MEMS valve actuator system
First Claim
1. An active pad body part protection apparatus comprising:
- electronic coupling components linking one or more electronic control modules to each other;
a cell body defining a volume, said cell body being comprised of a flexible container formed from a fluid impermeable material, having sealed interior compartment for storing a fluid, including a distal outer layer and an opposite near inner layer;
an inlet port formed in said cell body for receiving a fluid, said inlet port including a one-way valve configured to allow a fluid to be received in said interior compartment of said cell body;
one or more pairs of acceleration sensors attached to each of said layers of said cell body, each of said one or more acceleration sensors being electronically coupled to one or more of said one or more electronic control modules;
an electronically actuated MEMS valve assembly attached to said cell body, where said MEMS valve assembly is in fluid communication with said interior compartment and configured to open/close so as to control the pressure within said cell body by controlling the rate of discharge of the fluid venting from the interior compartment of said cell body to the exterior;
wherein said electronically actuated MEMS valve assembly is formed from a semiconductor substrate sandwich having a first flat component having two or more openings going through said first component'"'"'s body and second flat component located below said first component, said second component having two or more openings going through said second component, wherein said second component openings are located so that when said first and second components are placed in contact to each other there is no fluid path through said combined first and second components, with two or more piezo-electric electric voltage actuated actuators located along the lateral edges of said first and second components and capable of moving said first and second components relative to each other so that a planar and non-bowing gap between said first and second components may be opened or closed through the coordinated operation of said piezo-electric actuators through movements of said first and second structural components away or towards each other, said valve being electronically coupled to said one or more electronic control modules;
a pressure sensor in fluid communication with said interior compartment of said cell body, said pressure sensor being electronically coupled to one or more of said one or more electronic control modules; and
a distal outer side of said cell body has a permanent shaped curvature while a near inner side shape'"'"'s curvature is adjusted by the predetermined length of strings or structures connecting the distal cell body to the near cell body side, wherein said strings or structures are completely located within said sealed interior compartment so that the two shapes relate to each other.
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Accused Products
Abstract
A micro-electro-mechanical (MEMS) exhaust valve-based impact attenuating fluid filled cell for use in cushioning impact and decelerating of a wearer'"'"'s body portion (e.g. head, shoulder, torso, etc.) after an impact. In combination with the use of accelerometers, pressure sensors, location and other electronics supply signals to a microcontroller, the controlled opening/closing of said exhaust valve (resulting in the expelling of said fluids with an optional combination with cell refill means) when certain parameters exceed a threshold. Individuals who engage in activities that carry a risk of injury to the head from impact in the normal course of the activity could, in combination with regular exams, benefit from a system that produces and updates a kinematic 3D model of the individual'"'"'s head, including brain matter, cerebrospinal fluid paths, arterial and venous blood flow pathways, as well as the skull, supporting connective tissues and other biological structures in the head suitable for interaction with exogenous stimuli prepared from hypothetical or actual recorded impact events.
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Citations
7 Claims
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1. An active pad body part protection apparatus comprising:
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electronic coupling components linking one or more electronic control modules to each other; a cell body defining a volume, said cell body being comprised of a flexible container formed from a fluid impermeable material, having sealed interior compartment for storing a fluid, including a distal outer layer and an opposite near inner layer; an inlet port formed in said cell body for receiving a fluid, said inlet port including a one-way valve configured to allow a fluid to be received in said interior compartment of said cell body; one or more pairs of acceleration sensors attached to each of said layers of said cell body, each of said one or more acceleration sensors being electronically coupled to one or more of said one or more electronic control modules; an electronically actuated MEMS valve assembly attached to said cell body, where said MEMS valve assembly is in fluid communication with said interior compartment and configured to open/close so as to control the pressure within said cell body by controlling the rate of discharge of the fluid venting from the interior compartment of said cell body to the exterior; wherein said electronically actuated MEMS valve assembly is formed from a semiconductor substrate sandwich having a first flat component having two or more openings going through said first component'"'"'s body and second flat component located below said first component, said second component having two or more openings going through said second component, wherein said second component openings are located so that when said first and second components are placed in contact to each other there is no fluid path through said combined first and second components, with two or more piezo-electric electric voltage actuated actuators located along the lateral edges of said first and second components and capable of moving said first and second components relative to each other so that a planar and non-bowing gap between said first and second components may be opened or closed through the coordinated operation of said piezo-electric actuators through movements of said first and second structural components away or towards each other, said valve being electronically coupled to said one or more electronic control modules; a pressure sensor in fluid communication with said interior compartment of said cell body, said pressure sensor being electronically coupled to one or more of said one or more electronic control modules; and a distal outer side of said cell body has a permanent shaped curvature while a near inner side shape'"'"'s curvature is adjusted by the predetermined length of strings or structures connecting the distal cell body to the near cell body side, wherein said strings or structures are completely located within said sealed interior compartment so that the two shapes relate to each other. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification