An electric vehicle transmission (30) for a vehicle includes a housing (32) defining a housing interior (34) and an electric motor (40) disposed in the housing interior (34). The electric motor (40) comprises a rotor (42) and a stator (44). The electric vehicle transmission (30) also includes an input shaft (46) disposed in the housing interior (34) and extending along a shaft axis. The input shaft (46) is rotatably coupled to the rotor (42) of the electric motor (40). The electric vehicle transmission (30) further includes a gear reduction assembly (50) disposed in the housing interior (34). The gear reduction assembly (50) is rotatably coupled to the input shaft (46) for delivering rotational torque to wheels of the vehicle. The housing (32) defines a first sump (36) for retaining oil and a second sump (38) separate from the first sump (36) for retaining oil. The second sump (38) and the first sump (36) are configured such that oil lubricates the gear reduction assembly (50) when flowing from the second sump (38) into the first sump (36).

A lubrication system of a gas turbine engine includes a lubricant reservoir with a housing having a volume of oil located therein. A reservoir passage extends through the housing. One or more side passages extend from the reservoir passage and are configured to selectably fill or drain the volume of oil. An output passage is separate and distinct from the reservoir passage, and a separator wall extends into the interior of the housing from the first housing wall toward the second housing wall and between the reservoir passage and the output passage. When the lubricant reservoir is in a first orientation, the lubricant reservoir is filled via oil flowed through the reservoir passage from the first housing end, and when operated in a negative G orientation, the lubricant reservoir is drained via oil flowed through the reservoir passage and out of the second housing end.

The unit includes a housing configured to house oil, a rotating electric machine, a first gear connected downstream of the rotating electric machine, a second gear meshing with the first gear, a third gear connected downstream of the second gear, a fourth gear meshing with the third gear, a fifth gear connected downstream of the fourth gear, and a sixth gear meshing with the fifth gear. The rotating electric machine and the first gear are disposed on a first axis. The second gear and the third gear are disposed on a second axis. The fourth gear and the fifth gear are disposed on a third axis. The sixth gear is disposed on a fourth axis. When viewed in an axial direction, the first axis and the fourth axis are disposed in a lower side of the second axis and the third axis.

A vehicular drive device includes a rotating electrical machine, transmission mechanism, case, and communication oil passage. The case includes a first housing chamber housing the rotating electrical machine and a second housing chamber housing the transmission mechanism. The communication oil passage communicates with the first and second housing chambers. The lower part of the second housing chamber forms a second oil reservoir where oil is scraped up by gear rotation. The case includes a partition wall between the first and second housing chambers axially. The communication oil passage runs under the partition wall and includes a first and second opening. The first opening opens to the first housing chamber at a first position away from the partition wall toward the first side in the axial direction. The second opening opens to the second housing chamber at a second position away from the partition wall toward the second side axially.

A ball screw comprising a screw shaft, a ball nut, and alpha and beta load circuits. The alpha and beta load circuits each include first and second parts. The screw shaft is longitudinally extending with a longitudinal central axis (A) and at least part of the longitudinally extending surface of the screw shaft comprises an external thread, and at least one of the first parts of the alpha and beta load circuits comprise a part of the external thread. The ball nut comprises a body, a bore, the second parts of the alpha and beta load circuits, and an alpha and a beta lubricant channel. The bore is defined by the body, is longitudinally extending with a longitudinal central axis (A), has a first and second end, and has at least one longitudinally extending surface extending between the first and second ends.

A first oil receiving portion disposed on a downward side of a rotary electric machine, an oil supply passage configured to supply oil accumulated in the first oil receiving portion from a flow port to a lubrication target part, and a discharge port configured to discharge the oil in the first oil receiving portion are provided. The discharge port is provided on an upper side relative to a reference oil level, which is set on a lower side relative to a rotor and on an upper side relative to the flow port, and the discharge port is provided to include a portion positioned on a lower side relative to a limitation-target oil level, which is formed by a tilt due to an attitude change and acceleration or deceleration of a vehicle.

A power transmission device includes a housing that accommodates a power transmission mechanism, a partition section that is provided in the housing and that supports the power transmission mechanism, a first oil path that is provided inside the partition section, a second oil path that is provided inside the partition section, a recess that is provided in the partition section, and a filter member that is disposed inside the recess. The recess is provided with an opening facing a direction of an axis of rotation of the power transmission device. The first oil path and the second oil path communicate via the recess.

A space in a case in which oil is stored is partitioned by a baffle plate into a first space in which a driven sprocket provided on an input shaft of an oil pump is disposed and a second space in which an oil strainer in communication with the oil pump is disposed. At least a part of the driven sprocket is immersed in the oil in the first space. The baffle plate includes a base portion and a cover portion coupled to the base portion to cover the driven sprocket. The base portion and the cover portion are engaged with each other by an engagement piece that extends from one of the base portion and the cover portion and is engaged with an outer surface on the other of the base portion and the cover portion, and are coupled with each other by a bolt at a position different from an engagement position of the engagement piece.

A drive device for a motor vehicle. A machine housing in which an operating material consumer, and operating material tank, and an operating material pump are arranged. An air space is provided in the machine housing, into which at least one machine shaft of the drive device protrudes and which is separated by a partition wall from the operating material tank formed adjacent to the air space in the machine housing.

A drive module assembly includes a housing defining a housing interior for containing a lubricant. The housing interior is further defined as a first housing interior and a second housing interior. The drive module assembly also includes a first input shaft configured to receive rotational torque from a first power source, a first gear train rotatably coupled to the first input shaft, a first output shaft rotatably coupled to the first gear train, a second input shaft configured to receive rotational torque from a second power source, a second gear train disposed rotatably coupled to the second input shaft, and a second output shaft rotatably coupled to the second gear train. The first housing interior and the second housing interior are fluidly separate from one another.