Abstract: A pivot bearing unit (18), having a pneumatic braking device (21) with a first and second bearing part (22, 23), which are embodied as rotatable relative to one another, wherein the braking device (21) is activatable by means of compressed air (36) via a compressed air supply line (10). The braking device (21) is provided with a brake hose (1), embedded in a bearing plate (14), in the first bearing part (22), and the brake hose (1) expands as a result of subjection to compressed air (36) with a motion (8) in the direction of a free end (16) and, via an axially movable switching ring (2), exerts a force (17) on at least one brake block (6) of the second bearing part (23), for transmitting a braking moment (15) between the first and second bearing parts (22, 23).

Abstract: A hydropneumatic suspension unit for a vehicle that includes an outer sleeve which defines a first chamber, and a damping piston which is arranged for sliding displacement in the first chamber. The first chamber contains gas mainly for providing spring action and liquid mainly for providing damping action. The gas is in direct contact with the liquid.

Abstract: A brake calliper has two arms, where each arm includes a housing and a stub. A member for guiding a disc brake pad is disposed in the housing, and is secured by lugs to a front of the stub. The member includes a body having a U-shaped section formed by an inner radial surface, a base, and an outer radial surface. An inner side of the body is bordered by an inner supporting surface located on an inner surface of the arms, and an outer supporting surface of the body is disposed against a front of the stud. The out supporting surface extends into a supporting surface toward the front of the stud. The body further includes a locking tongue that extends beyond an edge of the body, and is configured to be hooked in the housing.

Abstract: A spring latching connector includes a housing having a bore therethrough, a piston slidably received in said bore, a circular groove formed in one of said bore and piston and a circular coil spring disposed in said groove for latching said piston and housing together. The groove is sized and shaped for controlling, in combination with a spring configuration, disconnect and connect forces of the spring latching connection.

Abstract: The present invention is directed to a stainless steel brake disc which is excellent in toughness, corrosion resistance, and wear resistance, and comprises, in % by mass, 0.030 to 0.080% of C, 0.05% to 1.0% of Si, 1.0 to 1.5% of Mn, 0.035% or less of P, 0.015% or less of S, 11.0 to 14.0% of Cr, 0.01 to 0.50% of Ni, 0.001 to 0.15% of V, less than 0.1% of Nb, 0.05% or less of Ti, 0.05% or less of Zr, 0.05% or less of Al, 0.015 to 0.060% of N, 0.0002% or more and 0.0050% or less of B, and 0.0080% or less of O, wherein an AT value of equation 1 is 0.055 to 0.090, equation 2 is satisfied, a ferrite phase fraction, in which an IQ value of an EBSD pattern is 4,000 or more, is 1% to 15%, a Charpy impact value is 50 J/cm2 or more, and hardness is 32 to 38 HRC. C+0.8(N?B)??(1) PV=1.2Ti+0.8Zr+Nb+1.1Al+O?0.

Abstract: An air spring assembly for a motor vehicle, including an air spring, a rolling piston, a tubular rolling air spring bellows arranged concentrically about a central longitudinal axis of the air spring, and an air spring cover. A first partial air spring bellows has a first embedded textile reinforcement and a second partial air spring bellows has a second embedded textile reinforcement The first textile reinforcement has first reinforcing threads, the preferred axis of which extends parallel or nearly parallel to the axis of the central longitudinal axis of the air spring The second textile reinforcement has second reinforcing threads, the first preferred axis of which extends obliquely to the longitudinal axis of the air spring and the second preferred axis of which extends obliquely to the longitudinal axis of the air spring, wherein the first and the second preferred axis are at an angle to each other.

Abstract: The invention relates to a vibration isolator that includes a coil spring. In a horizontal direction, the coil spring is stiffly coupled to the base or to the load to be isolated.

Abstract: A friction damper includes: a base body; a support secured to an elongated member of the base body and having a through hole; a rod which extends in such a manner as to pass through the through hole of the support and is movable in an axial direction with respect to the support; a friction member which has a hollow cylindrical portion interposed between the support and a main body portion of the rod in the through hole of the support, and which is fixed immovably with respect to the relative movement of the rod in the axial direction with respect to the base body; and a tightening means provided for the support so as to tighten the hollow cylindrical portion of the friction member onto the main body portion of the rod.

Abstract: A damper of shock and vibration. In one embodiment there is a hydraulic damper with a regressive damping characteristic in both compression and extension, such that damping forces decrease with increased stroking velocity within a predetermined range of stroking velocity. Outside of this range, damping forces are progressive, such that the damping force increases with increased stroking velocity. In another embodiment, there is a hydraulic damper with a second, slidable piston within one of the internal chambers defined by the main piston. This secondary piston is spring loaded and hydraulically latchable at either a first position or a second position based on the pressure differential across the main piston.

Abstract: A brake disc arrangement is provided. The brake disc arrangement includes a mounting section, a brake plate section and a transitional interface positioned between the mounting section and the brake plate section and configured to attach the brake plate section to the mounting section. The transitional interface includes at least one extension extending radically from an outer circumference of the mounting section, the at least one extension having a cross-sectional configuration shaped as an I-Beam or other shape having at least two spaced apart projections on opposite side of the extension such that a vent gap is formed between the projections.

Abstract: A fluid-pressure brake device for a vehicle includes a brake operation member, a master cylinder, wheel cylinders a fluid-pressure control actuator, a fluid-pressure control circuit, and an electric control unit. Moreover, in the fluid-pressure brake device for a vehicle, normally closed electromagnetic open/close valves are interposed on paths for connecting master system fluid-pressure circuits and a drive fluid chamber of the master cylinder with each other, the master system fluid-pressure circuits being configured to connect pressure chambers of the master cylinder and pressure chambers of the wheel cylinders—with each other. The fluid-pressure brake device for a vehicle is configured so that the electromagnetic open/close valves are opened when an action amount of the brake operation member is equal to or more than a set value. As a result, a size and a stroke of each of master pistons in the master cylinder can be reduced.

Abstract: A friction damper includes a base body; a support secured to an elongated member of the base body and having a through hole; a rod which extends in such a manner as to pass through the through hole of the support and is movable in an axial direction with respect to the support; a friction member which has a hollow cylindrical portion interposed between the support and a main body portion of the rod in the through hole of the support, and which is fixed immovably with respect to the relative movement of the rod in the axial direction with respect to the base body; and a tightening structure provided for the support so as to tighten the hollow cylindrical portion of the friction member onto the main body portion of the rod.

Abstract: The present invention relates to a vehicle brake device which can secure the durability of a linear valve for controlling a servo pressure. The brake ECU of the vehicle brake device sets a reference servo pressure based on the operating amount of a brake pedal when the vehicle is stopped and sets a target servo pressure based on the reference servo pressure during one braking operation. Further, the brake ECU sets the reference servo pressure based on the operating amount of the brake pedal when the servo pressure calculated in response to the operating amount of the brake pedal exceeds the servo pressure change threshold value set with a deviation from the reference servo pressure calculated in response to the brake pedal operating amount.

Abstract: The invention relates to an electrohydraulic pressure control device for vehicle brake systems, including at least one electronic control unit, at least one hydraulic unit and at least one electric motor for driving a hydraulic pump, wherein the electronic control unit is mechanically connected to the hydraulic unit and is sealed off from the outer environment in at least one connection zone to the hydraulic unit by a circumferential, in particular elastic sealing material, and the sealing material extends along an edge of the substantially cuboid-shaped hydraulic unit, wherein the edge is formed by a face of the cuboid-shaped hydraulic unit facing the electronic control unit and at least one face of the cuboid-shaped hydraulic unit not facing the electronic control unit, and the sealing material at least partially covers both cuboid faces in the connection zone and/or sealing zone.

Abstract: A brake device for a vehicle includes: a cylinder body in which brake oil is compressed; a first piston pressurizing brake oil while moving along the inside of the cylinder body; a connection part having a smaller outer diameter than the first piston, and including one side connected to the first piston and the other side extended to the outside of the cylinder body; a pipe line part connecting the cylinder body and a wheel brake, and transferring the brake oil compressed through the movement of the connection part to the wheel brake; and a valve controlling the flow of the brake oil transferred along the pipe line part.

Abstract: A braking system for an electric vehicle has a first wheel having a first friction brake and an electric motor and a second having a second friction brake. A first user-actuated brake lever is coupled to the first friction brake. The first brake lever has a first sensor indicating actuation of the first brake lever. A second user-actuated brake lever is coupled to the second friction brake. The second brake lever has a second sensor indicating actuation of the second brake lever. An electronic control unit electronically coupled to the first and second sensors and the electric motor commands the electric motor to operate as a generator when at least one of the brake levers is actuated.

Abstract: A drum brake is provided that improves the direction of the actuating forces to reduce stress, improve efficiency and permit thicker brake linings. First and second brake shoes each have a first end pivotally coupled to a brake spider. First and second cam followers are disposed at corresponding second ends of the brake shoes. A cam engages the cam followers with movement of the cam causing the brake shoes to move between positions of engagement and disengagement with a braking surface. The cam followers are offset such that a center of the first cam follower is disposed at a first distance from a center axis of the brake and a center of the second cam follower is disposed at a second distance from the center axis with the first distance different from the second distance so as to improve the direction of the cam force vector.

Abstract: The invention relates to braking devices for the wheels of a motor vehicle which can be rotated around axle pins, provided with a brake caliper attachment comprising an axle-sided carrier, which can be fixed to the axle of the vehicle, and a brake-sided carrier, which can be detachably fixed thereon by means of screws, in order to receive the caliper of the brake. Axial and/or radial bearing surfaces of the axle-sided carrier or brake-sided carrier may be located on the same axial or radial plane and/or are respectively located on parallel planes which are offset in relation. The axial and/or radial bearing surfaces may be inclined on one side relative to the axial or radial plane oriented in an inner or outer direction and/or the axial and/or radial bearing surfaces may be in the form of a prism and the carriers on the bearing surfaces thereof are coupled by screws.

Abstract: A spring functional component for a hydroelastic bearing. The component comprises a mounting inner connection, a mounting outer connection radially surrounding the mounting inner connection, a spring body which delimits at least two working chambers for receiving a damping fluid and couples the mounting inner and outer connections to one another in order to allow a relative movability between the mounting inner and outer connection and a support frame surrounding the mounting inner connection made of a rigid material such as plastic or metal, on which at least one radial stop is held, wherein the radial stop can be displaced from a pre-assembly state, in which a stop end of the radial stop is disengaged with respect to a stop counterpiece on the mounting inner connection side or mounting outer connection side, into a final assembly state in which the stop end engages the stop counterpiece.

Abstract: The invention is an incrementally actuated eddy current braking system. The system comprises first and second primary members, which further comprise arrays of permanent magnets arranged in alternating polarity. The respective magnets of the arrays face one another. A means for incremental displacement is drivingly connected to at least one of the primary members enabling the movement of said members relative to one another.