A gearbox comprises a differential gear train. The differential gear train comprises a ring gear assembly, a sun gear assembly, and a planetary carrier assembly connected to a planetary gear mechanism. The planetary carrier assembly comprises side plates. The side plates combine with gears to form high-pressure volume units and low-pressure volume units, and a throttle channel is connected between two volume units. The high-pressure volume unit is constructed in a meshing zone of the gears. All high-pressure volume units are connected and communicated with each other by means of a high-pressure oil channel on the planetary carrier assembly. The gearbox can reduce the volume of the high-pressure volume unit, simplify the structure and process, and improve the transmission efficiency and reliability

A transmission may include an input shaft, a first output shaft, a second output shaft, a first planetary gearset, and a second planetary gearset connected to the first planetary gearset. The input shaft, the first and second output shafts, and the planetary gearsets may be arranged such that a torque input via the input shaft is converted and distributed in a defined ratio to the two output shafts, and the formation of a combined torque is prevented. At least one element of the first planetary gearset may be connected to at least one element of the second planetary gearset with a shaft for conjoint rotation, and at least one element of the second planetary gearset may be fixed in place on a non-rotating component. A connector may be arranged and configured to passively, and therefore without a control unit and without an actuator, connect the first output shaft and second output shaft.

A net-shaped composite plenum housing body for a differential assembly having a pump is disclosed. The plenum housing body can include a low pressure inlet and a high pressure outlet configured to receive a control valve. The plenum housing body can also define a fluid inlet channel in fluid communication with the low pressure inlet via a first internal port and can be configured to be in fluid communication with an inlet side of the pump when the plenum housing body is assembled onto the differential assembly. The plenum housing body can also define a fluid outlet channel in fluid communication with the high pressure outlet via a second internal port and can be configured to be in fluid communication with an outlet side of the pump when the plenum housing body is assembled onto the differential assembly. The plenum housing body can also be formed as a net-shape fiber reinforced plastic material including chopped fibers, for example, chopped fiberglass fibers, and an epoxy resin.

A net-shaped composite plenum housing body for a differential assembly having a pump is disclosed. The plenum housing body can include a low pressure inlet and a high pressure outlet configured to receive a control valve. The plenum housing body can also define a fluid inlet channel in fluid communication with the low pressure inlet via a first internal port and can be configured to be in fluid communication with an inlet side of the pump when the plenum housing body is assembled onto the differential assembly. The plenum housing body can also define a fluid outlet channel in fluid communication with the high pressure outlet via a second internal port and can be configured to be in fluid communication with an outlet side of the pump when the plenum housing body is assembled onto the differential assembly. The plenum housing body can also be formed as a net-shape fiber reinforced plastic material including chopped fibers, for example, chopped fiberglass fibers, and an epoxy resin.

A transmission may include an input shaft, a first output shaft, a second output shaft, a first planetary gearset, and a second planetary gearset connected to the first planetary gearset. The input shaft, the first and second output shafts, and the planetary gearsets may be arranged such that a torque input via the input shaft is converted and distributed in a defined ratio to the two output shafts, and the formation of a combined torque is prevented. At least one element of the first planetary gearset may be connected to at least one element of the second planetary gearset with a shaft for conjoint rotation, and at least one element of the second planetary gearset may be fixed in place on a non-rotating component. A connector may be arranged and configured to passively, and therefore without a control unit and without an actuator, connect the first output shaft and second output shaft.

A gearbox comprises a differential gear train. The differential gear train comprises a ring gear assembly, a sun gear assembly, and a planetary carrier assembly connected to a planetary gear mechanism. The planetary carrier assembly comprises side plates. The side plates combine with gears to form high-pressure volume units and low-pressure volume units, and a throttle channel is connected between two volume units. The high-pressure volume unit is constructed in a meshing zone of the gears. All high-pressure volume units are connected and communicated with each other by means of a high-pressure oil channel on the planetary carrier assembly. The gearbox can reduce the volume of the high-pressure volume unit, simplify the structure and process, and improve the transmission efficiency and reliability.

An axle assembly having a pair of axle half shafts and an axle housing defining a sump. The axle assembly further includes a first clutch assembly including a first half and a second half, wherein the first half is selectively engaged to the second half. The axle assembly also includes a second clutch assembly disposed adjacent to the first clutch assembly, wherein the second clutch includes a gear and the gear is selectively engaged with the second half of the first clutch assembly. Yet further, the axle assembly includes a lubrication pump mounted in the axle housing and drivingly coupled to the second clutch assembly; a spring mounted between the first half and the second half of the first clutch assembly; and a bearing disposed between the spring and the second half of the first clutch assembly.

An axle assembly having a pair of axle half shafts and an axle housing defining a sump. The axle assembly further includes a first clutch assembly including a first half and a second half, wherein the first half is selectively engaged to the second half. The axle assembly also includes a second clutch assembly disposed adjacent to the first clutch assembly, wherein the second clutch includes a gear and the gear is selectively engaged with the second half of the first clutch assembly. Yet further, the axle assembly includes a lubrication pump mounted in the axle housing and drivingly coupled to the second clutch assembly; a spring mounted between the first half and the second half of the first clutch assembly; and a bearing disposed between the spring and the second half of the first clutch assembly.

The differential control device prohibits or limits a differential motion generated by the differential device. The sensor detects a turning angular velocity of the motor grader. Based on the turning angular velocity detected by the sensor, the controller controls the differential control device to perform the differential prohibition or limitation.

A limited-slip differential system including a housing, a differential carrier disposed within the housing and including first and second carrier portions, a differential, a clutch pack and a pressure system is disclosed. The differential is configured to distribute torque from a drive shaft to first and second axles in accordance with a speed difference between the first and second axles. The pressure system is configured to selectively exert an axial force on the clutch pack, which includes first and second plurality of clutch plates respectively connected to one of the first and second carrier portions and a hub member, for selectively causing frictional engagement of the clutch plates. At least one of the first and second carrier portions at least partially defines at least one lubrication channel extending radially, and fluidly connecting an exterior of the differential carrier to an interior thereof for lubricating at least two clutch plates.