A transfer case includes a primary shaft, a secondary shaft radially offset from the primary shaft, and a torque transfer mechanism. The primary shaft includes a central channel and an inclined fluid channel. The torque transfer mechanism is configured to selectively transfer torque from the primary shaft to the secondary shaft, and includes a primary sprocket coupled to the primary shaft for transferring torque to the secondary shaft. The inclined fluid channel is associated with the primary sprocket, and includes an outlet that axially overlaps the primary sprocket.

A drive arrangement (300) for driving a planetary head (140) of a floor surfacing machine (100), the drive arrangement (300) comprising; a first drive wheel (310) arranged to be driven by a first motor (110), a second drive wheel (330) fixedly attached to the planetary head (140) and arranged to be driven by the first drive wheel via a connecting member (320), wherein the drive arrangement (300) comprises a protective casing (240) arranged to enclose the first (310) and second (330) drive wheels, and the connecting member (320), thereby protecting the drive arrangement (300) from dust, debris, and slurry.

A chain damper for use with a bicycle may include a base having an attachment region that is configured to be attached to a bicycle and a chain receiving portion extending from the base in a first direction. The chain receiving portion can include a chain damping surface that includes a resiliently deformable damping material and at least partially bounds a chain receiving aperture. The chain receiving aperture may extend in an axial direction and may be configured so that when the chain damper is attached to the bicycle the axial direction is substantially aligned with the primary chain direction and the chain damping surface is spaced apart from the chain travel path.

The present invention provides lubrication systems, apparatus and methods for efficiently and reliably lubricating the drive chain and drive sprocket of a chain-driven vehicle during operation. Embodiments of the invention include a body having a reservoir of lubricating oil that is attachable to the vehicle using existing mounting bolts, a valve for controlling a flow of the oil to the sprocket and chain, a channel providing fluid communication between the reservoir and the valve, and an applicator for applying the lubricating oil to a drive sprocket of the vehicle. Oil is transferred via gravity from the reservoir to the applicator, and via centrifugal force from the applicator to the sprocket and chain.

The present invention provides lubrication systems, apparatus and methods for efficiently and reliably lubricating the drive chain and drive sprocket of a chain-driven vehicle during operation. Embodiments of the invention include a body having a reservoir of lubricating oil that is attachable to the vehicle using existing mounting bolts, a valve for controlling a flow of the oil to the sprocket and chain, a channel providing fluid communication between the reservoir and the valve, and an applicator for applying the lubricating oil to a drive sprocket of the vehicle. Oil is transferred via gravity from the reservoir to the applicator, and via centrifugal force from the applicator to the sprocket and chain.

A chain guide and tensioning apparatus is disclosed that is configured for engagement (contact) with a driven chain (e.g., in an automotive engine). The chain guide and tensioning apparatus includes a guide body and a guide face overlying the guide body. The guide face defines an inner surface and an opposite outer surface that is configured to guide and tension the driven chain. The guide face includes a plurality of spacers that extend therefrom into engagement (contact) with the guide body so as to define at least one channel that is configured to facilitate air and/or lubricant circulation between the guide body and the guide face to reduce heat and friction generated by engagement of the driven chain with the guide face.

A tensioning rail for an endless drive means, in particular for a chain drive of an internal combustion engine, comprises a support body and a sliding body arranged on the support body and having a sliding surface for contacting the endless drive means as well as at least one lubricant opening for wetting the sliding surface with lubricant. A press-on area provided on the support body and used for contacting a tensioning device has an inflow opening for the lubricant. A feed passage extending from the inflow opening through the support body and a lubricant passage extending in the longitudinal direction of the support body allow the supply of lubricant to the at least one lubricant opening.

A tensioning rail for an endless drive means, in particular for a chain drive of an internal combustion engine, comprises a support body and a sliding body arranged on the support body and having a sliding surface for contacting the endless drive means as well as at least one lubricant opening for wetting the sliding surface with lubricant. A press-on area provided on the support body and used for contacting a tensioning device has an inflow opening for the lubricant. A feed passage extending from the inflow opening through the support body and a lubricant passage extending in the longitudinal direction of the support body allow the supply of lubricant to the at least one lubricant opening.

A transmission for a motor vehicle includes an electric motor and a flexible traction drive mechanism which includes a first traction mechanism wheel, such as, a gear or pulley, which is rotationally fixed to a rotor shaft of the electric motor, a second traction mechanism wheel which can be rotationally fixed to a transmission component and which is drivingly connected to the first traction mechanism wheel by a traction mechanism, such as, a belt or chain, and a bearing journal for supporting the first traction mechanism wheel. An oil line extends through the bearing journal, and oil can be fed to the electric motor via the oil line.

A transmission for a motor vehicle includes an electric motor and a flexible traction drive mechanism which includes a first traction mechanism wheel, such as, a gear or pulley, which is rotationally fixed to a rotor shaft of the electric motor, a second traction mechanism wheel which can be rotationally fixed to a transmission component and which is drivingly connected to the first traction mechanism wheel by a traction mechanism, such as, a belt or chain, and a bearing journal for supporting the first traction mechanism wheel. An oil line extends through the bearing journal, and oil can be fed to the electric motor via the oil line.