Linear actuator using shape memory wire with controller
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01B-029/10
F01B-029/00
출원번호
UP-0659406
(2003-09-10)
등록번호
US-7555900
(2009-07-15)
발명자
/ 주소
Vallance, Robert Ryan
Walcott, Bruce L.
Lumpp, James E.
Balasubramanian, Aravind
Rawashdeh, Osamah A.
출원인 / 주소
The University of Kentucky Research Foundation
대리인 / 주소
King & Schickli, PLLC
인용정보
피인용 횟수 :
12인용 특허 :
10
초록▼
A linear actuator is provided, comprising a housing defining an interior channel, a stop extending from the housing and displaceable relative to the housing, and at least one wire formed of a shape-memory alloy, the wire being attached at a first end to the stop and at a second end to the housing.
A linear actuator is provided, comprising a housing defining an interior channel, a stop extending from the housing and displaceable relative to the housing, and at least one wire formed of a shape-memory alloy, the wire being attached at a first end to the stop and at a second end to the housing. When heated to a predetermined temperature, the wire applies a pulling force to the stop to cause the stop to slide in a first direction into the housing interior channel. A spring located in the housing interior channel applies a biasing force to the stop in a second direction counter to the first direction when the wire cools, thereby returning the stop to the unactuated position. A wire heater is provided, which may be an electrical source for resistive heating of the wire. Multiple actuators of the present invention may be configured in parallel to increase the force generated by the wires. In yet another embodiment the actuators of the invention may be arranged in a serial configuration for controlling a rotary or carousel dispenser.
대표청구항▼
What is claimed is: 1. A linear actuator, comprising: a housing; a stop displaceable on a linear axis with respect to the housing; at least one wire formed of a shape-memory alloy, said wire attached at a first end to the stop and at a second end to the housing for applying a pulling force to the s
What is claimed is: 1. A linear actuator, comprising: a housing; a stop displaceable on a linear axis with respect to the housing; at least one wire formed of a shape-memory alloy, said wire attached at a first end to the stop and at a second end to the housing for applying a pulling force to the stop when heated to a predetermined temperature to cause the stop to slide in a first direction into a housing interior channel; a spring applying a biasing force to the stop in a second direction counter to the first direction; at least one jewel bearing defining a channel therethrough for slidingly receiving the wire and reducing frictional contact between the wire and the housing; and a wire heater. 2. The actuator of claim 1, wherein the housing further includes at least one curved wire guide. 3. The actuator of claim 1, wherein the jewel bearing is fabricated from any of the group consisting of ruby, sapphire, spinel, cubic zirconia, diamond, and any combination thereof. 4. The actuator of claim 1, further including a cylindrical shaft extending from the stop into the housing interior channel, the shaft defining a hollow interior adapted to receive the wire therethrough. 5. The actuator of claim 4, wherein the shaft is fabricated from any of the group of materials consisting of stainless steel, aluminum, magnesium, titanium, carbon steel, copper, nickel, carbon-fiber composite, and any combination thereof. 6. The actuator of claim 1, wherein the wire is fabricated from any of the group of shape memory alloys consisting of nickel-titanium, silver-cadmium, gold-cadmium, copper-aluminum-nickel, copper-tin, copper-zinc, copper-zinc-tin, copper-zinc-aluminum, copper-zinc-silica, indium-titanium, nickel-aluminum, iron-platinum, manganese-copper, iron-manganese-silica, and any combination thereof. 7. The actuator of claim 1, wherein the means for heating the wire is an electrical source for applying an electrical current to the wire. 8. The actuator of claim 1, wherein the housing includes cooperating slots and protrusions on an exterior surface thereof for connecting at least two actuators in parallel or in series. 9. An actuating device comprising: at least two linear actuators configured in a parallel orientation, wherein each actuator includes a housing having cooperating slots and protrusions on an exterior surface thereof for connecting the actuators, a stop displaceable on a linear axis with respect to the housing, at least one wire formed of a shape-memory alloy attached at a first end to the stop and at a second end to the housing for applying a pulling force to the stop when heated to a predetermined temperature to cause the stop to slide in a first direction into a housing interior channel, at least one jewel bearing defining a channel therethrough for slidingly receiving the wire and reducing frictional contact between the wire and the housing, and a spring applying a biasing force to the stop in a second direction counter to the first direction; a plate adapted for concurrently attaching to each actuator stop; and an electrical source for applying an electrical current to the wire of each actuator to cause the wire to heat to a predetermined temperature. 10. The actuating device of claim 9, wherein each actuator housing further includes at least one curved wire guide. 11. The actuating device of claim 9, wherein the jewel bearing is fabricated from any of the group consisting of ruby, sapphire, spinel, cubic zirconia, diamond, and any combination thereof. 12. The actuating device of claim 9, further including a cylindrical shaft extending from the stop into the housing interior channel, the shaft defining a hollow interior adapted to receive the wire therethrough. 13. The actuating device of claim 12, wherein the shaft is fabricated from any of the group of materials consisting of stainless steel, aluminum, magnesium, titanium, carbon steel, copper, nickel, carbon-fiber composite, and any combination thereof. 14. The actuating device of claim 9, wherein the wire is fabricated from any of the group of shape memory alloys consisting of nickel-titanium, silver-cadmium, gold-cadmium, copper-aluminum-nickel, copper-tin, copper-zinc, copper-zinc-tin, copper-zinc-aluminum, copper-zinc-silica, indium-titanium, nickel-aluminum, iron-platinum, manganese-copper, iron-manganese-silica, and any combination thereof. 15. An actuating device comprising: at least two linear actuators configured in a serial orientation, wherein each actuator includes a housing defining an interior channel, a stop displaceable on a linear axis with respect to the housing, at least one wire formed of a shape-memory alloy attached at a first end to the stop and at a second end to the housing for applying a pulling force to the stop when heated to a predetermined temperature to cause the stop to slide in a first direction into the housing interior channel, at least one jewel bearing defining a channel therethrough for slidingly receiving the wire and reducing frictional contact between the wire and the housing and a spring applying a biasing force to the stop in a second direction counter to the first direction; an electrical source for applying an electrical current to heat the wire of each actuator to a predetermined temperature; and a controller for causing the electrical source to apply current to predetermined individual applicator wires at predetermined timed intervals. 16. The actuating device of claim 15, wherein each actuator housing further includes at least one curved wire guide. 17. The actuating device of claim 15, wherein the jewel bearing is fabricated from any of the group consisting of ruby, sapphire, spinel, cubic zirconia, diamond, and any combination thereof. 18. The actuating device of claim 15, further including a cylindrical shaft extending from the stop into the housing interior channel, the shaft defining a hollow interior adapted to receive the wire therethrough. 19. The actuating device of claim 18, wherein the shaft is fabricated from any of the group of materials consisting of stainless steel, aluminum, magnesium, titanium, carbon steel, copper, nickel, carbon-fiber composite, and any combination thereof. 20. The actuating device of claim 15, wherein the wire is fabricated from any of the group of shape memory alloys consisting of nickel-titanium, silver-cadmium, gold-cadmium, copper-aluminum-nickel, copper-tin, copper-zinc, copper-zinc-tin, copper-zinc-aluminum, copper-zinc-silica, indium-titanium, nickel-aluminum, iron-platinum, manganese-copper, iron-manganese-silica, and any combination thereof. 21. The actuating device of claim 15, further including a rotary dispenser, the dispenser comprising: a bottom for receiving at least one vial for holding a substance to be dispensed; a dispensing nozzle; a central hub having a plurality of slots for receiving the actuator stops, thereby preventing rotation of the dispenser; means for rotating the dispenser when the stops are withdrawn from the central hub slots; and a top. 22. The actuating device of claim 21, wherein the means for rotating the dispenser is a coiled spring.
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이 특허에 인용된 특허 (10)
Szilagyi,Andrei, Actuator for two angular degrees of freedom.
Whitehead Charles A. (3508 S. Woodridge Rd. Birmingham AL 35223) Groom Kenneth N. (119 Hillcrest Loop Enterprise AL 36330), Hydraulic shape memory material stress to hydraulic pressure transducer.
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