In a vehicle door latch device, ingress of rainwater into an outer cable of a Bowden cable is prevented. Vehicle door latch device includes: operation handle provided in a door; door latch mechanism attached in the door; Bowden cable having outer cable that is fixed at one end to the vicinity of operation handle and at the other end to door latch mechanism, and inner cable that is inserted into outer cable while being coupled at one upward end to operation handle and at the other end to release lever of door latch mechanism; and elastic cap provided at one end of the outer cable, having the corresponding one of cover portions in a cylindrical shape, extending in a movement direction of the inner cable extending from the one end of the outer cable, to cover the inner cable.

In a vehicle door latch device, ingress of rainwater into an outer cable of a Bowden cable is prevented. Vehicle door latch device includes: operation handle provided in a door; door latch mechanism attached in the door; Bowden cable having outer cable that is fixed at one end to the vicinity of operation handle and at the other end to door latch mechanism, and inner cable that is inserted into outer cable while being coupled at one upward end to operation handle and at the other end to release lever of door latch mechanism; and elastic cap provided at one end of the outer cable, having the corresponding one of cover portions in a cylindrical shape, extending in a movement direction of the inner cable extending from the one end of the outer cable, to cover the inner cable.

A device facilitating the lubrication of cable housings comprising a reservoir for liquid lubricant, a radial longitudinal slot, a cinching flap to hold the device in place and assure a secure seal, and a hole shaped to allow the use of a single device with cable housings of different types. The present invention relates to the maintenance of mechanical cable systems, especially the lubrication of bicycle cable systems.

A device facilitating the lubrication of cable housings comprising a reservoir for liquid lubricant, a radial longitudinal slot, a cinching flap to hold the device in place and assure a secure seal, and a hole shaped to allow the use of a single device with cable housings of different types. The present invention relates to the maintenance of mechanical cable systems, especially the lubrication of bicycle cable systems.

An input shaft includes an annular main shaft extending along a longitudinal axis with an internal bore configured for fluid flow through the annular main shaft. A generator spline is included on an exterior surface of a first end of the main shaft. A gearbox spline is included on an exterior surface of a second end of the main shaft opposite the first end. At least one orifice is defined through the main shaft from the internal bore to the exterior surface of the second end of the main shaft for flow of fluid from the internal bore to the exterior surface for cooling and lubrication.

An input shaft includes an annular main shaft extending along a longitudinal axis with an internal bore configured for fluid flow through the annular main shaft. A generator spline is included on an exterior surface of a first end of the main shaft. A gearbox spline is included on an exterior surface of a second end of the main shaft opposite the first end. At least one orifice is defined through the main shaft from the internal bore to the exterior surface of the second end of the main shaft for flow of fluid from the internal bore to the exterior surface for cooling and lubrication.

A remote control assembly includes a sheath (22) having a longitudinal axis along a length thereof and defining an interior. A core element is disposed within the interior and extends along the length. A liner is disposed within the interior and coupled to the sheath (22). The liner surrounds the core element along the length. An outer layer (38) comprising a first material is coupled to the sheath (22). An intermediate layer (41) comprising a second material different from the first material is coupled to the outer layer (38). An inner layer (42) comprising a third material different from the first and second materials and is coupled to the intermediate layer (41). The second material of the intermediate layer (41) comprises an elastomeric material.

A remote control assembly includes a sheath (22) having a longitudinal axis along a length thereof and defining an interior. A core element is disposed within the interior and extends along the length. A liner is disposed within the interior and coupled to the sheath (22). The liner surrounds the core element along the length. An outer layer (38) comprising a first material is coupled to the sheath (22). An intermediate layer (41) comprising a second material different from the first material is coupled to the outer layer (38). An inner layer (42) comprising a third material different from the first and second materials and is coupled to the intermediate layer (41). The second material of the intermediate layer (41) comprises an elastomeric material.

The present invention discloses a flexible shaft structure insulating wear particles by perfusion, which includes a flexible transmission shaft, a proximal holder is provided at one end of the flexible transmission shaft, a distal holder is provided at the other end of the flexible transmission shaft, a constraint insulator and an outer sheath tube are provided outside the flexible transmission shaft, and the constraint insulator sequentially includes an inner constraint layer, an insulation layer and an outer constraint layer from inside to outside; a perfusion inflow annular cavity is formed between the outer constraint layer and the outer sheath tube and between the outer constraint layer and the insulation layer, respectively, and a static sealed inner cavity is formed between the inner constraint layer and the insulation layer and between the inner constraint layer and the flexible transmission shaft, respectively; the proximal holder is provided with a perfusion inlet pipeline communicated with the perfusion inflow annular cavity and a perfusion exhaust pipeline communicated with the static sealed inner cavity; and the distal holder is provided with a perfusion insulation cavity. According to the present invention, the generated wear particles can be effectively insulated, the stability and consistency of perfusion flow of the product are improved, and the problems of vibration and noise of the flexible shaft under high-speed rotation are solved.

The present invention discloses a flexible shaft structure insulating wear particles by perfusion, which includes a flexible transmission shaft, a proximal holder is provided at one end of the flexible transmission shaft, a distal holder is provided at the other end of the flexible transmission shaft, a constraint insulator and an outer sheath tube are provided outside the flexible transmission shaft, and the constraint insulator sequentially includes an inner constraint layer, an insulation layer and an outer constraint layer from inside to outside; a perfusion inflow annular cavity is formed between the outer constraint layer and the outer sheath tube and between the outer constraint layer and the insulation layer, respectively, and a static sealed inner cavity is formed between the inner constraint layer and the insulation layer and between the inner constraint layer and the flexible transmission shaft, respectively; the proximal holder is provided with a perfusion inlet pipeline communicated with the perfusion inflow annular cavity and a perfusion exhaust pipeline communicated with the static sealed inner cavity; and the distal holder is provided with a perfusion insulation cavity. According to the present invention, the generated wear particles can be effectively insulated, the stability and consistency of perfusion flow of the product are improved, and the problems of vibration and noise of the flexible shaft under high-speed rotation are solved.