

Remixes (6)
(Created before license restrict)

Click to see more