Patent application number | Description | Published |
20090065994 | Reconfigurable Clamp and Method of Use Thereof - A reconfigurable clamp is provided, where the clamp includes: a clamp body including a plurality of through holes formed within the clamp body; a plurality of movable pins which slidably fit within the through holes in the clamp body; wherein the movable pins incorporate a tapered section to facilitate locking of the movable pins; and wherein the clamp is reconfigurable by movement of the pins to conform to a surface geometry of an object of arbitrary shape through contact with that object. The clamped surface is represented as a series of discrete points corresponding to the ends of the plurality of pins. | 03-12-2009 |
20090173305 | ACTIVE AIR VENT UTILIZING SMART MATERIAL ACTUATION - An active air intake adapted for selectively regulating fluid flow into an engine generally includes a housing defining an opening, a covering member disposed relative to the opening and translatable between opened and closed conditions, an actuator including an active material element operable to effect movement of the member, a load limit protector configured to present a secondary output path for the element, an overheat protection mechanism for preventing unintentional activation and stress loads in the element, a biasing mechanism for returning the member to the original condition, and a latching mechanism for retaining the member in the closed condition. | 07-09-2009 |
20090277169 | OVERHEATING PROTECTION FOR SHAPE MEMORY ALLOY ACTUATORS - An overheating protection system adapted for use with a shape memory alloy actuator element, includes at least one switching shape memory alloy element presenting a slower activation period than that of the actuator element, and configured to selectively prevent activation of the actuator element, when the actuator element is actually or predicted to be experiencing overheating; and a circuit comprising the system, wherein the switching element and/or a circuit implement functions to modify activation of the actuator element. | 11-12-2009 |
20090277170 | CONTROLLING HEAT TRANSFER IN ACTIVE MATERIAL ACTUATORS USING EXTERNAL ELEMENTS - An actuator includes a thermally activated active material member, and an external element configured to selectively engage the member and presenting a predetermined rate of thermal conductivity configured to transfer heat energy to and/or from the member, so as to reduce the actuation period or rate of cooling after actuation, when engaged. | 11-12-2009 |
20100164160 | Method for Error-Proofing a Reconfigurable Clamp - A method for error-proofing clamping operation performed with a reconfigurable clamp having a body, a locking member, a plurality of moveable pins for contacting an object, and a plunger is provided. The method includes applying a force to the plunger and sensing whether the plunger achieves a fully-depressed position, and releasing the force to the plunger and sensing whether the plunger achieves a fully-extended position. The method may additionally include applying the force to the plunger, contacting the object with the plurality of pins and sensing whether the clamp body achieves a predetermined position relative to a clamping device. | 07-01-2010 |
20100236236 | ACCELERATING COOLING IN ACTIVE MATERIAL ACTUATORS USING HEAT SINKS - An actuator includes a thermally activated active material element, such as at least one shape memory alloy wire, and a heat sink configured to operatively engage the element and accelerate cooling after activation, so as to improve bandwidth. | 09-23-2010 |
20100326070 | ACTUATOR SYSTEM INCLUDING AN ACTIVE MATERIAL - A linear actuator associated with an actuator system for a device includes a wire cable fabricated from an active material. The linear actuator couples to the device and to the moveable element. The active material induces strain in the linear actuator in response to an activation signal. The linear actuator translates the moveable element relative to the device in response to the induced strain. An activation controller electrically connects to the linear actuator and generates the activation signal. A position feedback sensor monitors a position of the moveable element. | 12-30-2010 |
20110101590 | RECONFIGURABLE FIXTURE DEVICE AND METHODS OF USE - A reconfigurable fixture device system, including: a base member; a reconfigurable pad disposed on the base member, wherein the reconfigurable pad comprises a shape memory material configured to selectively conform to a surface contour of a workpiece; an activation device in operative communication with the shape memory material; a controller in operable communication with at least one of the reconfigurable pad, the activation device, and the base member; a plurality of sensors for sensing a parameter associated with at least one of the reconfigurable pad, the base member, the fixture device, and the workpiece, wherein the plurality of sensors is in operable communication with the controller; and an actuator in operable communication with the controller and the at least one of the reconfigurable pad, the base member, the fixture device, and the workpiece. | 05-05-2011 |
20110247779 | FLEXIBLE DRIVE ELEMENT FOR AN ANGLED ACTIVE SHUTTER - A shutter system includes a first louver element having a first pivot axis and a second louver element having a second pivot axis. The first louver element is configured to rotate about the first pivot axis, and the second louver element is configured to rotate about the second pivot axis. The shutter system additionally having a flexible drive element connecting the first louver element and the second louver element to thereby substantially synchronize the rotation of the first and second louver elements. | 10-13-2011 |
20120174573 | MULTI-SEGMENTED ACTIVE MATERIAL ACTUATOR - A multi-segmented active material actuator producing a variable, tailored, or staged/staggered stroke in response to an activation signal, including a plurality of segments joined in series, having differing constituencies and geometric configurations, and presenting differing activation thresholds, activation periods/rates, and/or strokes as a result. | 07-12-2012 |
20120198835 | ACTIVE MATERIAL WIRE ACTUATORS HAVING REINFORCED STRUCTURAL CONNECTORS - An assembly for and method of reinforcing interconnection between an active material wire actuator, such as a shape memory alloy wire, and structure, includes the generation and engagement of an enlarged formation affixed to or integrally formed with the actuator. | 08-09-2012 |
20120216522 | ENERGY HARVESTING SYSTEM - An energy harvesting system for converting thermal energy to mechanical energy includes a heat engine that operates using a shape memory alloy active material. The shape memory alloy member may be in thermal communication with a hot region at a first temperature and a cold region at a second temperature lower than the first temperature. The shape memory alloy material may be configured to selectively change crystallographic phase between martensite to austenite and thereby one of contract and expand in response to the first and second temperatures. A thermal conduction element may be in direct contact with the SMA material, where the thermal conduction element is configured to receive thermal energy from the hot region and to transfer a portion of the received thermal energy to the SMA material through conduction. | 08-30-2012 |
20120216523 | ENERGY HARVESTING SYSTEM - An energy harvesting system for converting thermal energy to mechanical energy includes a heat engine that operates using a shape memory alloy active material. The shape memory alloy member may be in thermal communication with a hot region at a first temperature and a cold region at a second temperature lower than the first temperature. The shape memory alloy material may be configured to selectively change crystallographic phase between martensite to austenite and thereby one of contract and expand in response to the first and second temperatures. A driven component, such as an electric generator, may be selectively coupled with the heat engine through a coupling device, which may be controlled via a controller. | 08-30-2012 |
20120216525 | METHOD OF STARTING AND OPERATING A SHAPE MEMORY ALLOY HEAT ENGINE - A shape memory alloy (SMA) heat engine includes a first rotatable pulley, a second rotatable pulley, and an SMA material disposed about the first and second rotatable pulleys and between a hot region and a cold region. A method of starting and operating the SMA heat engine includes detecting a thermal energy gradient between the hot region and the cold region using a controller, decoupling an electrical generator from one of the first and second rotatable pulleys, monitoring a speed of the SMA material about the first and second rotatable pulleys, and re-engaging the driven component if the monitored speed of the SMA material exceeds a threshold. The SMA material may selectively change crystallographic phase between martensite and austenite and between the hot region and the cold region to convert the thermal gradient into mechanical energy. | 08-30-2012 |
20120216526 | SHAPE MEMORY ALLOY HEAT ENGINES AND ENERGY HARVESTING SYSTEMS - An energy harvesting system in thermal communication with a hot region and a cold region includes a hot end heat engine in thermal communication with the hot region, a cold end heat engine in thermal communication with the cold region, and an intermediate heat engine disposed between the hot end heat engine and the cold end heat engine. The hot end heat engine includes a hot end shape memory alloy (SMA) element, the cold end heat engine includes a cold end SMA element disposed, and the intermediate heat engine includes an intermediate SMA element. A hot side of the intermediate SMA element is in thermal communication with a cold side of the hot end SMA element. A cold side of the intermediate SMA element is in thermal communication with a hot side of the cold end SMA element. | 08-30-2012 |
20120239183 | MULTI-STAGE ACTUATION FOR AN ACTIVE MATERIALS-BASED ACTUATOR - A mechanical system for selectively moving a load a motive distance comprises an actuator operable for applying a force to the load. The actuator includes an active material element having a variable property. A controller is connected to the actuator and operable for sending a first stimulus to the actuator to shift the actuator from a first state to a second state. The second state is associated with detecting the onset of actuation for the actuator. The controller is operable to send the priming stimulus level to the actuator to shift it to the primed state. The actuator includes a priming device operable for determining the onset of actuation of the first active material element. | 09-20-2012 |
20120267928 | USING RESTING LOAD TO AUGMENT ACTIVE MATERIAL ACTUATOR DEMAND IN POWER SEATS - A power seat adjustment assembly comprising an active material actuator, adapted for use when a resting load is present within the seat, and configured to reduce actuator demand, and therefore actuator size and/or rating, by modifying the load to augment performance. | 10-25-2012 |
20120297763 | QUICK-RETURN ACTIVE MATERIAL ACTUATOR - A quick-return active material actuator adapted for more rapidly returning a load, so as to reduce the de-actuation time of a system, includes in a first aspect a thermally activated active material actuation element drivenly coupled to the load, an active material de-actuation element drivenly coupled to the load non-antagonistic to the actuation element, and a reconfigurable mechanism interconnecting the elements and load, wherein the de-actuation element and mechanism are cooperatively configured to return the load while the actuation element is still activated, and, in a second aspect a thermally activated active material actuation element drivenly coupled to a biased load and operable to autonomously release, so that the load is caused to be returned while the actuation element is still activated, and subsequently re-engage the load. | 11-29-2012 |
20130000776 | SHAPE MEMORY ALLOY-BASED DEVICE FOR CONTROLLING OR MONITORING PRESSURE IN A SYSTEM - A device is provided that may be adapted to control or monitor the pressure level of a fluid system. The device includes a member composed of a shape memory alloy in a superelastic state. The member is configured to undergo a phase change from a high modulus Austenitic phase to a low modulus Martensitic phase and stretch in response to an activation stress. In one embodiment, the member defines two ends such that one end of the member is operatively connected to a fixed point. Another end of the member is operatively connected to a movable element. As the member stretches in response to the activation stress, the movable element is translated relative to the fixed point. In another embodiment, the member includes two plates with respective holes that are selectively aligned when the first and second plates stretch or deform in response to the activation stress. | 01-03-2013 |
20140026679 | MECHANICAL OVERLOAD PROTECTION UTILIZING SUPERELASTIC SHAPE MEMORY ALLOY ACTUATION - An actuation assembly adapted for driving a load, and protecting against overload conditions, includes an actuator defining a stroke, and a resistive member, such as a superelastic shape memory alloy spring, drivenly coupled to the actuator, so as to be displaced over the stroke when an overload condition exists, and defining a non-linear force versus displacement profile. | 01-30-2014 |
20140211826 | VEHICLE SENSOR SYSTEM - A sensor system includes a housing defining a cavity, an actuator formed from an alloy transitionable between first and second states, a plunger attached to the actuator, and a resilient member configured for translating the plunger within the cavity. The plunger is not translatable during a first condition in which a coating of debris is disposed on the housing as the alloy transitions between the first and second states to define a first stress on the actuator. The plunger is translatable during a second condition in which the housing is substantially free from the coating as the alloy transitions to define a second stress on the actuator that is less than the first stress. The alloy transitions from the first to the second state at a first transformation temperature during the first condition, and at a second transformation temperature that is less than the first temperature during the second condition. | 07-31-2014 |
20140230572 | ACTIVE MATERIAL ACTUATION UTILIZING BI-STABLE MECHANICAL OVERLOAD PROTECTION - An actuation assembly adapted for driving a load, and protecting against overload conditions, includes an actuator defining a stroke, and an overload protection device including at least one elastic member having a nonlinear force-deflection characteristic defining a limit point and negative stiffness region, drivenly coupled to the actuator opposite the load, and operable to provide a secondary work output path when an overload condition exists. | 08-21-2014 |
20140262644 | POWERED VEHICLE BRAKE COOLING SYSTEM - An inlet, positioned to access the flow of air passing around and under a moving vehicle, may draw in air which is conveyed through a duct and discharged to cool a brake on a vehicle. The inlet has a closure. The closure is opened and closed on demand by a temperature-operated actuator incorporating an active or smart material under the direction of a controller. In embodiments, a sensor, suitably positioned to sense a temperature representative of the brake temperature, communicates the sensed brake temperature to the controller. The controller may respond to the sensed brake temperature, by triggering operation of the actuator. Typically the closure is opened to allow passage of cooling air to the brake when the sensed brake temperature exceeds, or is anticipated to exceed, a predetermined temperature. | 09-18-2014 |