Hydraulic-boosted rail brake

What is claimed is: 1. A hydraulic-boosted rail brake for use with an elevator having a guide rail, comprising: a braking plate having friction material, the braking plate being selectively movable relative to the guide rail; a spring package in communication with the braking plate, the spring package biasing the friction material to interact with the guide rail whereby causing braking; a hydraulic cylinder; a piston housed at least partially inside the hydraulic cylinder, the piston being in communication with the braking plate and selectively: (a) movable in a release direction to diminish or overcome force from the spring package; and (b) movable in an engage direction to supplement the force from the spring package; and a brake controller selectively causing the piston to move in the release direction and in the engage direction; wherein the brake controller selectively deactivates the piston such that the force from the spring package is neither overcome nor enhanced by the piston. 2. The rail brake of claim 1 , further comprising a sensor in data communication with the brake controller, the sensor providing the brake controller positional data for the piston. 3. The rail brake of claim 1 , wherein the spring package includes a helical spring. 4. The rail brake of claim 1 , wherein movement of the piston in the release direction is adjustable by the brake controller, and wherein movement of the piston in the engage direction is adjustable by the brake controller. 5. The rail brake of claim 1 , further comprising: a pump; a pressurized tank of hydraulic fluid; a valve unit in fluid communication with the pressurized tank of hydraulic fluid, the valve unit being in data communication with the brake controller and configured to be operated by the brake controller to direct a flow of hydraulic fluid to selectively move the piston in the release direction and in the engage direction. 6. The rail brake of claim 5 , further comprising: a sensor in data communication with the brake controller, the sensor providing the brake controller pressure data for the hydraulic tank; and programming in data communication with the brake controller, the programming causing the brake controller to deactivate the piston when the pressure data indicates that pressure inside the hydraulic tank is less than a predetermined pressure. 7. The rail brake of claim 6 , wherein movement of the piston in the release direction is adjustable by the brake controller, and wherein movement of the piston in the engage direction is adjustable by the brake controller. 8. The rail brake of claim 7 , wherein the spring package includes a helical spring. 9. An elevator system, comprising: an elevator car; a guide rail; means for selectively moving the elevator car in opposed directions; and a hydraulic-boosted rail brake comprising: a braking plate having friction material, the braking plate being selectively movable relative to the guide rail; a spring package in communication with the braking plate, the spring package biasing the friction material to interact with the guide rail whereby causing braking; at least one hydraulically operated piston in communication with the braking plate and selectively: (a) movable in a release direction to overcome force from the spring package; (b) movable in an engage direction to supplement force from the spring package; and (c) deactivatable such that the force from the spring package is neither overcome nor enhanced by the piston; and a brake controller selectively causing the movement in the release direction, the movement in the engage direction, and the deactivation. 10. The rail brake of claim 9 , wherein a minimum air gap between the friction material and the guide rail is smaller when the car travels at low velocities than the minimum air gap when the car travels at high velocities.