A mobile tower for use with an irrigation system comprises a frame, first and second spindles, a first height adjustment assembly, and a second height adjustment assembly. The frame is configured to support a fluid-carrying conduit of the irrigation system. The first and second spindles each include a generally upright beam. The first height adjustment assembly is rigidly connected to a first side of the frame and movably coupled to the first spindle. The first height adjustment assembly includes a first mechanism configured to raise or lower the first side of the frame relative to the first spindle. The second height adjustment assembly is rigidly connected to a second side of the frame and movably coupled to the second spindle. The second height adjustment assembly includes a second mechanism configured to raise or lower the second side of the frame relative to the second spindle.

A utility vehicle includes an electric powertrain assembly. The electric powertrain assembly includes at least a battery and a motor for controlling torque at various ground-engaging members of the vehicle. The configuration of the electric powertrain assembly allows for increased storage on the utility vehicle.

A mobile tower for use with an irrigation system comprises a frame, first and second spindles, a first height adjustment assembly, and a second height adjustment assembly. The frame is configured to support a fluid-carrying conduit of the irrigation system. The first and second spindles each include a generally upright beam. The first height adjustment assembly is rigidly connected to a first side of the frame and movably coupled to the first spindle. The first height adjustment assembly includes a first mechanism configured to raise or lower the first side of the frame relative to the first spindle. The second height adjustment assembly is rigidly connected to a second side of the frame and movably coupled to the second spindle. The second height adjustment assembly includes a second mechanism configured to raise or lower the second side of the frame relative to the second spindle.

An axle drive for a vehicle comprising at least one drivable vehicle axle oriented transversely to a longitudinal direction of the vehicle comprises: a drive shaft that extends in parallel with the longitudinal direction and that is configured to receive drive power from an electric motor at an input section and to output said drive power at an output section; a driven shaft that extends in parallel with the drive shaft and that is configured to receive drive power from the output section of the drive shaft at an input section and to output said drive power to the vehicle axle via a bevel gear arranged at a first end of the driven shaft; and a brake, in particular a parking brake, having a brake disk that is arranged at a second end of the driven shaft and that is arranged between the input section of the drive shaft and the input section of the driven shaft with respect to the longitudinal direction.

A vehicle drive unit for a vehicle for omnidirectional driving of the vehicle. The vehicle drive unit includes a vehicle platform, a drive platform, and at least two wheels arranged on the drive platform, one drive unit being provided per wheel to drive the wheel. A controllable self-locking steering actuator is arranged between the drive platform and the vehicle platform. The steering actuator is rotatable about a longitudinal axis and is used to rotate the vehicle platform and the drive platform relative to one another, the steering actuator allowing a temporary blocking of the rotation. At least three pivoting wheels are arranged on the vehicle platform for vehicle stabilisation, each being rotatable about its own wheel axis and about its own vertical axis. A vehicle having a vehicle drive unit is also provide.

An embodiment driving module includes a drive unit including a wheel and a drive motor configured to operate the wheel, a suspension unit having a first side coupled to the drive unit, and a steering unit configured to steer the wheel and having a side coupled to a second side of the suspension unit.

An electric vehicle comprising a portal axle architecture. The electric vehicle having a frame. An axle assembly including a De Dion tube. A first wheel hub and a second wheel hub rotatably coupled with the De Dion tube. A suspension system coupled with the vehicle frame, the suspension system having at least one pair of trailing arms pivotally coupled with the vehicle frame and at least one pair of air springs. A first electric drive assembly in driving engagement with the first wheel hub, and a second electric drive assembly in driving engagement with the second wheel hub.

A motor-vehicle hybrid powertrain unit comprises an internal combustion engine for driving the rear wheels of the motor-vehicle and one or two electric motors for driving the front wheels of the motor-vehicle. The internal combustion engine has an engine block below which there is provided no oil sump. The one or two electric motors are arranged immediately below the block of the internal combustion engine in the space, which in a conventional engine, is occupied by the oil sump.

A portal axle arrangement 1 for a motor vehicle includes at least one portal housing 2 and at least one suspension arm 5, 6. The at least one portal housing 2 includes a receiving section 7 for a portal gear and at least one connecting section 8, 9 for the at least one suspension arm 5, 6, in which the at least one connecting section 8, 9 is designed as a support section. A motor vehicle including such a portal axle arrangement is also provided.

A drive train configuration is disclosed. The drive train incorporates an engine having hydraulic pumps contained substantially inside the engine housing and with an engine shaft driving the hydraulic pumps. A porting block or center section is mounted to the engine housing to provide hydraulic communication between the hydraulic pumps located inside the engine housing and hydraulic motors located outside the engine housing. The hydraulic motor output shafts drive gears connected to axles to propel a vehicle.