Shape memory alloy actuators with sensible coatings
First Claim
1. A method of modifying an actuator comprising a temperature-responsive, length-changing linear shape memory alloy element so that a change in element length may be detected and used for detection of movement of the actuator in an article of manufacture in which it is to be employed, the method comprising:
- forming a sensible, spatially varying, coating on a selected surface region, or on a plurality of selected surface regions, along the length of the linear shape memory alloy element, the coating embodying at least one spatially varying attribute, adapted to be sensed by one or more compatible magnetic, capacitive, resistive, and optical sensor(s), positioned proximate the element adjacent a predetermined location on the element to detect the spatially varying coating attribute on the selected surface region, or, on the plurality of selected surface regions of the element and generate a signal representative of a change in length of the linear shape memory alloy element and indicative of movement of the actuator in the article of manufacture.
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Accused Products
Abstract
Methods of applying sensible coatings with at least one spatially-varying characteristic to shape memory alloy actuators, particularly actuators comprising linear elements such as wires strips or cables, are disclosed. Such coatings enable the positions of the linear shape memory alloy elements to be sensed using magnetic, capacitive and optical sensors and so, in conjunction with a controller, enable operation of such actuators under proportional control.
15 Citations
20 Claims
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1. A method of modifying an actuator comprising a temperature-responsive, length-changing linear shape memory alloy element so that a change in element length may be detected and used for detection of movement of the actuator in an article of manufacture in which it is to be employed, the method comprising:
forming a sensible, spatially varying, coating on a selected surface region, or on a plurality of selected surface regions, along the length of the linear shape memory alloy element, the coating embodying at least one spatially varying attribute, adapted to be sensed by one or more compatible magnetic, capacitive, resistive, and optical sensor(s), positioned proximate the element adjacent a predetermined location on the element to detect the spatially varying coating attribute on the selected surface region, or, on the plurality of selected surface regions of the element and generate a signal representative of a change in length of the linear shape memory alloy element and indicative of movement of the actuator in the article of manufacture. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of controlling the position of a device in an article of manufacture comprising a compatible sensor, the device being operatively connected to an actuator comprising shape memory alloy wire adapted to undergo change in length under change in temperature, the wire being modified with a sensible, spatially varying coating of a composition, the coating being variable along the length of the wire and having at least one spatially varying attribute adapted to be sensed by the compatible sensor to generate a signal indicative of any change of length of the wire, the sensible spatially varying coating being formed on at least a portion of the wire surface so that the compatible sensor, fixedly positioned at a predetermined location proximate the shape memory alloy wire to detect the spatially varying coating attribute, provides the signal indicative of the change of length of the wire and so of the movement of the actuator and the device, the method comprising:
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changing the shape memory alloy wire temperature and sensing the change in length of the shape memory alloy wire by using the compatible sensor to sense the wire sensible coating; relating the change in length of the wire to the device position; and adjusting the shape memory alloy wire temperature to achieve a preferred device position. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A system for controlling the position of a substantially reversibly deployable device in an article of manufacture, the system comprising:
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a temperature-responsive, length-changing, linear shape memory alloy element as an actuator, the element comprising a formed sensible coating layer on a selected surface region of the element, the coating being variable along the length of the element and of a composition that is formed on the selected surface region so as to provide at least one detectable attribute adapted to be sensed by a fixedly-located, non-contacting, compatible sensor suitably positioned to sense the sensible coating layer and generate an output signal representative of a change in length of the linear shape memory alloy element and indicative of movement of the deployable device; the shape memory alloy element being fixedly attached at one end and attached to the deployable device at a second end; the compatible sensor, positioned proximate to, but not contacting, the element adjacent a predetermined location on the element suitable for sensing the detectable attribute in the formed sensible coating layer and providing the output signal; a power supply for supplying electrical power to the shape memory alloy element to enable resistance heating of the shape memory alloy element; a controller configured to interpret the sensor output signal to determine the element length and for relating the sensed element length to the deployable device position, and for adjusting the current supplied to the shape memory alloy element by the power supply, to achieve predetermined positioning of the deployable device. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification