A differential locking system that can rotationally lock a shift fork and a sliding clutch assembly to ensure correct engagement of an axle shaft with a sliding clutch assembly during reassembly of an axle shaft. The differential locking system includes a first portion of a push rod is selectively engaged with a portion of the shift fork and a second portion of the push rod is selectively engaged with a portion of a carrier housing.

A differential locking system that can rotationally lock a shift fork and a sliding clutch assembly to ensure correct engagement of an axle shaft with a sliding clutch assembly during reassembly of an axle shaft. The differential locking system includes a first portion of a push rod is selectively engaged with a portion of the shift fork and a second portion of the push rod is selectively engaged with a portion of a carrier housing.

A differential device is provided with a casing rotatable about an axis, a differential gear set coupled therewith including a pinion gear with a pressure angle (a4) and side gears in mesh therewith, output members respectively mediating torque transmission from the side gears to axles, each of which includes a friction face as a friction clutch for limiting the differential motion, dog teeth, and an oblique face forming an angle (a1) and constituting a cam for operating the friction clutch, a clutch member axially movable for functioning as a clutch to lock the differential motion and including a leg having a side face forming an angle (a2) to function as a cam and movable dog teeth each forming an angle (a3) satisfying an inequality a2≥a3; and an actuator capable of driving the clutch member toward a position where the movable dog teeth mesh with the dog teeth.

A hydraulic control unit that delivers hydraulic fluid to a limited slip differential includes a hydraulic control unit housing, a motor and a pump. The hydraulic control unit housing has a manifold housing portion and an accumulator housing portion. The manifold housing portion defines a fluid pathway arrangement for communicating fluid along at least a first fluid pathway. The accumulator housing portion houses an accumulator assembly having a biasing assembly and a piston. The accumulator housing portion and manifold housing portion cooperate to form an accumulator chamber that houses the biasing assembly. The motor is disposed on the first side of the manifold housing portion. The pump is disposed on a second side of the manifold portion, opposite the first side. The pump is configured to pump fluid into the accumulator chamber of the accumulator housing portion.

Methods of controlling a tandem axle assembly in a vehicle, the tandem axle assembly including an inter-axle differential (IAD), one or more side gears, and a front tandem axle assembly having a pair of front tandem axle half shafts selectively connected to a pair of front tandem axle wheel hub assemblies. When a determined speed of the vehicle is greater or equal to a predetermined speed, the IAD may be locked, the tandem axle wheel hub assemblies may be disconnected from their respective tandem axle shafts, and/or the IAD may be moved out of engagement with the one or more side gears. When a determined speed of the vehicle is less than a predetermined speed, the IAD may be unlocked, the tandem axle wheel hub assemblies may be connected to their respective tandem axle shafts, and/or the IAD may be engaged with the one or more side gears.

Methods of controlling a tandem axle assembly in a vehicle, the tandem axle assembly including an inter-axle differential (IAD), one or more side gears, and a front tandem axle assembly having a pair of front tandem axle half shafts selectively connected to a pair of front tandem axle wheel hub assemblies. When a determined speed of the vehicle is greater or equal to a predetermined speed, the IAD may be locked, the tandem axle wheel hub assemblies may be disconnected from their respective tandem axle shafts, and/or the IAD may be moved out of engagement with the one or more side gears. When a determined speed of the vehicle is less than a predetermined speed, the IAD may be unlocked, the tandem axle wheel hub assemblies may be connected to their respective tandem axle shafts, and/or the IAD may be engaged with the one or more side gears.

The assembly comprises: —a differential housing (24a) having a longitudinal axis (23); —a differential side gear (18) connected to a drive shaft (11), rotatably mounted inside and relative to the differential housing around the axis; —a blocking system for blocking the differential unit operation, comprising: —a blocking member (50) mounted inside the differential housing in a rotationally fixed manner; —and an actuation system (60) for sliding the blocking member along the axis between a blocking position, in which the blocking member and the differential side gear are rotationally secured to one another, and a released position. The actuation system comprises: —a connecting device (70) comprising: —an outer portion (80) mounted on and outside the differential housing in a rotationally fixed manner, wherein the outer portion can slide relative to the differential housing along the axis; —a through portion (71) which extends through the differential housing peripheral wall and fixedly connects the connecting device outer portion (80) and the blocking member (50); —an actuation device (65) located outside the differential housing (24a) and capable of moving the blocking member (50) relative to the differential housing (24a) between said released and blocking positions, via the connecting device (70).

A differential device for a 4-wheel-drive vehicle wherein a portion of a drive power source drive force transmitted to left and right main drive wheels is transmitted to left and right auxiliary drive wheels through a propeller shaft which is disconnectable from a power transmitting path between the main drive wheels and drive power source, the differential device distributes the drive force from the propeller shaft to the auxiliary drive wheels, and selectively connects and disconnects the propeller and an output shaft to and from each other, the output shaft. The differential device includes a side oil seal between the output shaft and a casing, a side bearing adjacent to the seal in an output shaft axial direction such that the output shaft is rotatably supported by the casing via the bearing, and an oil slinger axially adjacent to the bearing so the slinger is rotated with the output shaft.

The invention relates to an assembly for a differential unit (10) of a vehicle, comprising:a differential housing (24a) having a longitudinal axis (23);a differential side gear (18) configured to be connected to a drive shaft (11) capable of being connected to a wheel of a vehicle, the differential side gear being located inside the differential housing and being rotatably mounted relative to the differential housing around the longitudinal axis;a blocking system (100) for blocking the differential unit operation, comprising a blocking member (50) movable between a released position and a blocking position, and an actuation system (60) for moving the blocking member (50) between said released and blocking positions; wherein the blocking member (50) is located inside the differential housing (24a) and is configured to rotationally secure the differential housing (24a) and the differential side gear (18).

Methods of controlling a tandem axle assembly in a vehicle, the tandem axle assembly including an inter-axle differential (IAD), one or more side gears, and a front tandem axle assembly having a pair of front tandem axle half shafts selectively connected to a pair of front tandem axle wheel hub assemblies. When a determined speed of the vehicle is greater or equal to a predetermined speed, the IAD may be locked, the tandem axle wheel hub assemblies may be disconnected from their respective tandem axle shafts, and/or the IAD may be moved out of engagement with the one or more side gears. When a determined speed of the vehicle is less than a predetermined speed, the IAD may be unlocked, the tandem axle wheel hub assemblies may be connected to their respective tandem axle shafts, and/or the IAD may be engaged with the one or more side gears.