Complex Movements From Simple Inflatables, Thanks To Physics

Inflatable actuators that change shape based on injected pressure can be strong, but their big limitation is that they always deform in the same way.

The Kresling pattern, which inspired the actuator design.

But by taking structural inspiration from origami, researchers created 3D-printed actuators that show it is possible to get complex movements from actuators fed by only a single source of pressure. How is this done? By making the actuators physically bi-stable, in a way that doesn’t require additional sources of pressure.

The key is a modified design based on the Kresling pattern, with each actuator having a specially-designed section (the colored triangles in the image above) that are designed to pop out under a certain amount of positive pressure, and remain stable after it has done so. This section holds its shape until a certain amount of negative pressure is applied, and the section pops back in.

Whether or not this section is popped out changes the actuator’s shape, therefore changing the way it deforms. This makes a simple actuator bi-stable and capable of different movements, using only a single pressure source. Stack up a bunch of these actuators, and with careful pressure control, complex movements become possible. See it in action in two short videos, embedded just below the page break.

Here is a video accompanying the research paper that demonstrates the actuator design. These actuators are 3D-printed from TPU and PLA. Embedded just below that one is a video of a 12-actuator column demonstrating complex movements, all driven by a single pressure source.

Origami and the designs found in our natural world mesh well with robotics in general, and it’s fascinating to see how such simple structural changes can have such big effects on a design.

[via TechXplore]

5 thoughts on “Complex Movements From Simple Inflatables, Thanks To Physics

  1. Back some decades ago, I was mesmerised with a Kresling kind of action afforded by a “Christmas Cracker” thinking it was cool how it rotated as you pushed it in (It was a mini one with higher quality paper, not just crepe and TP tube) Got to wondering if it would be useful to use sometime.

    Anyhoo, seeing this now and getting reminded, and 3D printing existing for the masses, I could see printing a round tart/pie/cookie cutter that automatically rotates as you press, for better cutting and to stop the dough/pastry sticking. (If you wanna be all “Reeeeee!!!! No put 3D print near foooood!!!” then make a knob/handle that grips a stainless steel ring you can put in the autoclave with your eating utensils.)

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