| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 180247000 | With manually operated means for disengaging drive to one or more, but fewer than all, of the four wheels | 14 |
| 20080296078 | Torque transfer device with torque tube coupling mechanism - A power transmission device includes a rotatable input member, a rotatable output member and a friction clutch positioned within a housing. The friction clutch is operable to selectively transfer torque between the input member and the output member. A torque tube has a first end fixed to the friction clutch housing and a second end adapted to be fixed to an axle housing. The rotatable output member is supported to rotate within the torque tube and adapted to drivingly engage a rotatable member of an axle housing. | 12-04-2008 |
| 20090188741 | ATV engine power output conversion mechanism - Disclosed is an all-terrain vehicle (ATV) engine power output conversion mechanism, which is characterized primarily by linking a first transmission assembly to the output terminal of the engine, where the central shaft of the first transmission assembly is provided with a first gear at its one end which connects to the output terminal of the engine, while the other end of the central shaft to a first bevel gear; having a second transmission assembly, where its central shaft is provided with a second bevel gear at its one end which gears to the first bevel gear, while the other end of the central shaft to a second gear, and the central shaft is joined to the rear wheel axle to drive the rear wheels; having a third transmission assembly, where its central shaft is provided with a third gear which gears to the second gear, and the third gear gears to a reduction gear, where the output terminal of the reduction gear is used to drive the front wheels; and having a switch set up at the handle bar of the ATV or wherever the rider can reach, where the switch is for the control of the reduction gear to drive the front wheel. Through such setup, the ATVs are capable of selecting a two-wheel drive or a four-wheel drive, subject to the demand upon various terrain conditions. | 07-30-2009 |
| 20090250284 | SMALL-SIZED VEHICLE WITH IMPROVED DRIVETRAIN - There is provided a small-sized vehicle (SSV) capable of inhibiting a differential unit from becoming large in a vertical direction. The small-sized vehicle comprises an engine, a rear output shaft portion arranged to extend rearwardly of the engine and serving to transmit a driving force of the engine rearward, an intermediate shaft portion rotated by the rear output shaft portion and extended in a vehicle width direction, a rear-wheel differential unit rotated by the intermediate shaft portion and serving for differential movements of a pair of rear-wheel axle shafts connected to a pair of rear wheels. | 10-08-2009 |
| 20090277711 | DRIVE TRAIN FOR A VEHICLE WITH CONNECTABLE SECONDARY AXLE - The invention relates to a drive train of a vehicle, comprising a permanently driven primary axle and a secondary axle connectable to the primary axle via a switch-on device with a switch-on mechanism, whereby the secondary drive train output via side shaft couplings is transferred to the drive wheels of the secondary axle. | 11-12-2009 |
| 20090283349 | FOUR-WHEEL DRIVE VEHICLE - A vehicle includes a sensor sensing external temperature, a 2WD/4WD switch operated to input an instruction to switch a two-wheel drive state and a four-wheel drive state, a transfer switching mechanical power transfer for the two-wheel drive state and that for the four-wheel drive state, an actuator actuating the transfer, and an ECU controlling the actuator. The ECU determines from a value detected by the sensor a current supplied to the actuator. Preferably, the transfer includes a synchronizer mechanism driven by power generated by the actuator to transfer a drive shaft's rotation to a driven shaft and engage the shafts together when they achieve synchronous rotation. | 11-19-2009 |
| 20090321170 | REDUCED FRICTION DIFFERENTIAL DISCONNECT FOR A MOTOR VEHICLE - An axle disconnect system for selectively connecting or disconnecting a wheel-side shaft and a differential-side shaft having a common axis of rotation in a drivetrain of a motor vehicle. In the axle disconnect an output gear is splined to the wheel-side shaft on an outside diameter of the wheel-side shaft, and a translatable collar is splined to the output gear on an outside diameter of the output gear. The collar is arranged to be translated along the common axis of rotation for splined connection with the differential-side shaft while retaining the splined connection with the output gear. | 12-31-2009 |
| 20100044138 | MOTOR VEHICLE WITH DISCONNECTABLE ALL-WHEEL DRIVE SYSTEM - A vehicle with a primary driveline that is configured to distribute rotary power to a first set of vehicle wheels, a power transmitting device and a secondary driveline that is configured to distribute power to a second set of vehicle wheels. The power transmitting device has an input member, which is driven by the primary driveline, and an output member that is selectively coupled to the input member to receive rotary power therefrom. The secondary driveline has a propshaft, an axle input, a pair of axle shafts and at least one torque transfer device. The propshaft transmits rotary power between the output member of the power transmitting device and the axle input. The axle shafts are rotatably coupled to an output of the differential and configured to transmit rotary power to the second set of vehicle wheels. The at least one torque transfer device is configured to selectively inhibit torque transmission between the axle input and the second set of vehicle wheels. | 02-25-2010 |
| 20130180793 | VEHICLE HAVING A VARIABLE ASSIST POWER STEERING ASSEMBLY - A recreational utility vehicle has a frame, four wheels, a pair of seats mounted laterally beside each other, a cage, a steering assembly, an engine, a front differential, a rear differential, an actuator selectively operatively connecting the engine to the front differential, and a vehicle drive mode switch for selecting between a first and second drive mode. When the first drive mode is selected, the actuator operatively connects the engine to the front differential, and when the second drive mode is selected, the actuator operatively disconnects the engine from the front differential. An electric motor is operatively connected to the steering assembly. A steering control unit is electrically connected to the electric motor, determines an output torque to be applied by the electric motor based at least in part on a speed of the vehicle, and controls the electric motor to apply the output torque to the steering assembly. | 07-18-2013 |
| 20140332300 | SYSTEM AND METHOD FOR CONTROLLING A VEHICLE - In accordance with one aspect of the techniques described herein, there is provided a vehicle comprising an engine, an automatic, robotic, or continuously variable transmission mechanically coupled to the engine, a four-wheel drive system, a vehicle control system coupled to the engine, the four-wheel drive system and the transmission, a breaking system, a gas pedal for controlling the operation of the engine, a break pedal for controlling the operation of the breaking system, the gas pedal and the break pedal being disposed in the vehicle for control by a right foot of the driver, the vehicle further comprising an additional pedal being disposed in the vehicle for control by a left foot of the driver and coupled to the vehicle control system, wherein the additional pedal is separate and distinct from the break pedal and the gas pedal and wherein additional pedal controls the four-wheel drive system of the vehicle. | 11-13-2014 |
| 20150343900 | UTILITY VEHICLE - In one embodiment, a utility vehicle includes a plurality of ground-engaging members configured to contact a ground surface, and a powertrain assembly operably coupled to the ground-engaging members. The utility vehicle also includes a frame supported by the ground-engaging members and extending along a longitudinal axis of the utility vehicle. The utility vehicle further includes a tunnel member coupled to the frame and extending along the longitudinal axis. The tunnel member is positioned at a first height from the ground surface. Additionally, the utility vehicle includes a cargo portion supported by the frame and positioned generally rearward of the tunnel member. The cargo portion has a cargo surface substantially aligned with the tunnel member and positioned at a second height from the ground surface. The first height is approximately equal to the second height. | 12-03-2015 |
| 20160016465 | VEHICLE WITH CONNECTABLE FOUR-WHEEL DRIVE - A vehicle with connectable four-wheel drive. The vehicle includes an engine with a drive shaft; a pair of main drive wheels; a main transmission line which permanently connects the drive shaft to the main drive wheels, the main transmission line including a main gearbox and a main differential; a pair of normally driven secondary drive wheels; and a connectable secondary transmission line for connecting the drive shaft also to the secondary drive wheels and having a geared transmission, at least one secondary clutch which on one side is connected to the drive shaft upstream of the main gearbox and on the other side is connected to the secondary drive wheels, and a continuously variable transmission which is controlled electronically to vary its transmission ratio in a continuous manner between two limit values without ever interrupting the transmission of the driving torque. | 01-21-2016 |
| 20160023550 | FOUR-WHEEL DRIVE VEHICLE AND METHOD FOR CONTROLLING FOUR-WHEEL DRIVE VEHICLE - A four-wheel drive vehicle are provided which enable enhancement of responsiveness to switching from a two-wheel drive state to a four-wheel drive state. A four-wheel drive vehicle includes a driving force transmission and cut-off apparatus that enables cut-off of transmission of a driving force from an engine to a propeller shaft, a driving shaft that rotates under a tuning force of the propeller shaft, a pair of hydraulic clutches and each disposed between the driving shaft and a corresponding one of rear wheels, and a control apparatus that controls a hydraulic unit that supplies hydraulic oil to the hydraulic clutches. In shifting the two-wheel drive state to the four-wheel drive state, the control apparatus controls the hydraulic unit such that a higher priority is given to supply of the hydraulic oil to first hydraulic clutch than to supply of the hydraulic oil to second hydraulic clutch. | 01-28-2016 |
| 20160176289 | System for Controlling Torque Distribution | 06-23-2016 |
| 20160185218 | UTILITY VEHICLE - A utility vehicle includes a diesel engine, a two-four wheel drive switcher provided on a driving power transmission path from the diesel engine and configured to switch transmission of driving power to driving wheels between a two-wheel drive mode and a four-wheel drive mode, and a vehicle control unit configured to control the two-four wheel drive switcher. The utility vehicle further includes a rollover sensor configured to detect rollover of the utility vehicle, and a fuel cutoff valve configured to cut off fuel supply to the diesel engine. The vehicle control unit determines whether or not the utility vehicle is being rolled over in accordance with detection by the rollover sensor and controls the fuel cutoff valve to cut off the fuel supply when the vehicle control unit determines that the utility vehicle is being rolled over. | 06-30-2016 |
