Class / Patent application number | Description | Number of patent applications / Date published |
180305000 | Including traction motor of kind driven by noncompressible fluid received under pressure from a pump | 36 |
20080314675 | HYDRAULIC WHEEL-DRIVE WORKING VEHICLE - A hydraulic wheel-drive working vehicle according to the present invention makes it possible to change a driving state by a driving-mode switching valve between a right-left differential-lock driving state in which a pair of driving wheels are driven in an independent manner to each other with hydraulic fluid discharged from a hydraulic pump and having respective amounts defined by a flow dividing/combining mechanism and a right-left differential driving state in which the pair of left and right driving wheels are driven in a hydraulically differential manner to each other, and also to supply the hydraulic fluid from the hydraulic pump to the pair of hydraulic motors without being subjected to fluid load of the flow dividing/combining mechanism at the right-left differential driving state, thereby enhancing transmission efficiency at the right-left differential driving state. | 12-25-2008 |
20090078488 | AUXILIARY HYDRAULIC FLOW CONTROL SYSTEM FOR A SMALL LOADER - A vehicle having an auxiliary power system for supplying power to an implement is disclosed. The power system includes a power enablement device having an enablement component that allows or prevents supplying power to the implement, and an auxiliary actuator operably coupled to the power enablement device. The auxiliary actuator can be manipulated between a first, de-actuated position and a second, actuated position. An operator actuable continuous actuation device is moveable between engaged and disengaged positions, providing an actuation signal indicative of its position. A continuous enablement actuator is capable of engaging the enablement component when the enablement component is in the actuated position to discourage the enablement component from moving to the de-actuated position. The continuous enablement actuator engages the enablement component when the actuation signal indicates one of the engaged and disengaged positions and is disengaged from the enablement component when the actuation signal indicates the other position. | 03-26-2009 |
20090133950 | Wheeled Work Machine - A wheel type work machine having improved ease of assembly and a compact-sized traveling system power transmission mechanism. The wheeled work machine comprises a traveling body ( | 05-28-2009 |
20090145682 | PROPULSION DRIVE SYSTEM FOR A UTILITY VEHICLE - A propulsion drive system is provided for a utility vehicle having an internal combustion engine, a hydraulic pump connected, so as to be driven by the internal combustion engine wherein the fluid displacement of the hydraulic pump can be varied by a first actuator. A hydraulic motor is connected by a line conducting hydraulic fluid to the hydraulic pump wherein the fluid displacement of the hydraulic motor can be varied by a second actuator and is connected so as to drive at least one propulsion device in engagement with the ground. A control arrangement is connected with a speed input arrangement. The control arrangement is operated so as to control the first actuator and the second actuator in such a way that the overall efficiency of the hydraulic pump and the hydraulic motor is at a maximum. | 06-11-2009 |
20090272596 | Wheel end with integrated motor assembly - A wheel end assembly comprises a wheel hub support housing and a wheel hub drive assembly rotatably connected to the wheel hub support housing. The wheel end assembly also includes a hydraulic motor operatively coupled to the wheel hub drive assembly, the hydraulic motor being disposed to deliver a torque to the wheel hub drive assembly. The wheel end assembly further includes a pump, fluidly coupled to the wheel hub drive assembly and the hydraulic motor, the pump being disposed to provide a flow of hydraulic fluid to the wheel hub drive assembly. | 11-05-2009 |
20090314571 | Method and arrangement of a plurality of propel pumps in a hydrostatically driven compactor - Fluid control propulsion system, machine including the system, and method of controlling the propulsion of a machine having a compacting drum and a wheel mounted on an axle, drum and axle motors operatively connected with the drum and the axle, respectively, and drum and axle pumps operatively connected to an engine and fluidly connected to the pumps. A fluid control orifice disposed in fluid communication between the pumps is selectively disengageable in response to at least one of operator instruction, sensed pressure differential between the drum and axle pumps, and sensed disparity in rotational speed between the drum and axle. | 12-24-2009 |
20110024220 | MOUNTING OF HYDROSTATIC TRANSMISSION FOR RIDING LAWN MOWER - A hydrostatic transmission including a pump and motor connected by supply and return lines. The hydrostatic transmission can be an integrated unit mountable to a vehicle frame as a unit. The motor portion of the transmission is configured to be at least partially received within a wheel to which an output shaft of the motor can be directed connected. Accordingly, the output shaft of the motor can be configured to function as a wheel axle. | 02-03-2011 |
20110209938 | Vehicle Suspension and Drive System - An in-the-wheel hub-less suspension system for use on a vehicle is disclosed. The suspension mechanism has at least two vertical guides; at least two mounting brackets to be affixed to diametrically opposing positions on the rim of the wheel to which the suspension system is to be attached; at least one shock absorber unit; and one spring for each vertical guide. Each of the vertical guides extends through one of the at least one shock absorber units, wherein the spring for each vertical guide is located underneath the at least one shock absorber unit and encloses the vertical guide; and wherein each end of each of the at least two vertical guides engages with the corresponding mounting bracket. | 09-01-2011 |
20110308878 | CONSTRUCTION VEHICLE - A construction vehicle includes a hydraulic pump for travelling driven by an engine and a hydraulic motor for travelling driven by a pressurized oil discharged from the hydraulic pump. A control unit is configured to set an upper limit of a command value of an acceleration opening degree in accordance with a magnitude of a travelling load and a magnitude of a vehicle speed, and to set a lower limit of a displacement of the hydraulic motor for travelling in order to maximize the vehicle speed at the acceleration opening degree limited to a predetermined amount. | 12-22-2011 |
20130256052 | ROLLBACK PREVENTION SYSTEM FOR MOBILE MACHINE - A rollback prevention system is disclosed for use with a mobile machine. The rollback prevention system may have an input device configured to receive an input indicative of a desired travel direction, a travel sensor configured to generate a signal indicative of an actual travel direction, and a brake sensor configured to generate a signal indicative of a brake activation status. The rollback prevention system may also have a controller configured to make a determination that the actual travel direction of the mobile machine is opposite the desired travel direction, and to selectively increase a torque output of the transmission to a first level based on the determination. The controller may also be configured to reduce the torque output below the first level when the signal indicates brake activation, and to return the torque output to the first level when the signal indicates brake deactivation. | 10-03-2013 |
20130256053 | WORK VEHICLE AND CONTROL METHOD FOR WORK VEHICLE - A working vehicle includes an engine, a hydraulic pump, a first hydraulic motor, a vehicle speed detecting unit, a parking brake, a parking brake operating member and a control unit. The control unit is configured to determine whether the vehicle speed is equal to or greater than a predetermined threshold when the parking brake operating member is operated. The control unit is configured to execute a brake control that decreases a displacement of the first hydraulic pump and increases a displacement of the first hydraulic motor without activating the parking brake when the vehicle speed is equal to or greater than the redetermined threshold in a state when the vehicle is traveling, and to activate parking brake when the vehicle speed falls below the predetermined threshold. | 10-03-2013 |
20130299268 | SYSTEM AND METHOD FOR OPERATING A LARGE SINGLE ENGINE SWEEPER - A system and method for operating a large single engine sweeper includes a transfer case assembly inserted into the chassis drive train of the vehicle on which a package of sweeping equipment is mounted. In road mode operation, power from the chassis engine passes through a chassis automatic transmission, through a transfer case assembly to the differential and real wheel assembly. In sweep mode, power passes from a propel hydraulic motor into the transfer case assembly and then to the differential and real wheel assembly. | 11-14-2013 |
20140041956 | BULLDOZER - A vehicle body frame of a bulldozer has a left side frame, a right side frame, a base plate, and a cross member. The left and right side frames each extend in the front and back direction. The base plate spans across between the left and right side frames. The cross member is positioned between a hydraulic pump and left and right hydraulic motors. The cross member protrudes upward from the base plate. The cross member spans across between the left and right side frames. The cross member has a left conduit hole and a right conduit hole which are spaced apart in a left and right direction of the bulldozer. The first and second left hydraulic fluid tubes pass through the left conduit hole. The first and second right hydraulic fluid tubes pass through the right conduit hole. | 02-13-2014 |
180306000 | Vehicle includes another system operated by same fluid | 4 |
20100108426 | ELECTRO-MECHANICAL PUMP FOR AN AUTOMATIC TRANSMISSION - A drive system for a motor vehicle transmission includes a hydraulic pump including a shaft, an engine, a starter/alternator connected to the shaft, and a drive mechanism for transmitting torque from the engine to the shaft, and for amplifying torque produced by the starter/alternator and transmitting the amplified torque to the engine. | 05-06-2010 |
20110308879 | CONSTRUCTION VEHICLE - A wheel loader ( | 12-22-2011 |
20130319786 | CONSTRUCTION MACHINE - A construction machine includes a condenser | 12-05-2013 |
20160121947 | WORKING MACHINE - A base assembly for a working machine. The base assembly comprising a ground engaging structure, an undercarriage connected to the ground engaging structure, and a connector for connecting the undercarriage to a superstructure that mounts a working arm. A drive arrangement is provided for moving the ground engaging structure to propel, in use, the base assembly and a connected superstructure. The drive arrangement includes a prime mover and a transmission and the drive arrangement is housed within the undercarriage. An electronic control unit (ECU) is provided for controlling the drive arrangement and/or the ground engaging structure. | 05-05-2016 |
180307000 | Having variable displacement type motor or pump | 14 |
20090008183 | Pump Unit and Hydrostatic Transmission - There is provided a pump unit configured to be capable of transmitting a rotational per from a driving power source which is operatively connected thereto to an actuator through a pair of hydraulic fluid lines. The pump unit includes: an input shaft; a hydraulic pump main body; a PTO shaft; a PTO clutch mechanism; and auxiliary pump main body; a suction line; a discharge line; a charge line; a PTO hydraulic fluid line; a pressure-reducing valve; and a resistance valve. The PTO hydraulic fluid line and the charge line are fluidly connected to the primary side and a secondary side of the pressure-reducing valve, respectively. | 01-08-2009 |
20090057049 | HYDRAULIC TRAVELING VEHICLE - A hydraulic traveling vehicle includes a right-travel motor a left-travel motor, a hydraulic pump, a merging/diverging valve and a travel switching unit. The merging/diverging valve is configured to switch between merging and separating a first hydraulic circuit and a second hydraulic circuit. The travel switching unit is configured to switch between a state where sharp turning takes place as a result of one of the right-travel motor and the left-travel motor being stopped and the other being driven, with the merging/diverging valve being in a merging state, and a state where gentle turning takes place as a result of the right-travel motor and the left-travel motor being driven at different rotational speeds, with the merging/diverging valve being in a diverging state. | 03-05-2009 |
20090120709 | Hydrostatic Transaxle - In a housing of a hydrostatic transaxle, an HST including mutually fluidly connected hydraulic pump and motor, an axle, and a deceleration gear train interposed between the hydraulic motor and the axle are disposed. The deceleration gear train includes an L-shaped counter shaft. The L-shaped counter shaft consists of mutually perpendicular first and second shaft portions. The first shaft portion is disposed in parallel to a motor shaft of the hydraulic motor. The second shaft portion is disposed in parallel to the axle. A first gear fitted on the motor shaft meshes with a second gear fitted on the first shaft portion. A third gear fitted on the second shaft portion meshes with a fourth gear fitted on the axle. | 05-14-2009 |
20090127018 | COMPONENT COMBINATION FOR A HYDROSTATICALLY DRIVEN VEHICLE - A hydrostatically driven vehicle includes an engine operating at a first speed and operably connected to a variable displacement pump in fluid communication with a hydraulic circuit. The pump includes a rotating swashplate being adapted to operate at selective angles, which dictate pump displacement ranging from zero to a maximum displacement. The pump is capable of providing a pump flow rate at the first speed when the pump swashplate is set to the maximum displacement, wherein the pump flow rate is greater than the maximum flow rate that may be received by the hydraulic circuit. | 05-21-2009 |
20090133951 | METHOD FOR OPERATING A HYDROSTATICALLY DRIVEN VEHICLE - A hydrostatically driven vehicle has an engine operating a variable displacement propel pump, a displacement of which can vary based on an angle of a rotating swashplate, such that a fluid flow impelled by the pump transfers power to at least one propel motor rotating a wheel of the vehicle. An electronic controller of the vehicle senses an operating parameter of the system, for example, the angle of the rotating swashplate or the direction and speed of rotation of the propel motor with a sensor to yield an actual signal, and relays the actual signal to an electronic controller. The controller determines a desired angle for the rotating swashplate based on the control signal, and compares it to the actual signal from the sensor. Motion of the vehicle is stalled when the angle signal differs from the desired angle by a predetermined extent and for a predetermined period. | 05-28-2009 |
20090139792 | CONTROL SYSTEM AND METHOD FOR OPERATING A HYDROSTATICALLY DRIVEN VEHICLE - A hydrostatically powered vehicle includes an engine operatively associated with a pump that supplies fluid to a propel motor. Based on various sensed and engine operating conditions, a controller determines a desired operating condition for the engine while maintaining the travel speed of the vehicle constant. | 06-04-2009 |
20090229907 | Hydraulic Drive Vehicle - A hydraulic driving vehicle comprises front and rear transaxles incorporating respective hydraulic motors, and a pump unit separated from the front and rear transaxles. The pump unit incorporates a hydraulic pump having a pump shaft. A hydraulic circuit is formed by piping between the pump unit and the front and rear transaxles so as to circulate hydraulic fluid between the hydraulic pump and the hydraulic motors. A reservoir tank of the hydraulic fluid is connected to the hydraulic circuit by piping. A first cooling fan blowing air away from the pump unit and a second cooling fan blowing air toward the pump unit are disposed oppositely to each other with respect to the pump unit and drivingly connected to the pump shaft. At least a pipe for the piping of the hydraulic circuit and the reservoir tank passes an area blown by each of the first and second cooling fans. | 09-17-2009 |
20090260911 | Hydraulic Drive Working Vehicle - A hydraulic drive vehicle includes a bypass valve for fluidly connecting or disconnecting a pump/second-motor line and a second-motor/first-motor line, and set a capacity of a first hydraulic motor to a standard capacity which makes a peripheral speed of a first wheel driven by the first hydraulic motor equal to a peripheral speed of a second wheel driven by a second hydraulic motor when the bypass valve fluidly disconnects the two lines and set the capacity of the first hydraulic motor to a first capacity smaller than the standard capacity when the bypass valve fluidly connects the two lines. The present invention makes it possible to widen a variable range in which a traveling speed of the vehicle could be changed. | 10-22-2009 |
20120152640 | INDUSTRIAL VEHICLE - In a work vehicle, a controller controls the displacement of a hydraulic motor by electronically controlling a motor displacement control part. When an inching operation member is being operated, the controller performs inching control for setting the minimum displacement of the hydraulic motor to a greater value in correspondence with a lower pilot pressure detected by a pilot pressure detector. | 06-21-2012 |
20120152641 | WORK VEHICLE - In a work vehicle, a cutoff-pressure-setting part sets cutoff pressure at a predetermined first pressure value when vehicle speed is greater than a predetermined first speed threshold, and at a second pressure value greater than the first pressure value when vehicle speed is equal to or less than a second speed threshold less than the first speed threshold. When the vehicle is moving forward and the forward/backward switch lever is in forward motion position, or when he vehicle is moving backward and the forward/backward switch lever is in backward motion position, the second speed threshold is set to a predetermined first value. When the vehicle is moving forward and the forward/backward switch lever is in backward motion position or when the vehicle is moving backward and the forward/backward switch lever is in forward motion position, the second speed threshold is set to a second value lower than the first value. | 06-21-2012 |
20120152642 | WORK VEHICLE - In the work vehicle, a controller is configured to control a motor displacement control part via feedback control so that the driving hydraulic pressure detected by a driving hydraulic pressure detector approaches a predetermined target driving hydraulic pressure. The controller is configured to perform low temperature motor displacement limitation control, which reduces the maximum displacement of a hydraulic motor, when the temperature of the hydraulic fluid detected by the fluid temperature detector is lower than a predetermined temperature. | 06-21-2012 |
20130146384 | FORKLIFT - In order to decrease the number of handling components of a parking brake unit without increasing a length of a wheel base, there is provided a forklift including a main input shaft which is rotationally driven by a hydraulic motor, a differential input shaft which rotates by the rotation of the main input shaft, and a differential mechanism which is provided between the differential input shaft and a front axle, the forklift being configured to run by transmitting power of the hydraulic motor to the front axle through the main input shaft, the differential input shaft, and the differential mechanism, wherein an idle shaft is disposed so as to be parallel to the differential input shaft, a power transmission mechanism obtained by meshing gears and is interposed between the differential input shaft and the idle shaft, and then a parking brake unit is provided in the idle shaft. | 06-13-2013 |
20130192918 | Brake System Having a Brake Capacity Test Mode for a Machine Having a Hydrostatic Drivetrain - A brake system and method includes a test mode for determining a capacity of the brake system provided on a machine having a hydrostatic drive. A hydrostatic drive target differential pressure range is determined to simulate a test torque. A machine ground speed limit, hydrostatic drive actual differential pressure, and actual ground speed of the machine are determined. An output pressure of the hydrostatic pump is modulated to drive the hydrostatic drive actual differential pressure toward the hydrostatic drive target differential pressure range. A first test fault condition is determined when the actual ground speed exceeds the machine ground speed limit. A second test fault condition is determined when the hydrostatic drive actual differential pressure is outside the hydrostatic drive target differential pressure range. | 08-01-2013 |
20140138177 | CONSTRUCTION MACHINE - An engine ( | 05-22-2014 |
180308000 | Having separate motor for each driven, surface-engaging member | 5 |
20080271939 | Pump System And Axle-Driving System - A pump system includes a housing, an input shaft, a pump shaft; a hydraulic pump body, a PTO shaft, a power transmission gear train, and a PTO clutch mechanism. The housing has a narrow gear accommodating space surrounding a region including a mesh point between the first and second transmission gears of the power transmission gear train, a PTO clutch accommodating space which surrounds the PTO clutch mechanism and which is fluidly communicated with the gear accommodating space, and a pair of first and second suction/discharge ports which communicate the internal space of the housing with an outside of the housing. The first suction/discharge port is arranged within the gear accommodating space so as to be positioned in an opposite side to the PTO clutch accommodating space with the mesh point between the first and second transmission gears interposed therebetween. | 11-06-2008 |
20080296080 | Hydraulic Transaxle And Vehicle Comprising It - A hydraulic transaxle comprises a transaxle casing for supporting left and right axles, a pair of hydraulic motors disposed in the transaxle casing so as to drive the respective left and right axles, hydraulic ports provided in the transaxle casing so as to fluidly connect the pair of hydraulic motors in parallel to a common hydraulic pump, and a system for restricting or canceling differential rotation of the pair of hydraulic motors. | 12-04-2008 |
20100230201 | THREE-WHEEL FORKLIFT TRUCK - A forklift truck comprises two driven front wheels | 09-16-2010 |
20160082828 | Flow Divider Free Wheeling Valve - A main valve and method assembling for use on a machine is disclosed. The main valve may comprise a body, a free wheeling valve, a bypass valve, a flow divider valve, a free wheeling pilot valve, and a flow divider bypass pilot control valve. Each valve may be disposed inside the body. The body may define a plurality of ports and channels between the valves. The free wheeling valve may be operable between a free wheeling mode and a drive assist mode. The bypass valve may have a flow dividing mode that permits fluid communication between the free wheeling valve and the flow divider valve, and a bypass mode that permits fluid communication between the free wheeling valve and first and second bypass channels. | 03-24-2016 |
20160114670 | HYDRAULIC DRIVE FOR A MOTOR VEHICLE AND METHOD FOR ITS OPERATION - A device for a hydraulic wheel drive of a motor vehicle includes a wheel flange; a stub axle; and a rotary piston wheel drive configured and designed to introduce and receive a torque at the wheel flange. An active intervention of the rotary piston wheel drive is designed to be able to be switched on and decoupled. The present invention ensures that the vehicle can drive over rough tracks in the off-road sector. In addition the device can be engaged to recover braking force. | 04-28-2016 |