IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0405969
(2003-04-02)
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발명자
/ 주소 |
- Browne, Alan Lampe
- Johnson, Nancy L.
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출원인 / 주소 |
- General Motors Corporation
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인용정보 |
피인용 횟수 :
42 인용 특허 :
12 |
초록
▼
An energy absorbing assembly includes a covering; and a shape memory material in operative communication with the covering, wherein the shape memory material has a first shape attached to an underside of the covering and is operative to change to a second shape in response to an activation signal. T
An energy absorbing assembly includes a covering; and a shape memory material in operative communication with the covering, wherein the shape memory material has a first shape attached to an underside of the covering and is operative to change to a second shape in response to an activation signal. The second shape of the shape memory material can cause the covering to expand or expand and detach from a surrounding surface medium. The energy absorbing assembly is used to absorb kinetic energy of an object impacting the assembly. Methods of operating the assembly are also disclosed.
대표청구항
▼
1. An energy absorbing assembly, comprising:a covering; and a shape memory material in operative communication with the covering, wherein the shape memory material has a first shape attached to an underside of the covering and is operative to change to a second shape in response to an activation sig
1. An energy absorbing assembly, comprising:a covering; and a shape memory material in operative communication with the covering, wherein the shape memory material has a first shape attached to an underside of the covering and is operative to change to a second shape in response to an activation signal, wherein the shape memory material is adapted to revert back to the first shape upon discontinuation of the activation signal. 2. The energy absorbing assembly of claim 1, wherein the shape memory material comprises a shape memory alloy, a shape memory polymer, or a piezoelectric material.3. The energy absorbing assembly of claim 1, further comprising a sensor and a controller in operative communication with the shape memory material.4. The energy absorbing assembly of claim 1, wherein the second shape has a greater length dimension than the first shape and is adapted to cause the covering to expand and/or detach from a surrounding surface medium.5. The energy absorbing assembly of claim 2, wherein the shape memory alloy comprises nickel-titanium based alloys, indium-titanium based alloys, nickel-aluminum based alloys, nickel-gallium based alloys, copper based alloys, gold-cadmium based alloys, silver-cadmium based alloys, indium-cadmium based alloys, manganese-copper based alloys, iron-platinum based alloys, or iron-palladium based alloys.6. The energy absorbing assembly of claim 2, wherein the shape memory polymer comprises polyphosphazenes, poly(vinyl alcohols), polyamides, polyester amides, poly(amino acids), polyanhydrides, polycarbonates, polyacrylates, polyalkylenes, polyacrylamides, polyalkylene glycols, polyalkylene oxides, polyalkylene terephthalates, polyortho esters, polyvinyl ethers, polyvinyl esters, polyvinyl halides, polyesters, polylactides, polyglycolides, polysiloxanes, polyurethanes, polyethers, polyether amides, polyether esters, or copolymers thereof.7. The energy absorbing assembly of claim 1, wherein the shape memory material comprises an actuator strip and a piezoelectric material disposed on portions of the actuator strip, wherein the piezoelectric material comprises platinum, palladium, nickel, titanium, chromium, iron, gold, silver, copper, cadmium, selenium, silicon, Group VIA and IIB compounds, metal oxides, metal alloys, and mixtures thereof.8. The energy absorbing assembly of claim 1, further comprising a mechanical actuator in operative communication with the energy absorbing assembly, wherein the mechanical actuator is adapted to expand the covering and the shape memory material.9. The energy absorbing assembly of claim 8, wherein the mechanical actuator comprises a pyrotechnic device, a piezoelectric device, or an accumulator inflator.10. The energy absorbing assembly of claim 1, wherein the covering is flexible.11. An interior vehicle surface comprising: an energy absorbing assembly comprising a covering and a shape memory material in operative communication with the covering, wherein the shape memory material has a first shape attached to an underside of the covering and is adapted to expand to a second shape in response to an activation signal, wherein the second shape has a greater length dimension than the first shape and causes the covering to expand, wherein the shape memory material is adapted to revert back to the first shape upon discontinuation of the activation signal.12. The interior vehicle surface of claim 11, wherein the energy absorbing assembly forms a door pillar surface, a headrest surface, a floor surface, a seat surface, a dashboard surface, a steering wheel surface, a door surface, a ceiling surface, or a combination comprising at least one of the foregoing interior vehicle surfaces.13. The interior vehicle surface of claim 11, wherein the shape memory material comprises a shape memory alloy, a shape memory polymer, or a piezoelectric material.14. The interior vehicle surface of claim 11, further comprising a mechanical actuator in fluid communication with an interior region formed by the covering and a support structure to which the energy absorbing assembly is attached, wherein the mechanical actuator is adapted to inflate the interior region and expand the flexible covering.15. The interior vehicle surface of claim 14, wherein the mechanical actuator comprises a pyrotechnic device, a piezoelectric device, or an accumulator inflator.16. A vehicle component, comprising:a support structure; and an energy absorbing assembly attached to the support structure, wherein the energy absorbing assembly comprises a shape memory material in operative communication with a covering, wherein the shape memory material has a first shape attached to an underside of the covering and is operative to change to a second shape in response to an activation signal and revert back to the first shape upon discontinuation of the activation signal. 17. The vehicle component of claim 16, further comprising a sensor in operative communication with the energy absorbing assembly, wherein the sensor is adapted to transmit sensor signals indicative of at least one vehicle condition; a controller operatively connected to the sensor and adapted to receive the sensor signals; and an activation device operatively connected to the controller, wherein the controller is programmed and configured to cause the activation device to provide an activation signal to the shape memory material when the sensor signals indicate a predetermined vehicle condition.18. The vehicle component of claim 16, wherein the shape memory material comprises a shape memory alloy, a shape memory polymer, or a piezoelectric material.19. The vehicle component of claim 16, further comprising a mechanical actuator operatively connected to the cover to selectively inflate the cover to an inflated position from a stowed position, wherein the shape memory material is in a first shape when the cover is in the stowed position and a second shape when the cover is in the inflated position, and wherein the shape memory material is sufficiently connected to the cover to retract the cover to the stowed position after receiving the activation signal.20. A method of operating an energy absorbing assembly, comprising attaching the energy absorbing assembly to a support structure, wherein the energy absorbing assembly comprises a cover and a shape memory material disposed between the support structure and the cover; sensing an impact of an object; providing an activation signal to the shape memory material to cause the cover to expand or expand and detach from a surrounding surface medium, wherein the covering and the expanded shape memory material are adapted to absorb a kinetic energy of the object; and discontinuing the activation signal to revert the shape memory material and cover back to an original position.21. The method of operating the energy absorbing assembly of claim 20, wherein the activation signal comprises a heat signal, an electrical signal, a pneumatic signal, a mechanical activation signal, and combinations comprising at least one of the foregoing signals.22. The method of operating the energy absorbing assembly of claim 20, wherein the shape memory material comprises a shape memory alloy, a shape memory polymer, or a piezoelectric material.23. The method of operating the energy absorbing assembly of claim 20, wherein sensing the impact and providing the first and second activation signal is repeated.24. A method of operating an energy absorbing assembly, comprising: attaching the energy absorbing assembly to a support structure, wherein the energy absorbing assembly comprises a cover, a shape memory material disposed between the support structure and the cover, and an actuator;sensing an impact of an object; providing a first activation signal to the actuator and causing the shape memory material and cover to expand or expand and detach from the support structure, wherein the cover and the shape memory material are adapted to absorb a kinetic energy of the object; and providing a second activation signal to the shape memory material to cause the shape memory material and cover to return to its original position. 25. The method of operating the energy absorbing assembly of claim 24, wherein causing the shape memory material and cover to expand or expand and detach from the support structure comprises inflating cover with a pyrotechnic device or an accumulator.26. The method of operating the energy absorbing assembly of claim 24, wherein causing the shape memory material and cover to expand or expand and detach from the support structure comprises activating a piezoelectric device with an electrical signal.27. The method of operating the energy absorbing assembly of claim 24, wherein sensing the impact and providing the first and second activation signal is repeated.
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