Closure release device

The invention claimed is: 1. A closure release device, comprising: a housing fixedly attached to a closure; an actuating lever rotatably disposed on an axis of rotation on the housing; a crank lever rotatably disposed on the axis of rotation; a coupling member to selectively couple the actuating lever to the crank lever for rotation therewith; a shape memory alloy (SMA) actuator to selectively cause the coupling member to selectively couple the actuating lever to the crank lever wherein the SMA actuator is electrically actuated, and the crank lever is to connect to a latch to selectively release or engage the latch in response to a coupling state of the actuating lever with the crank lever and an actuation state of the actuating lever; an SMA actuator module attachable to the crank lever, the SMA actuator module including an enclosure having the SMA actuator arranged therein; and a seal disposed on the SMA actuator module to seal against the actuating lever wherein the actuating lever presents a constant radius at an interface with the seal to maintain contact between the seal and the actuating lever during movement of the actuating lever, wherein the coupling state has a coupled state corresponding to an unlocked state of the closure, and wherein the coupling state has an uncoupled state corresponding to a locked state of the closure. 2. The closure release device as defined in claim 1 wherein the SMA actuator module includes: a substrate disposed in the enclosure; a rocker pivotally connected to the substrate at a rocker pivot; a lock arm defined by the rocker; an unlock arm defined by the rocker opposite the lock arm wherein the rocker pivot is between the lock arm and the unlock arm; the coupling member defined by the rocker, the coupling member extending perpendicularly from the rocker pivot; a first SMA actuation spring connected to the unlock arm and anchored to the substrate to bias the unlock arm toward an unlocked position corresponding to the coupled state; and a second SMA actuation spring connected to the lock arm and anchored to the substrate to bias the lock arm toward a locked position corresponding to the uncoupled state. 3. The closure release device as defined in claim 2 wherein: the first SMA actuation spring is to increase tension in the first SMA actuation spring when electrically activated to cause the rocker to pivot toward the unlocked position corresponding to the coupled state; and the second SMA actuation spring is to increase tension in the second SMA actuation spring when electrically activated to cause the rocker to pivot toward the locked position corresponding to the uncoupled state. 4. The closure release device as defined in claim 3 wherein: the first SMA actuation spring is antagonistic to the second SMA actuation spring through the rocker; and the first SMA actuation spring and the second SMA actuation spring are to be activated separately and exclusively to alternatively cause i) the first SMA actuation spring in a first activated state to overcome the second SMA actuation spring in a second unactivated state thereby to pivot the rocker to the unlocked position corresponding to the coupled state; or ii) the second SMA actuation spring in a second activated state to overcome the first SMA actuation spring in a first unactivated state thereby to pivot the rocker to the locked position corresponding to the uncoupled state. 5. The closure release device as defined in claim 2 , wherein a hook is defined by the actuating lever, the hook to extend from the axis of rotation to engage with the coupling member when the rocker is in the unlocked position corresponding to the coupled state. 6. The closure release device as defined in claim 5 , further comprising a handle rotatably attached to the housing, the handle to be grasped and pulled wherein: the handle is to rotate to a pulled position in response to a pulling force exerted on the handle; the handle is to return to a released position in an absence of the pulling force on the handle; and the hook has a deflector ramp to deflect the coupling member and prevent the coupling member from preventing the actuating lever from returning to a rest position in the absence of the pulling force on the handle. 7. The closure release device as defined in claim 2 wherein the rocker is bistable in the locked position and the unlocked position. 8. The closure release device as defined in claim 2 wherein: a bow spring is connected to the rocker at an edge attachment point of the rocker; the edge attachment point is located on an edge of the rocker where the edge intersects a line perpendicular to the rocker and through the rocker pivot; the bow spring is anchored on the substrate; and the bow spring causes the rocker to be bistable in the locked position and the unlocked position. 9. A vehicle tailgate, comprising: a tailgate release device mounted on the vehicle tailgate, including: a housing fixedly attached to a vehicle tailgate; an actuating lever rotatably disposed on an axis of rotation on the housing; a crank lever rotatably disposed on the axis of rotation; a coupling member to selectively couple the actuating lever to the crank lever for rotation therewith; and a shape memory alloy (SMA) actuator to selectively cause the coupling member to selectively couple the actuating lever to the crank lever, wherein: the SMA actuator is electrically actuated, and the crank lever is to connect to a latch to selectively release or engage the latch in response to a coupling state of the actuating lever with the crank lever and an actuation state of the actuating lever; the coupling state has a coupled state corresponding to an unlocked state of the vehicle tailgate; and the coupling state has an uncoupled state corresponding to a locked state of the vehicle tailgate; an SMA actuator module attachable to the crank lever, the SMA actuator module including an enclosure having the SMA actuator arranged therein; and a seal disposed on the SMA actuator module to seal against the actuating lever wherein the actuating lever presents a constant radius at an interface with the seal to maintain contact between the seal and the actuating lever during movement of the actuating lever. 10. The vehicle tailgate as defined in claim 9 wherein the SMA actuator module includes: a substrate disposed in the enclosure; a rocker pivotally connected to the substrate at a rocker pivot; a lock arm defined by the rocker; an unlock arm defined by the rocker opposite the lock arm wherein the rocker pivot is between the lock arm and the unlock arm; the coupling member defined by the rocker, the coupling member extending perpendicularly from the rocker pivot; a first SMA actuation spring connected to the unlock arm and anchored to the substrate to bias the unlock arm toward an unlocked position corresponding to the coupled state; and a second SMA actuation spring connected to the lock arm and anchored to the substrate to bias the lock arm toward a locked position corresponding to the uncoupled state. 11. The vehicle tailgate as defined in claim 10 wherein: the first SMA actuation spring is to increase tension in the first SMA actuation spring when electrically activated to cause the rocker to pivot toward the unlocked position corresponding to the coupled state; and the second SMA actuation spring is to increase tension in the second SMA actuation spring when electrically activated to cause the rocker to pivot toward the locked position corresponding to the uncoupled state. 12. The vehicle tailgate as defined in claim 11 wherein: the first SMA actuation spring is antago