Pressure activated switching device with piezoresistive material
First Claim
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1. A pressure actuated switching apparatus, which comprises:
- a) first and second conductive layers;
b) a layer of compressible piezoresistive material disposed between said first and second conductive layers, said piezoresistive material including an expanded polymeric foam having a plurality of voids dispersed in a polymeric matrix, the matrix having a mixture of conductive particles and conductive fibers incorporated therein;
c) at least one standoff layer positioned between said piezoresistive material and at least one of said first and second conductive layers, said standoff layer comprising a plurality of discrete, spaced apart dots of insulative material;
wherein in response to a predetermined magnitude of force applied thereto said compressible piezoresistive material moves through the space between said standoff dots to make electrical contact with at least one of said first and second conductive layers.
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Abstract
A pressure sensitive sparkless switching device includes a layer of piezoresistive cellular polymer foam, at least two conductive layers, and an insulative spacer element having at least one opening. When pressure is applied to the device the piezoresistive foam disposes itself through the opening of the spacer element and makes electrical contact between the conductive layers. The resistance of the piezoresistive foam varies with the amount of pressure applied to provide an analog as well as on-off function. The device may also provide multiple switching, and shear detection capabilities.
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5 Claims
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1. A pressure actuated switching apparatus, which comprises:
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a) first and second conductive layers; b) a layer of compressible piezoresistive material disposed between said first and second conductive layers, said piezoresistive material including an expanded polymeric foam having a plurality of voids dispersed in a polymeric matrix, the matrix having a mixture of conductive particles and conductive fibers incorporated therein; c) at least one standoff layer positioned between said piezoresistive material and at least one of said first and second conductive layers, said standoff layer comprising a plurality of discrete, spaced apart dots of insulative material; wherein in response to a predetermined magnitude of force applied thereto said compressible piezoresistive material moves through the space between said standoff dots to make electrical contact with at least one of said first and second conductive layers. - View Dependent Claims (2, 3, 4, 5)
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Specification