A wiping device for an optical device with a lens includes a surface, such as a curved or calotte-shaped surface, where the wiping device has a wiping element for wiping the surface of the lens free from water and dirt particles with at least one passage channel and at least one outlet channel which branches off from the passage channel in order to guide cleaning fluid onto the surface of the lens. In addition, a rear view device for a motor vehicle with an optical device includes such a wiping device.

A windshield wiper device for large size curved windshields comprising first and second arms hingedly connected to each other at a distal end by a main spacer and reciprocatingly operable. The device further comprises a windshield wiper blade rockingly mounted relative to said main spacer through rocking means and a secondary spacer mounted on the distal end in redundancy with said main spacer. The rocking means comprise a first toothed member integral with said secondary spacer and a second toothed member integral with said wiper blade, which are mounted meshed with one another to cause the rocking of said wiper blade about time longitudinal axis thereof in the rocking direction opposite to the direction of reciprocating movement of said first and second arms.

An inclination mechanism TM1 is provided at a wiper blade 30. The inclination mechanism TM1 inclines the wiper blade 30 with respect to a surface 11a, so that a center Ct1 of a U-shaped hook part 23b is disposed forward in a wiping direction with respect to a center Ct2 of a blade rubber 50. Accordingly, at the time of each of forward wiping and return wiping of the wiper blade 30, it is possible to correctly incline the blade rubber 50 with respect to the surface 11 a.

A windshield wiper for a motor vehicle includes an elongate wiper blade and a supply conduit for cleaning fluid leading to outlet openings formed on both sides of the wiper blade. A directional control valve is provided to selectively supply cleaning fluid to either the outlet openings on the first side or the outlet openings on the second side of the wiper blade based on the wiping direction of the wiper blade.

An elongated blade has an interior section and an exterior section. The interior section is adapted to be releasably coupled to a wiper arm. The exterior section has a W-shaped configuration with outer walls and inner walls. Two parallel edges are formed by the outer walls and the inner walls. The parallel edges are positioned in sliding contact with an exterior surface of a windshield during operation and use. A coupling assembly releasably couples the elongated blade to the wiper arm. The elongated blade is adapted to oscillate with respect to the wiper arm in response to a reversing of directions by the wiper arm and the elongated blade.

A surface wiper device which includes a carrier which supports a blade. The carrier attaches to a wiper arm which urges the blade against and moves the blade across the surface of a windshield. The carrier further provides a plurality of outlets each of which communicate between a hollow passage inside the carrier and a location on the external surface of the carrier. A fluid can be delivered from a fluid source fluidicly coupled to the hollow passage of the carrier under sufficient pressure to be dispersed from the plurality of outlets onto the windshield during movement of the blade. A fluid heater can be thermally coupled with the fluid delivered from the fluid source to the plurality of outlets to increase the temperature of the fluid dispersed onto the windshield. The fluid can be sufficiently heated to generate a heated gas.

A surface wiper device which includes a carrier which supports a blade. The carrier attaches to a wiper arm which urges the blade against and moves the blade across the surface of a windshield. The carrier further provides a plurality of outlets each of which communicate between a hollow passage inside the carrier and a location on the external surface of the carrier. A fluid can be delivered from a fluid source fluidicly coupled to the hollow passage of the carrier under sufficient pressure to be dispersed from the plurality of outlets onto the windshield during movement of the blade. A fluid heater can be thermally coupled with the fluid delivered from the fluid source to the plurality of outlets to increase the temperature of the fluid dispersed onto the windshield. The fluid can be sufficiently heated to generate a heated gas.