An attachment structure of a generator and a working machine including a transmission case; and a PTO shaft protruding from the transmission case, includes a structure body attached to a side of the transmission case from which the PTO shaft protrudes, and includes the generator attached to the structure body.

An electrically-operated electric drive module for use in a vehicle framework that is configured for a powertrain that includes an internal combustion engine. The electrically-operated electric drive module permits the vehicle to be converted to an electrically propelled vehicle in a manner that is cost-effective and which is relatively low in weight.

A system and method to add an additional drive axle to a vehicle may include an auxiliary shaft aperture bored through the differential housing and an auxiliary shaft sleeve mounted over the aperture. An auxiliary shaft has a splined end interconnected to a modified pinion and a short transfer drive shaft interconnect disposed on an opposite end thereof, the short transfer drive shaft interconnect extending out from the modified differential housing through the auxiliary shaft sleeve. A short transfer drive shaft is operatively interconnected to the auxiliary shaft and rotational therewith. Further, an additional drive axle assembly is mounted to the vehicle rearward of the original drive axle, and the modified differential is operatively interconnected to an additional drive axle via the short transfer drive shaft, such that when the short transfer drive shaft rotates with the auxiliary shaft, the additional drive axle rotates with the original drive axle.

Powertrain, comprising an inverter unit comprising an inverter configured for converting direct current to alternating current and an inverter housing defining an inverter housing interior volume accommodating the inverter, and an electric motor comprising a rotor and a stator, the rotor defining a motor axis and the electric motor being configured for providing torque, and an electric motor housing, and a reducing gear unit comprising a reducing gear and a reducing gear cover surrounding the reducing gear, the reducing gear defining an output reducing gear axis, wherein the output reducing gear axis is parallel to the motor axis, and in that the reducing gear cover and the inverter housing are arranged at opposite ends of the electric motor with respect to the motor axis, and in that the inverter housing comprises a cut-out, wherein the cut-out defines a cut-out region fully contained within the convex hull of the inverter housing, wherein the cut-out region is disjoint from the inverter housing interior volume, and in that the output reducing gear axis passes through the cut-out region without passing through the inverter housing interior volume. Inductive charging module may be rigidly attached to at least one of the inverter housing, the electric motor housing, the reducing gear cover, and the inductive charging module may be configured to utilize electric components of the inverter, and/or the inductive charging module may be configured to be cooled by a liquid cooling circuit cooling the inverter and/or the electric motor and/or the reducing gear unit.

Powertrain, comprising an inverter unit comprising an inverter configured for converting direct current to alternating current and an inverter housing defining an inverter housing interior volume accommodating the inverter, and an electric motor comprising a rotor and a stator, the rotor defining a motor axis and the electric motor being configured for providing torque, and an electric motor housing, and a reducing gear unit comprising a reducing gear and a reducing gear cover surrounding the reducing gear, the reducing gear defining an output reducing gear axis, wherein the output reducing gear axis is parallel to the motor axis, and in that the reducing gear cover and the inverter housing are arranged at opposite ends of the electric motor with respect to the motor axis, and in that the inverter housing comprises a cut-out, wherein the cut-out defines a cut-out region fully contained within the convex hull of the inverter housing, wherein the cut-out region is disjoint from the inverter housing interior volume, and in that the output reducing gear axis passes through the cut-out region without passing through the inverter housing interior volume. Inductive charging module may be rigidly attached to at least one of the inverter housing, the electric motor housing, the reducing gear cover, and the inductive charging module may be configured to utilize electric components of the inverter, and/or the inductive charging module may be configured to be cooled by a liquid cooling circuit cooling the inverter and/or the electric motor and/or the reducing gear unit.

An air intake system for a vehicle has a conduit having an internal wall forming an air passage. A deflector is disposed within the air passage. A restricting structure is disposed within the air passage between the deflector and a conduit outlet. The restricting structure defines at least in part an opening substantially laterally aligned with the deflector. The restricting structure has a lateral wall disposed downstream of the deflector and extending within the air passage. The lateral wall has a front surface generally facing a conduit inlet, and a plurality of surface-increasing features provided on the front surface. Each of the surface-increasing features has a length of at least 1 mm measured from the front surface in a direction normal thereto. An air intake system having a collector connected to the deflector and positioned to collect at least some moisture from air flowing past the deflector is also described.

A coaxial co-located vehicle power drive and steering system includes a motor coupled to a transmission having a drive shaft with a first portion and a second portion mechanically interlocked by a spline having corresponding meshing features extending parallel to the drive shaft longitudinal axis. A drive shaft housing enclosing at least a length of the drive shaft, the drive shaft housing including a first portion and a second portion mechanically interlocked by a spline having corresponding meshing features extending parallel to the drive shaft longitudinal axis. A distal end of the drive shaft terminating within a differential gearbox in mechanical communication with an axle. A steering system coupled to the drive shaft housing second portion, the steering system including one or more rotatable gears which cause an angular rotation of the housing in relation to the drive shaft.

The present disclosure relates to a wheel drive shaft arrangement (1) for a vehicle, comprising: —a wheel drive shaft (10) having a first (11) and a second (12) axial end, —a constant-velocity joint (2) provided at the first end, the constant-velocity joint comprising a first articulated joint member (21) and a second articulated joint member (22) which are drivingly and pivotally connected, characterized in that the first articulated joint member is drivingly connected to the first end and the second articulated joint member is drivingly connectable to a driving member (3) of the vehicle, and wherein the wheel drive shaft arrangement further comprises: —a double centered universal joint (4) provided at the second end, the double centered universal joint comprising a third articulated joint member (41) drivingly connected to the second end, a fourth articulated joint member (42) drivingly connectable to a wheel hub (5) of the vehicle and an intermediate articulated joint member (43) drivingly and pivotally connecting the third and fourth articulated joint members. The disclosure also relates to a wheel driving arrangement (60) and to a vehicle (100).

The present disclosure relates to a wheel drive shaft arrangement (1) for a vehicle, comprising: —a wheel drive shaft (10) having a first (11) and a second (12) axial end, —a constant-velocity joint (2) provided at the first end, the constant-velocity joint comprising a first articulated joint member (21) and a second articulated joint member (22) which are drivingly and pivotally connected, characterized in that the first articulated joint member is drivingly connected to the first end and the second articulated joint member is drivingly connectable to a driving member (3) of the vehicle, and wherein the wheel drive shaft arrangement further comprises: —a double centered universal joint (4) provided at the second end, the double centered universal joint comprising a third articulated joint member (41) drivingly connected to the second end, a fourth articulated joint member (42) drivingly connectable to a wheel hub (5) of the vehicle and an intermediate articulated joint member (43) drivingly and pivotally connecting the third and fourth articulated joint members. The disclosure also relates to a wheel driving arrangement (60) and to a vehicle (100).

The invention discloses a novel power transmission structure suitable for all-terrain karts, comprising a first sprocket support frame, the upper part of the first sprocket support frame is provided with an upper bearing chock of the support frame, and the lower part is provided with a lower bearing chock of the support frame, the engine end output shaft of the engine is connected to the upper bearing chock of the support frame through a suitable coupling and bearing, the engine end output shaft is equipped with a first sprocket and chain mechanism, and the sprocket of the first sprocket and chain mechanism is installed on the sprocket bearing chock. Compared with the prior art, the invention has the advantages that the overall structure is simple and practical, and the power output from the engine is efficiently transmitted to the rear drive axle, so that the vehicle can better adapt to off-road driving, the engine can also be installed on the frame and separated from the drive axle, which reduces the unsprung mass and improves the comfort of the driver and passengers, greatly improves the power transmission efficiency of the kart, and reduces a large amount of costs invested in the early stage and maintenance cost in the later stage, it has good applicability and is easy to promote.