An electric disc brake system for a trailer. The brake system employs a caliper assembly that is attached to the trailer with floating fasteners, wherein the caliper assembly straddles an axle mounted rotor positioning an inner and outer brake pad adjacent to the rotor. A screw drive assembly is attached to the caliper. The assembly includes an electric motor coupled to a piston by a threaded shaft. The screw drive assembly converts rotation of the electric motor into linear motion to movement of the piston, wherein the inner and outer brake pads engage the rotor based upon the amount of pressure applied by the piston. A controller reacts to the pressure applied to a brake pedal to cause the electric motor to rotate in a clockwise or counter-clockwise direction.

A disc brake for a utility vehicle is provided. The brake caliper of the disk brake is configured to be mounted in an axially-displaceable manner on a stationary brake carrier by two fastening elements. The two fastening elements are plain bearings arranged in respective bores of the brake caliper, one as a locating bearing and the other as a floating bearing. The floating bearing includes a sliding bush made from a plastic, in particular an elastomer, and a guide rod configured to be connected to the brake carrier is mounted. The sliding bush is held on the guide rod secured against axial displacement between the guide rod and the inner wall of the respective brake caliper bore. The sliding bush is configured to carry a lubricant on its circumferentially outer surface and has sealing lips projects radially outward that bear against the inner wall of the respective bore.

A disc brake for a utility vehicle is provided. The brake caliper of the disk brake is configured to be mounted in an axially-displaceable manner on a stationary brake carrier by two fastening elements. The two fastening elements are plain bearings arranged in respective bores of the brake caliper, one as a locating bearing and the other as a floating bearing. The floating bearing includes a sliding bush made from a plastic, in particular an elastomer, and a guide rod configured to be connected to the brake carrier is mounted. The sliding bush is held on the guide rod secured against axial displacement between the guide rod and the inner wall of the respective brake caliper bore. The sliding bush is configured to carry a lubricant on its circumferentially outer surface and has sealing lips projects radially outward that bear against the inner wall of the respective bore.

Provided is a caliper unit for a brake of a vehicle, in particular, a compact caliper unit capable of reducing a size, a weight, and a production cost of a component and improving fuel efficiency. The caliper unit for the brake includes an inner pad and an outer pad, which press both surfaces of a disc to generate braking force, a torque member fixed to a vehicle body and coupled to be movable forward and backward so that the inner pad and the outer pad press the disc, or the pressing of the inner pad and the outer pad to the disc is released, a caliper housing including a cylinder to which a brake hydraulic pressure is applied and a reaction force support part configured to press the outer pad to the disc, and a piston installed in the cylinder and moving forward and backward depending on a state of the brake hydraulic pressure applied to the cylinder to press the inner pad to the disc. Each of the inner pad and the outer pad has a circular shape, and a contact surface of the piston, which is in contact with the inner pad to press the inner pad during braking, has a circular shape.

Provided is a caliper unit for a brake of a vehicle, in particular, a compact caliper unit capable of reducing a size, a weight, and a production cost of a component and improving fuel efficiency. The caliper unit for the brake includes an inner pad and an outer pad, which press both surfaces of a disc to generate braking force, a torque member fixed to a vehicle body and coupled to be movable forward and backward so that the inner pad and the outer pad press the disc, or the pressing of the inner pad and the outer pad to the disc is released, a caliper housing including a cylinder to which a brake hydraulic pressure is applied and a reaction force support part configured to press the outer pad to the disc, and a piston installed in the cylinder and moving forward and backward depending on a state of the brake hydraulic pressure applied to the cylinder to press the inner pad to the disc. Each of the inner pad and the outer pad has a circular shape, and a contact surface of the piston, which is in contact with the inner pad to press the inner pad during braking, has a circular shape.

A parking brake for a wheel rotor having a brake pad associated therewith includes a housing defining first and second passages. First and second pistons are provided in the respective first and second passages. Spindles extend into and are connected with each piston. A clutch unit is connected to the spindles and includes a motor. The clutch unit has a first condition allowing for rotation of the spindles in response to hydraulic pressure applied to the pistons such that the pistons are axially movable within the passages and relative to the spindles into engagement with the brake pad. The clutch unit has a second condition for rotating the spindles to drive the pistons into the brake pad and apply the parking brake.

A brake apparatus for a vehicle may include: a first brake pad configured to press a brake disc; a second brake pad disposed to face the first brake pad and coming into contact with the brake disc; a pressing part configured to press the first brake pad to move toward the second brake pad; a caliper body on which the pressing part is mounted and enclosing the first brake pad and the second brake pad; and a pair of pin members that are screw-coupled to the caliper body so as to be separated from each other and configured to pass through the first brake pad and the second brake pad.

A brake apparatus for a vehicle may include: a first brake pad configured to press a brake disc; a second brake pad disposed to face the first brake pad and coming into contact with the brake disc; a pressing part configured to press the first brake pad to move toward the second brake pad; a caliper body on which the pressing part is mounted and enclosing the first brake pad and the second brake pad; and a pair of pin members that are screw-coupled to the caliper body so as to be separated from each other and configured to pass through the first brake pad and the second brake pad.

A brake apparatus for a vehicle may include: a torque member having a pair of brake pads installed therein and spaced apart from each other, and configured to surround a brake disk; a caliper configured to cover the torque member, and having a gravitational center adjuster configured to adjust the position of a gravitational center toward the brake disk; a pair of guide rods configured to connect the torque member and the caliper, such that the caliper is slidably coupled to the torque member; and an actuator mounted on the caliper.

A brake apparatus for a vehicle may include: a torque member having a pair of brake pads installed therein and spaced apart from each other, and configured to surround a brake disk; a caliper configured to cover the torque member, and having a gravitational center adjuster configured to adjust the position of a gravitational center toward the brake disk; a pair of guide rods configured to connect the torque member and the caliper, such that the caliper is slidably coupled to the torque member; and an actuator mounted on the caliper.