[특허]Active material based lockout mechanisms

[미국특허] Active material based lockout mechanisms 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	H01H-001/10 H01H-001/06
출원번호	US-0357916 (2006-02-17)
등록번호	US-7332688 (2008-02-19)
발명자 / 주소	Browne,Alan L. Johnson,Nancy L. Leslie,Michael R.
출원인 / 주소	GM Global Technology Operations, Inc.
인용정보	피인용 횟수 : 25 인용 특허 : 3

초록 ▼

Control mechanisms and methods of use include the use of active materials as a blocking element. The control mechanisms generally include a tactile control in operative communication with an electrical circuit, wherein actuation of the tactile control closes the electrical circuit to activate a function. The blocking element includes an active material that is intermediate to the electrical circuit and the tactile control. The active material is adapted to change at least one attribute such as a modulus property in response to an activation signal. The change in the at least one attribute selectively changes a force level for actuating the tactile control.

대표청구항 ▼

The invention claimed is: 1. A control mechanism, comprising: a first electrical contact; a second electrical contact; a control member, wherein actuation of the control member causes the first and second electrical contacts to contact one another; a blocking element comprising an active material sufficiently mounted with respect to the control member to selectively resist actuation of the control member, wherein the active material is adapted to change at least one attribute in response to an activation signal; an activation device in operative communication with the active material adapted to provide the activation signal, wherein the change in the at least one attribute changes a modulus property of the blocking element and changes a force level for actuating the control member; and a controller in operative communication with the activation device and configured to selectively cause the activation device to transmit the activation signal to the active material. 2. The control mechanism of claim 1, wherein the active material comprises a shape memory polymer, a shape memory alloy, a magnetic shape memory alloy, an electroactive polymer, a magnetorheological elastomer, a magnetorheological fluid, an electrorheological fluid, electrorheological elastomer, an ionic polymer metal composite, a piezoelectric, or a combination comprising at least one of the foregoing active materials. 3. The control mechanism of claim 1, wherein the blocking element is a membrane formed of the active material. 4. The control mechanism of claim 1, wherein the blocking element is a spring formed of the active material. 5. The control mechanism of claim 1, wherein the change in the force level for actuating the control member decreases upon receipt of the activation signal. 6. The control mechanism of claim 1, wherein the control member is one of a depressible button, a toggle, a knob, a switch, a latch, and combinations thereof. 7. The control mechanism of claim 1, wherein the activation signal is a selected one of a thermal signal, an electrical signal, a magnetic signal, a mechanical signal, a chemical signal, and a combination comprising at least one of the foregoing signals. 8. The control mechanism of claim 1, wherein the change in the at least one attribute is reversible. 9. The control mechanism of claim 1, wherein the modulus property of the blocking element in an unpowered state is effective to prevent actuation of the control member up to a predetermined forced level. 10. The control mechanism of claim 1, wherein the control member is disposed in a vehicle for controlling the function. 11. The control mechanism of claim 1, wherein the blocking element defines a linkage between the tactile control and the electrical circuit. 12. A process for selectively adjusting a force level for a control member in operative communication with an electrical circuit, wherein actuation of the control member closes the electrical circuit to activate a function, the process comprising: selectively changing a modulus property of a blocking element by applying an activation signal, wherein the blocking element comprises an active material operatively connected to the control member to selectively resist the actuation of the control member, wherein the active material is adapted to change the modulus property in response to the activation signal. 13. The process of claim 12, wherein the active material comprises a shape memory polymer, a shape memory alloy, a magnetic shape memory alloy, an electroactive polymer, a magnetorheological elastomer, a magnetorheological fluid, an electrorheological fluid, electrorheological elastomer, an ionic polymer metal composite, a piezoelectric, or a combination comprising at least one of the foregoing active materials. 14. The process of claim 12, wherein changing the modulus property actuates the control member. 15. The process of claim 12, wherein changing the modulus property does not actuate the control member. 16. The process of claim 12, wherein selectively changing the modulus property of the active material is reversible. 17. The process of claim 12, wherein the modulus property of the blocking element in an unpowered state is effective to prevent actuation of the control member up to a predetermined forced level. 18. The process of claim 12, wherein actuating the control member performs a vehicle function. 19. The process of claim 12, wherein the blocking element exhibits a fail-safe mode, wherein the fail-safe mode passively changes the modulus property. 20. The process of claim 12, wherein the modulus property of the blocking element in an unpowered state is effective to prevent actuation of the control member. 21. The process of claim 12, wherein lowering the modulus property of the blocking element does not actuate the control member.

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이 특허를 인용한 특허 (25) 인용/피인용 타임라인 분석

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Lipton, Michael G.; Polyakov, Ilya; Zarrabi, Alireza; Hui, Otto; Biggs, Silmon James; Kridl, Thomas A.; Russell, Gordon; Heim, Jonathan R.; Hitchcock, Roger; Weaber, Chris A., Method of manufacturing electroactive polymer transducers for sensory feedback applications.
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Havens, David E.; Everhart, Matthew C.; Kysar, Randy Rex; Fiegenbaum, Carl Ray; Priest, Jeffrey W.; Strelow, Delbert Leon; Ford, Kevin John; Pickell, Kristin Dru, Methods and systems for co-bonding or co-curing composite parts using a rigid/malleable SMP apparatus.
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Havens, David E.; Everhart, Matthew C.; Margraf, Thomas Wood; Everhart, Joel James; Kysar, Randy Rex; Fiegenbaum, Carl Ray; Priest, Jeffrey W.; Strelow, Delbert Leon; Pickell, Kristin Dru, Methods and systems for fabricating composite parts using a SMP apparatus as a rigid lay-up tool and bladder.
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Everhart, Matthew C.; Havens, David E.; Everhart, Joel James; Kysar, Randy Rex; Fiegenbaum, Carl Ray; Priest, Jeffrey W.; Ford, Kevin John; Strelow, Delbert Leon, Methods and systems for fabricating composite stiffeners with a rigid/malleable SMP apparatus.
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Everhart, Matthew C.; Havens, David E.; Kysar, Randy Rex; Fiegenbaum, Carl Ray; Priest, Jeffrey W.; Strelow, Delbert Leon; Caster, Kodi Elizabeth Ann, Methods and systems for forming integral composite parts with a SMP apparatus.
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Hitchcock, Roger N.; Kridl, Thomas; Quan, Xina; Yoo, Mikyong; Yuan, Fang, Polymer diode.
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Yamamoto, Takao, Push button switch structure.
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Everhart, Joel James; Margraf, Thomas Wood; Havens, David E., Reconfigurable shape memory polymer support tooling.
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Everhart, Joel James; Havens, David E.; Hanson, Steven Fillmore; Priest, Jeffrey W.; Fiegenbaum, Carl Ray; Barnell, Thomas Joseph, Reconfigurable shape memory polymer tooling supports.
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Everhart, Joel James; Pelley, Bryan Michael; Havens, David E; Hanson, Steven Fillmore; Priest, Jeffrey W.; Fiegenbaum, Carl Ray, Reconfigurable shape memory polymer tooling supports.
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Huelskamp, Scott Robert; Everhart, Joel James; Havens, David E.; Hanson, Steven Fillmore; Priest, Jeffrey W.; Fiegenbaum, Carl Ray; Barnell, Thomas Joseph, Reconfigurable shape memory polymer tooling supports.
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Biggs, Silmon J.; Elsberry, Jeremy; Campbell, Andrew B., Roll-to-roll manufacturing processes for producing self-healing electroactive polymer devices.
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Yoo, Mikyong; Mousavi Nazari, Hooman; Quan, Xina, Stretch frame for stretching process.
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Huang, Fa-Sheng, Trigger switch.
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A	생활필수품
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A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

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[미국특허] Active material based lockout mechanisms 원문보기