An assembly set for transmission devices for motor vehicles. Each of the transmission devices has an input shaft which can be operatively connected to a drive device of the motor vehicle, as well as a first output shaft, and a second output shaft, and has a spur gear differential transmission designed as a planetary transmission, via which the input shaft and an intermediate shaft that is coupled or can be coupled to an electric machine arranged coaxially to the input shaft are coupled to the first output shaft and the second output shaft. The electric machine is coupled to the input shaft in a first shift position of a shift device and to the intermediate shaft in a second shift position of the shift device.

A vehicle differential configured to enable variable speed between a first output shaft and a second output shaft, the vehicle differential including a ring gear, a first planetary gear carrier, the first planetary gear carrier carrying a plurality of first planetary gears at least partially positioned within the ring gear, the first planetary gear carrier operably coupled to a first output shaft, a second planetary gear carrier, the second planetary gear carrier carrying a plurality of second planetary gears at least partially positioned within the ring gear, the second planetary gear carrier operably coupled to a second output shaft, a first sun gear at least partially positioned within the plurality of first planetary gears, a second sun gear at least partially positioned within plurality of the second planetary gears, and a distributor shaft and reversal gear operably coupling the first sun gear to the second sun gear.

A vehicle differential configured to enable variable speed between a first output shaft and a second output shaft, the vehicle differential including a ring gear, a first planetary gear carrier, the first planetary gear carrier carrying a plurality of first planetary gears at least partially positioned within the ring gear, the first planetary gear carrier operably coupled to a first output shaft, a second planetary gear carrier, the second planetary gear carrier carrying a plurality of second planetary gears at least partially positioned within the ring gear, the second planetary gear carrier operably coupled to a second output shaft, a first sun gear at least partially positioned within the plurality of first planetary gears, a second sun gear at least partially positioned within plurality of the second planetary gears, and a distributor shaft and reversal gear operably coupling the first sun gear to the second sun gear.

An all-terrain vehicle and a transmission mechanism thereof are provided. The transmission mechanism includes an independent suspension axle, and the axle includes a left half-axle and a right half-axle. A mechanical locking spiral differential device is further provided at a joint of the left half-axle and the right half-axle, which makes the left half-axle and the right half-axle to be in a differential state when the vehicle runs normally, and to be in a differential locked state automatically when the vehicle slips on one side. The differential device allows the wheels to perform unequal distance running by pure rolling as much as possible and prevent the vehicle from side tipping and side slipping and tire scuffing, and also allows the torque on one side to be transferred to the torque on another side to enable the all-terrain vehicle to get rid of a stuck condition.

An integrated gear assembly includes a conjoined carrier assembly coupling a reducing gear set to a differential gear set. This includes first, second and third coaxial sun gears. The first sun gear meshingly engages first gear elements of stepped pinion gears of the reducing gear set. The second sun gear meshingly engages third pinion gears of the differential gear set. The third sun gear meshingly engages fourth pinion gears of the differential gear set. The third pinion gears of the differential gear set axially overlap second gear elements of the stepped pinion gears of the reducing gear set. The fourth pinion gears of the differential gear set axially overlap the third pinion gears of the differential gear set.

A gearing device for a motor vehicle, which is equipped with an input shaft that can be operationally connected to a drive unit, as well as a first output shaft and a second output shaft, wherein the first output shaft is connected or can be connected via a first gear with a first partial shaft of a wheel axle and the second output shaft is operationally connected or can be operationally connected via a second gear with a second partial shaft of the wheel axle.

A gearing device for a motor vehicle, which is equipped with an input shaft that can be operationally connected to a drive unit, as well as a first output shaft and a second output shaft, wherein the first output shaft is connected or can be connected via a first gear with a first partial shaft of a wheel axle and the second output shaft is operationally connected or can be operationally connected via a second gear with a second partial shaft of the wheel axle.

A transmission device for a motor vehicle includes a planetary gearset and a spur gear differential. The planetary gearset includes a drive sun gear, a ring gear fixed to the housing, and multiple stepped planetary gears. Each stepped planetary gear has a first gear meshing with the drive sun gear and a second gear meshing with the ring gear. The spur gear differential includes multiple first and second compensation gears. Each first compensation gear meshes with a first output sun gear, each second compensation gear meshes with a second output sun gear, and the first and second compensation gears mesh with each other in pairs. One compensation gear of each compensation gear pair is arranged in phase with a respective stepped planetary gear. The other compensation gear of each compensation gear pair overlaps axially and contactlessly with the second gear.

A transmission device for a motor vehicle includes a planetary gearset and a spur gear differential. The planetary gearset includes a drive sun gear, a ring gear fixed to the housing, and multiple stepped planetary gears. Each stepped planetary gear has a first gear meshing with the drive sun gear and a second gear meshing with the ring gear. The spur gear differential includes multiple first and second compensation gears. Each first compensation gear meshes with a first output sun gear, each second compensation gear meshes with a second output sun gear, and the first and second compensation gears mesh with each other in pairs. One compensation gear of each compensation gear pair is arranged in phase with a respective stepped planetary gear. The other compensation gear of each compensation gear pair overlaps axially and contactlessly with the second gear.

A bevel gear assembly for a vehicle includes a housing, a side plate, and a plurality of planet gears. The housing has an outer bevel gear profile and a first annular ring. The side plate is fixed to the housing and has a second annular ring. The plurality of planet gears is disposed axially between the first and second annular rings. In some example embodiments, the bevel gear assembly has a plurality of planet pins extending through respective planet gears of the plurality of planet gears. In an example embodiment, each of the planet pins of the plurality of planet pins extend through respective apertures in each of the first and second annular rings.