Abstract: A shock valve assembly for a hydraulic system includes a fluid path extending between a first port and a second port with a shock valve disposed in the fluid path to normally block fluid flow through the fluid path between the first and second ports. The shock valve temporarily opens to permit fluid flow between the first port and a second port through the fluid path when a fluid pressure differential between the ports exceeds a predetermined threshold. Fluid flow occurs in a first direction from the first port to the second port through the fluid path when the shock valve is temporarily opened and fluid pressure in the first port is greater than the second port. Fluid flow occurs in a second, reverse direction through the fluid path from the second port to the first port when the shock valve is temporarily opened and fluid pressure in the second port is greater than the first port.
Abstract: A hydraulic control system for operating at least one hydraulic motor and at least one hydraulic brake. In one specific embodiment of the invention, the hydraulic motor and brake are part of an industrial vehicle.
Abstract: A hydraulic device includes a gerotor assembly, a wobble stick, an output shaft, a housing assembly, a first port in the housing assembly, a second port in the housing assembly, first brake disks, second brake disks, a piston, and a biasing member. The gerotor assembly includes a rotor and a stator. The wobble stick connects at a first end to the rotor. The output shaft connects to a second end of the wobble stick. The housing assembly receives the gerotor assembly, the wobble stick and the output shaft. The first port is in communication with the gerotor assembly. The second port is also in communication with the gerotor assembly. The first brake disks connect to the output shaft The second brake disks connect to the housing assembly The piston is disposed in the housing assembly adjacent at least one of the brake disks. The piston cooperates with the housing assembly to define a brake pressure chamber.
Abstract: A hydraulic control system for operating at least one hydraulic motor and at least one hydraulic brake. In one specific embodiment of the invention, the hydraulic motor and brake are part of an industrial vehicle.
Abstract: A method of hardening metal parts, such as a rotor or drive link, and parts thus produced. Preferably the method includes imparting residual compressive stresses into the metal parts and uses various small ball type structures to create small compressions in the surfaces of the metal parts. The compressions apply residual stresses to the parts, which strengthen the metal. The substantial uniform ball type structures are pressed into the metal part to control the application of stress into the part and maintain substantial uniform properties within the metal part, which resists future stresses as the part is used in its desired machinery and/or processes.
Abstract: A testing device for testing Hall-Effect type speed and proximity sensors and their associated pulse detection systems is provided by the present invention. The device includes a housing containing an internal battery, an LED display, an input connector, an output cable, a power switch, a test function switch, and a built in reference magnetic label. The magnetic label is polarized with a reference pattern such as alternating north and south magnetic poles. To test a Hall-Effect sensor, the sensor output is connected to the testing device and the sensor is swiped along the magnetic strip. The output of the sensor is then displayed such that it can be examined to determine if the sensor is working properly. A pulse generator is included that produces a known pulse train that is used to evaluate an associated pulse detection circuit. The output of the pulse detection circuit in response to the reference pulse train is examined to determine if the pulse detection circuit is functioning properly.
Abstract: A sensor unit for a rotating shaft, which unit uses its inner opening directly in contact with the outer surface of the rotating shaft in order to precisely and repeatedly radially align a sensor to such shaft.
Abstract: An apparatus for providing a flat to stepped convex facing for grinding wheels used for the finished machining of parts, the apparatus including dressing wheels located only at the outer diameter of the Cubic-Boron-Nitride wheels to be dressed.
Abstract: A sensor unit for a rotating shaft of a device includes a body having an axial opening and a second opening. The axial opening receives the rotating shaft and contacts an outer surface of the rotating shaft to precisely and repeatedly radially align a sensor to the shaft. The second opening receives the sensor.