Brake torque control

We claim: 1. A brake device, comprising: a brake element configured to apply a braking force to resist rotation of an associated component; a mounting member configured to mount the brake device to a stationary surface, the mounting member being at least partially moveable relative to the stationary surface in a first direction responsive to a torque on the brake device during an application of the braking force; and a sensor that provides an indication of a force associated with any movement of the mounting member relative to the stationary surface in the first direction responsive to the torque, the sensor does not absorb a load on the brake element as the braking force is applied. 2. The device of claim 1 , wherein the sensor comprises a first sensing element that provides an indication of a force associated with movement of the mounting member relative to the stationary surface in the first direction and a second sensing element that provides an indication of a force associated with movement of the mounting member relative to the stationary surface in a second, opposite direction. 3. The device of claim 2 , comprising a torque module that determines when the force indicated by either of the sensing elements exceeds a selected threshold. 4. The device of claim 3 , wherein the torque module determines when a torque on the brake device is in an acceptable range based on the indications from the first and second sensing elements and provides an output indicating when the torque on the brake device is outside of the acceptable range. 5. The device of claim 1 , wherein the mounting member comprises an at least partially resilient bushing configured to be situated where the mounting member is secured to the stationary surface, the at least partially resilient bushing at least partially deflecting responsive to the torque on the brake element. 6. The device of claim 5 , wherein the bushing comprises a resilient o-ring. 7. The device of claim 1 , wherein the sensor comprises at least one of a force resistive sensor or a piezo-resistive sensor. 8. An elevator machine, comprising: a frame; a motor supported at least partially by the frame; a traction sheave that is selectively moveable by the motor; a brake element that selectively resists rotation of the traction sheave; a mounting member mounted to the frame such that the mounting member is partially moveable relative to the frame responsive to torque on the brake element resulting from the brake element resisting rotation of the traction sheave; at least one securing member that secures the mounting member to the frame; and a sensor that provides an indication of a force associated with movement of the mounting member relative to the frame, wherein the sensor is distinct from the securing member and the sensor does not absorb load on the traction sheave or the brake element as the brake element resists rotation of the traction sheave. 9. The elevator machine of claim 8 , comprising a torque module that determines whether a torque on the brake element is within a selected range based on the indication from the sensor. 10. The elevator machine of claim 9 , wherein the sensor comprises a first sensing element that provides an indication of a force associated with movement of the mounting member relative to the frame in a first direction and a second sensing element that provides an indication of a force associated with movement of the mounting member relative to the frame in a second, opposite direction; and the torque module determines when the force indicated by either of the sensing elements exceeds a selected threshold. 11. The elevator machine of claim 10 , wherein the torque module determines when a torque on the brake element is in an acceptable range based on the indications from the first and second sensing elements and provides an output indicating when the torque on the brake element is outside of the acceptable range. 12. The elevator machine of claim 10 , wherein the frame comprises a reaction surface against which the sensing elements are biased responsive to the torque on the mounting member. 13. The elevator machine of claim 9 , comprising a motor control that adjusts a torque provided by the motor responsive to the output of the torque module for relieving a corresponding torque on the brake element. 14. The elevator machine of claim 9 , wherein the torque module output comprises an indication of a dragging brake during desired movement of the traction sheave. 15. The elevator machine of claim 8 , wherein the mounting member comprises an at least partially resilient bushing configured to be situated where the mounting member is secured to the frame, the at least partially resilient bushing at least partially deflecting responsive to the torque on the brake element. 16. The elevator machine of claim 15 , wherein the bushing comprises a resilient o-ring. 17. The elevator machine of claim 8 , wherein the sensor comprises at least one of a force resistive sensor or a piezo-resistive sensor. 18. A method of monitoring a brake, comprising the steps of: using at least one sensor for detecting a force that causes a brake mounting member to move relative to an associated stationary surface without using the sensor for absorbing a load associated with the force; determining if the detected force is within a range corresponding to an acceptable amount of torque on the brake; and providing an indication of at least whether the force is outside of the range. 19. The method of claim 18 , comprising detecting the force in a first direction when an associated elevator car is stopped; providing a counteracting force in a second, opposite direction until the force in the first direction is within the range; and releasing the brake while the detected force is in the range. 20. The method of claim 19 , comprising determining an operative condition of an associated motor when the force is in the range; and placing the motor into the operative condition prior to releasing the brake. 21. The method of claim 19 , comprising determining a first motor current corresponding to the counteracting force that results in the force in the first direction transitioning into the range; providing further counteracting force in the second direction until an amount of force in the second direction is outside of the range; determining a second motor current corresponding to the force in the second direction transitioning outside of the range; determining an average current of the first motor current and the second motor current; and providing the average current to a motor associated with the machine brake at a time of releasing the brake. 22. The method of claim 18 , comprising providing an indication of a dragging brake responsive to detecting the force when an elevator car associated with the brake is moving and the brake is supposed to be disengaged.