3-D Printable Multi-Degrees-Of-Freedom Haptic Interfaces for Stimulating Skin Strech, Pressure and Vibrotactile Feedback on a User's Body

Abstract

A fully 3-D printed, soft, monolithic 4-DoF fingertip haptic technology is provided, called FingerPrint, that stimulates linear and rotational shear, pressure, and vibration on the fingerpad. Constructed using an origami waterbomb base mechanism and printed from a flexible material, the device embeds four sets of eight foldable vacuum-powered pneumatic actuators to achieve three translational (x, y, z) and one rotational (torsion) tactile motions and forces of a tactor end-effector on the fingerpad skin.

Claims

1. A method of generating haptic feedback, comprising: (a) having a monolithically three-dimensionally printed haptic device, wherein the haptic device comprises a plurality of foldable actuators, wherein each of the plurality of foldable actuators is a sealed chamber formed by a plurality of polygon-shaped facets connected with foldable flexure hinges; (b) having a tactor, being a tactile stimulator element, positioned such that each of the plurality of foldable actuators is capable of physically interacting with the tactor; and (c) actuating one or more of the plurality of foldable actuators, wherein the actuation causes shape changes to the one or more plurality of foldable actuators, wherein the shape changes produce the physical interaction with the tactor resulting in motion of the tactor to be used as haptic feedback.

2. The method as set forth in claim 1, wherein each of the plurality of foldable actuators comprises tiles or links mechanically interconnected with foldable flexure hinges, joints or one of the foldable actuators.

3. The method as set forth in claim 1, wherein the actuating comprises channels for supplying air or vacuum to the plurality of foldable actuators.

4. A method of printing a haptic device, comprising: (a) Having a model of the haptic device; and (b) Monolithically printing the haptic device, wherein the haptic device is a monolithically three-dimensionally printed haptic device comprising: (i) a plurality of foldable actuators, wherein each of the plurality of foldable actuators is a sealed chamber formed by a plurality of polygon-shaped facets connected with foldable flexure hinges; (ii) a tactor, being a tactile stimulator element, positioned such that each of the plurality of foldable actuators is capable of physically interacting with the tactor; and (iii) channels and ports used for actuating the plurality of foldable actuators, wherein the actuation causes shape changes to the plurality of foldable actuators, wherein the shape changes produce the physical interaction with the tactor resulting in motion of the tactor to be used as haptic feedback.

Description

DETAILED DESCRIPTION

[0019] Other embodiments, further teachings and/or examples related to the invention are described in U.S Provisional Pat. Application 63/309862 filed Feb. 14, 2022, which is incorporated herein by reference in their entirety.