A cam liner for use in an integrated drive generator has a cam liner body extending between a first end spaced from the second end by a first distance. The body is generally cylindrical. An outer diameter of the cam liner defines a second distance. A ratio of the first distance to the second distance is between 0.90 and 1.00. An integrated drive generator and a method are also disclosed.

A vehicle drive device including: a first rotary electric machine; a second rotary electric machine; a first coupler drivingly coupled to a first wheel; a second coupler drivingly coupled to a second wheel; a transmission device that transmits torque of the first rotary electric machine to at least the first coupler out of the first coupler and the second coupler, and transmits torque of the second rotary electric machine to at least the second coupler out of the first coupler and the second coupler; and a case that accommodates the first rotary electric machine, the second rotary electric machine, the first coupler, the second coupler, and the transmission device.

Some embodiments are directed to a differential including: a left-side planetary gear set having a sun gear configured to receive rotational drive input from a drive source, a ring gear in a torque connection with an electric motor and a carrier gear configured to be operatively coupled with a left-side vehicle drive member in a torque connection; a right-side planetary gear set having a sun gear configured to receive rotational drive input from the drive source, a ring gear in a torque connection with the electric motor and a carrier gear configured to be operatively coupled with a right-side vehicle drive member in a torque connection; wherein the sun gears of the left and right side planetary gear sets are rotationally fixed relative to each other and, in use, the amount of power transferred between the drive source and each of the respective drive members can be selectively controlled.

The power distribution device includes: a double pinion first planetary gear mechanism including a first sun gear, a first carrier, and a first ring gear; and a double pinion second planetary gear mechanism including a second sun gear, a second carrier, and a second ring gear. The first sun gear and the second carrier are connected to each other and connected to a first motor, and the first carrier and the second sun gear are connected to each other and connected to a second motor. The first ring gear and the second ring gear are respectively connected to a right output shaft and a left output shaft, and a gear ratio of the first ring gear to the first sun gear and a gear ratio of the second ring gear to the second sun gear are set to the same value.

To provide a variable axle driving device which can obtain a high deceleration ratio, and which can prevent noise from being easily generated. Provided is an axle driving device which includes a planet gear mechanism. The planet gear mechanism includes first planetary gears, second planetary gears, first stepped gears, and second stepped gears. A driving force is input into a larger gear of each first stepped gear. A smaller gear of each first stepped gear is meshed with a larger gear of each second stepped gear. A smaller gear of each second stepped gear is connected to a first internal gear via the first planetary gear. A larger gear of each second stepped gear is connected to a second internal gear via a second planetary gear.

A vehicle drive device including: a first rotary electric machine; a second rotary electric machine; a first coupler drivingly coupled to a first wheel; a second coupler drivingly coupled to a second wheel; a transmission device that transmits torque of the first rotary electric machine to at least the first coupler out of the first coupler and the second coupler, and transmits torque of the second rotary electric machine to at least the second coupler out of the first coupler and the second coupler; and a case that accommodates the first rotary electric machine, the second rotary electric machine, the first coupler, the second coupler, and the transmission device;

A power-driven system includes: a differential; a power output shaft configured to link to a power input end of the differential; multiple input shafts; and a first motor generator. The differential includes a first planet carrier, a second planet carrier, a first planet gear, a second planet gear, a first ring gear, and a second ring gear. The first planet gear and the second planet gear are respectively disposed on the first planet carrier and the second planet carrier and respectively meshed with the first ring gear and the second ring gear. One input shaft of the multiple input shafts is configured to selectively link to the power output shaft, and another input shaft of the multiple input shafts is configured to link to the power output shaft. The first motor generator is configured to link to the one input shaft of the multiple input shafts.

A control system for hybrid vehicles to eliminate the shortage of drive force within the low-to-mid speed range in the hybrid mode. In a differential mechanism, a first rotary element is connected to an engine, a second rotary element is connected to a first motor, a third rotary element is connected to a second motor, and a fourth rotary element is connected to an output unit. A third motor is connected to the output unit. When the controller determines that the hybrid vehicle is propelled by the torque of the engine, the first motor and the second motor generate torques in a same direction as an engine torque to propel the vehicle in a forward direction, and the third motor generates a torque in the forward direction to propel the vehicle together with the engine torque.

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.

An axle drive, comprising a drive shaft, a first output shaft and a second output shaft, a first planetary gear mechanism and a second planetary gear mechanism, it being possible for a drive torque of the drive shaft to be transmitted by means of the first planetary gear mechanism and the second planetary gear mechanism to the first and second output shaft, wherein the second planetary gear mechanism is configured radially on the outside coaxially around the first planetary gear mechanism, the internal gear of the first planetary gear mechanism forming the sun gear of the second planetary gear mechanism.