An example lubrication system for a rotating component has a primary lubrication system providing continuous lubrication during normal operation of the rotating component and secondary lubrication system with a reservoir co-rotating with the component. The reservoir is continuously replenished from the primary lubrication system during normal operation of the rotating system, with the lubricant being forced through a discharge orifice by the centrifugal force generated by the rotation toward, for example, a bearing or a gear. When the primary pressurized lubrication system fails, lubrication will continue to be provided by the lubricant in the supplemental lubricant reservoir while the rotation speed or power supplied to the shaft is controllably decreased in an emergency.

According to an aspect, a shaft internal lubrication system includes a shaft body having an outer wall and a central bore defining an inner wall. The shaft internal lubrication system also includes a plurality of lubrication holes axially distributed along the central bore and fluidically connecting the inner wall and the outer wall. At least one rifling groove on the inner wall forms a lubrication flow path to two or more of the lubrication holes. The shaft internal lubrication system further includes a feed tube within the central bore operable to drip feed a lubricant to the inner wall.

A propeller shaft includes a first hollow shaft coupled to a first joint so as to transmit motive power to the first joint, a second hollow shaft coupled to a second joint so as to transmit motive power to the second joint, and a partitioning wall dividing an inner space of an inward shaft into a lubrication oil retaining chamber and a vacant chamber. The second hollow shaft is fitted to the first hollow shaft in such a manner as to be non-rotatable relative to the first hollow shaft, and to be movable in a rotation axis direction of the first hollow shaft. The first hollow shaft and the second hollow shaft are configured such that lubrication oil is supplied to a fitted part, the inward shaft is one of the first hollow shaft and the second hollow shaft, and the inward shaft is inwardly fitted.

A hybrid vehicle includes a generator to be driven by an internal combustion engine to generate an electric power. The internal combustion engine is to drive vehicle wheels via a hydraulic clutch. The electric power is to be supplied to an electric motor to drive the vehicle wheels. An oil pump is to be driven by the internal combustion engine to supply oil to the electric motor and the generator and to the hydraulic clutch. A valve is to decrease a first amount of the oil to be supplied to the electric motor and the generator and to increase a second amount of the oil to be supplied to the hydraulic clutch when the hydraulic clutch is in an engaged state. The valve is to increase the first amount of the oil and to decrease the second amount of the oil when the hydraulic clutch is in a disengaged state.

There is provided a liquid-capturing shaft (30). The shaft is hollow, arranged for rotation about its longitudinal axis (31), and has a cylindrical wall (32) defining an inner surface (33) and an outer surface (34) of the shaft and through which are formed a plurality of circumferentially spaced apart inlet openings (35). Each inlet opening (35) has a respective inwardly and axially facing capture surface (40) which extends from the outer surface (34) of the shaft to the inner surface (33) of the shaft.

A gear device with at least one rotating structural component, with a further structural component that delimits at least one supply area and with at least one consumption point that is to be supplied with hydraulic fluid via the supply area. Hydraulic fluid from at least one hydraulic fluid supply device can be introduced into the at least supply area via at least one supply opening, and can be discharged via at least one outlet opening from the at least one supply area for supplying the at least one consumption point. Inside the supply area, at least one pumping appliance driven by the structural component is provided for transporting hydraulic fluid from the at least one supply opening in the direction of the at least one outlet opening.

A bowl for supplying oil to at least two oil-distribution circuits which are connected to a planet carrier of an epicyclic reduction gearbox, the planet carrier rotating and the oil coming from a fixed oil ejector, the bowl being designed to be secured to the planet carrier and having a substantially cylindrical shape and being open radially towards the inside with respect to an axis. The bowl is divided into a circumferential succession of separate cups each designed to communicate with one of the oil distribution circuits A reduction gearbox with its supply device and a method of operation in a turbomachine are also disclosed.

A shaft for a gas turbine engine includes a shaft bore along an axis, a circumferential groove within the shaft bore, a multiple of first axial grooves from said circumferential groove and a multiple of second axial grooves from said circumferential groove.

According to an aspect, a shaft internal lubrication system includes a shaft body having an outer wall and a central bore defining an inner wall. The shaft internal lubrication system also includes a plurality of lubrication holes axially distributed along the central bore and fluidically connecting the inner wall and the outer wall. At least one rifling groove on the inner wall forms a lubrication flow path to two or more of the lubrication holes. The shaft internal lubrication system further includes a feed tube within the central bore operable to drip feed a lubricant to the inner wall.

Described is an oil distributor comprising: an oil distribution conduit having an inlet end and an outlet; an oil delivery arrangement at the outlet of the oil distribution conduit, the oil delivery arrangement including a circumferential channel having a base, an upstream wall and a downstream delivery wall, wherein the delivery wall includes a plurality of circumferentially distributed delivery apertures extending therethrough.