A parking brake system for vehicles, in particular passenger cars, with an extraneous force generating adjusting unit for tightening or loosening at least one actuating pull for a braking arrangement on the vehicle and having an electronic control device whose output variable is used to actuate the adjusting unit. Input variables, in particular from an operating arrangement, sensors and or switches are fed to the control device and the output variable van be varied as a function of the input variable. A force sensor is disposed on or the actuating pull for directly detecting the force exerted thereon. The signals from the force sensor are fed to the control device as an input variable.

An electronically controlled parking or safety brake is disclosed. The brake is capable of reliably immobilizing a locomotive. A brake may employ both manual and automatic modes, and be capable of providing for either mode in operation. The electronic control system facilitates the setting and releasing of the brake in the automatic mode without any manual manipulation or readjustment of gears, handles, levers, pawls, and the like being required by an operator. An actuating mechanism is capable of operating in a first mode to set the brake and in a second mode to release the brake. A motor, clutch, gearing means, ratchet mechanism, solenoid, and electronic control system are operatively connected to a chain to set the brake on the locomotive wheel. Further, remote operation of the brake is possible through hard wired control signals or by wireless communication using a transmitter to send signals to the electronic control means. Further, determination of the applied brake force may be through local sensing of motor current or remote sensing through a load sensor located at the wheel braking device.

An automatic parking brake for a rail vehicle can lock the rail vehicle brakes in an applied position, such as by blocking the brake cylinder piston push rod from moving from an applied position to a release position. A control mechanism can be provided to remotely operate the automatic parking brake. A manual release can also be provided.

A manual brake release and status indicator device for a parking brake for a rail vehicle, the manual brake release can include a positioner rod having a handle at one end and a second end connected to a positioner assembly which is associated with a parking brake clamp mechanism. The positioner assembly is movable via the handle to manually release the parking brake clamp from an applied position. The handle is associated with the status indicator, which can include a face plate positioned in proximity to the handle, wherein the position of the handle relative to the face plate indicates whether the parking brake is applied or released.

A parking brake for a rail vehicle can automatically lock the rail vehicle brakes in an applied position, such as by clamping the brake cylinder push rod to prevent retraction from an applied position to a release position. An actuator can operate the parking brake, and a manual release can also be provided.