A cable adapted for use as an actuator, adaptive structural member, or damper, includes a plurality of longitudinally inter-engaged and cooperatively functioning shape memory alloy wires.
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1. A cable adapted for use as an actuator, adaptive structural member, or damper, said cable comprising: a plurality of longitudinally inter-engaged and cooperatively functioning wires, wherein at least two of the wires comprise shape memory alloy material operable to undergo a reversible change, wh
1. A cable adapted for use as an actuator, adaptive structural member, or damper, said cable comprising: a plurality of longitudinally inter-engaged and cooperatively functioning wires, wherein at least two of the wires comprise shape memory alloy material operable to undergo a reversible change, when exposed to and/or occluded from an activation signal,wherein a portion of the wires presents a core, the remaining wires are longitudinally engaged to the exterior of the core, and said at least two wires are in the normally martensitic phase, present differing active lengths and are longitudinally engaged to the exterior of the core, so as to generate an actuation force, at differing longitudinal points. 2. The cable as claimed in claim 1, wherein said at least two wires are in the normally martensitic phase and produce an actuating force operable to cause the cable to contract, bend, and/or twist as a result of the change. 3. The cable as claimed in claim 2, wherein a portion of the wires are operable to produce a return force antagonistic to the actuating force. 4. The cable as claimed in claim 1, wherein the wires are elastic and the shape memory alloy material is in a normally austenitic phase, so as to be caused to change when exposed to and/or occluded from a stress activation signal. 5. The cable as claimed in claim 1, wherein said at least two wires present a differing attribute, so as to non-concurrently and/or non-congruently change when exposed to or occluded from the signal. 6. The cable as claimed in claim 5, wherein the differing attribute is selected from the group consisting essentially of differing compositions of shape memory alloy material, differing diameters, and differing pre-strains. 7. The cable as claimed in claim 1, further comprising an inter-wire element longitudinally engaged with, intermediate, and operable to modify interaction between at least a portion of the wires. 8. The cable as claimed in claim 7, wherein the element is selected from the group consisting of a wire surface texture, a spacer, a lubricant, a sheath, and a wire coating. 9. The cable as claimed in claim 7, wherein said at least two wires are in the martensitic phase, and the element is thermally and/or electrically non-conductive, so as to thermally and/or electrically isolate said at least portion. 10. The cable as claimed in claim 1, wherein the core is formed of material selected from the group consisting essentially of Nichrome, rubbers, hard foams, aluminum, copper, plastics, cotton, fiber optic material, and shape memory alloy. 11. The cable as claimed in claim 1, wherein the core is hollow, so as to define an interior space, and the cable further comprises a fluid source communicatively coupled to the space and configured to deliver a heated or cooling fluid into the space, so as to thermally activate said at least two wires when in the martensitic phase, or dissipate heat energy from said at least two wires when in the austenitic phase, respectively. 12. The cable as claimed in claim 1, wherein the core is thermally coupled to a thermoelectric element, and the thermoelectric element is configured to heat and/or cool the core. 13. The cable as claimed in claim 1, wherein at least a portion of the remaining wires are wrapped about the exterior of the core in a first direction, so as to present a helix defining a helix angle, and a first outer strand surface. 14. The cable as claimed in claim 13, wherein a portion of the remaining wires are further wrapped about the first surface in a second direction, so as to present a second helix defining a second helix angle, and the first direction or angle differs respectively from the second direction or angle. 15. A smart cable actuator comprising: a cable formed of a plurality of longitudinally inter-engaged and cooperatively functioning wires, wherein at least two of the wires comprise shape memory alloy material that present differing active lengths so as to generate an actuation force at differing longitudinal points and are operable to undergo a reversible change when exposed to and/or occluded from an activation signal; at least one sensor operable to detect one or more condition; and a controller communicatively coupled to said at least one sensor and cable, and configured to cause and/or control the extent of the change when the condition is detected, wherein the controller is individually coupled to, so as to separate cause, each of said at least two wires to change. 16. The actuator as claimed in claim 15, wherein the sensor is selected from the group consisting essentially of a strain, temperature, displacement, electrical resistance, current, voltage, or force gauge. 17. The actuator as claimed in claim 15, wherein the cable and sensor are integrally formed.
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이 특허에 인용된 특허 (6)
Butera, Francesco; Biasiotto, Marco; Alacqua, Stefano, Actuator device with a flexible cable incorporating a shape-memory element.
Rey,Nancy M.; Miller,Robin M.; Tillman,Thomas G.; Rukus,Robert M.; Kettle,John L., Variable area nozzle for gas turbine engines driven by shape memory alloy actuators.
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