An off-road utility vehicle includes a frame, an engine, a continuously variable transmission, a transaxle comprising a rear differential, an intermediate drive assembly comprising an intermediate differential, and a front drive assembly comprising a front differential. The intermediate drive assembly and transaxle are coupled via an intermediate driveshaft and the front drive assembly and the intermediate drive assembly are coupled via a front drive shaft. The front drive shaft and the intermediate drive shaft are counter rotating.

An off-road utility vehicle includes a frame, an engine, a continuously variable transmission, a transaxle comprising a rear differential, an intermediate drive assembly comprising an intermediate differential, and a front drive assembly comprising a front differential. The intermediate drive assembly and transaxle are coupled via an intermediate driveshaft and the front drive assembly and the intermediate drive assembly are coupled via a front drive shaft. The front drive shaft and the intermediate drive shaft are counter rotating.

A gearbox unit for a motor vehicle, wherein the motor vehicle has a first and a second wheeled axle, the second wheeled axle including a first sub-axle and a second sub-axle. The gearbox assembly of the motor vehicle may include a first connecting shaft operatively connectable to the first sub-axle, a second connecting shaft operatively connectable to the second sub-axle, and a coupling gearbox, which has a drive input shaft operatively connectable to a drive assembly of the motor vehicle and which has a drive output shaft operatively connectable to the first wheeled axle. The drive input shaft may be operatively connected in torque-splitting fashion to the first and the second connecting shaft. The drive output shaft may be operatively connectable to the first connecting shaft so as to be switchable by a first clutch and to the second connecting shaft so as to be switchable by a second clutch.

A gearbox unit for a motor vehicle, wherein the motor vehicle has a first and a second wheeled axle, the second wheeled axle including a first sub-axle and a second sub-axle. The gearbox assembly of the motor vehicle may include a first connecting shaft operatively connectable to the first sub-axle, a second connecting shaft operatively connectable to the second sub-axle, and a coupling gearbox, which has a drive input shaft operatively connectable to a drive assembly of the motor vehicle and which has a drive output shaft operatively connectable to the first wheeled axle. The drive input shaft may be operatively connected in torque-splitting fashion to the first and the second connecting shaft. The drive output shaft may be operatively connectable to the first connecting shaft so as to be switchable by a first clutch and to the second connecting shaft so as to be switchable by a second clutch.

Provided herein in a method of disconnecting and connecting a tandem axle system, the method including the steps of: providing a tandem axle system including a primary clutch in driving engagement with a prime mover, an inter-axle differential and clutch assembly including an inter-axle differential and an inter-axle differential lock in selective driving engagement with the primary clutch, a forward axle assembly having a disconnect assembly, a rear axle assembly having a disconnect assembly, and a control system in communication with the inter-axle differential lock, the differential lock assembly, and the disconnect assemblies; disconnecting the disconnect assemblies of the forward and rear axle assemblies; engaging the inter-axle differential lock; disengaging the primary clutch; matching rotational speeds of the axle half shafts disconnect assemblies of the front and rear axle assemblies; connecting the disconnect assemblies of the forward and rear axle assemblies; and engaging the primary clutch.

Provided herein in a method of disconnecting and connecting a tandem axle system, the method including the steps of: providing a tandem axle system including a primary clutch in driving engagement with a prime mover, an inter-axle differential and clutch assembly including an inter-axle differential and an inter-axle differential lock in selective driving engagement with the primary clutch, a forward axle assembly having a disconnect assembly, a rear axle assembly having a disconnect assembly, and a control system in communication with the inter-axle differential lock, the differential lock assembly, and the disconnect assemblies; disconnecting the disconnect assemblies of the forward and rear axle assemblies; engaging the inter-axle differential lock; disengaging the primary clutch; matching rotational speeds of the axle half shafts disconnect assemblies of the front and rear axle assemblies; connecting the disconnect assemblies of the forward and rear axle assemblies; and engaging the primary clutch.

The present invention relates to an aircraft comprising a fuselage (1), a propulsion unit (7) at the rear tip of the fuselage and at least two engines (3, 5) each driving an engine shaft (32, 52), the propulsion unit including at least one propeller (71, 73) driven mechanically by the engine shafts (32, 52), characterised in that the propulsion unit (7) includes two propellers (71, 73), each of the propellers being driven by a propeller shaft (72, 74), the two propeller shafts being driven by the engine shafts (32, 52) via a first differential epicyclic gear train (40). Specifically, the input of the first differential gear train (40) is connected to the output of a second differential epicyclic gear train (60), the second differential gear train (60) including two inputs (61c2, 62c2), each of said two inputs being connected mechanically to one of said engine shafts (32, 52).

The present invention relates to an aircraft comprising a fuselage (1), a propulsion unit (7) at the rear tip of the fuselage and at least two engines (3, 5) each driving an engine shaft (32, 52), the propulsion unit including at least one propeller (71, 73) driven mechanically by the engine shafts (32, 52), characterised in that the propulsion unit (7) includes two propellers (71, 73), each of the propellers being driven by a propeller shaft (72, 74), the two propeller shafts being driven by the engine shafts (32, 52) via a first differential epicyclic gear train (40). Specifically, the input of the first differential gear train (40) is connected to the output of a second differential epicyclic gear train (60), the second differential gear train (60) including two inputs (61c2, 62c2), each of said two inputs being connected mechanically to one of said engine shafts (32, 52).

A planetary bevel gear automatic limited slip differential includes five portions that are a main differential, a planetary bevel gear controller, a left drive axle shaft, a right drive axle shaft, and clutches. The planetary bevel gear controller includes an outer control unit and an inner control unit, the outer control unit includes four planetary bevel gears on an outer layer and a bevel gear fixed on a housing, and the inner control unit includes inner planetary bevel gears on an inner side and two bevel gears which have the same parameters and are meshed with the planetary bevel gears. The bevel gears are fixedly connected with outer rings of two overrunning clutches, respectively, and inner rings of the overrunning clutches and the right drive axle shaft are connected together by splines.

A planetary bevel gear automatic limited slip differential includes five portions that are a main differential, a planetary bevel gear controller, a left drive axle shaft, a right drive axle shaft, and clutches. The planetary bevel gear controller includes an outer control unit and an inner control unit, the outer control unit includes four planetary bevel gears on an outer layer and a bevel gear fixed on a housing, and the inner control unit includes inner planetary bevel gears on an inner side and two bevel gears which have the same parameters and are meshed with the planetary bevel gears. The bevel gears are fixedly connected with outer rings of two overrunning clutches, respectively, and inner rings of the overrunning clutches and the right drive axle shaft are connected together by splines.