Window wiping device for a motor vehicle comprising at least one link (2, 3), a mobile arm (6) adapted to be mounted on the vehicle by said link (2, 3) and effect an angular to-and-fro movement (A), a flexible washing liquid feed tube (16), rigidly fastened to said mobile arm (6), which device is characterized in that it further comprises a means (20) for limitation of a curvature assumed by said flexible feed tube (16) configured to surround the flexible feed tube (16) so as to prevent it cracking.

An external lens washing system has an aiming fixture configured to support and constrain an external lens which is exposed to the elements and apt to become soiled with debris. A nozzle assembly is configured to be supported and aimed toward the external lens by the aiming fixture and has at least one laterally offset washing nozzle projecting from the aiming fixture to a spray washing fluid toward the external lens surface, spraying at a shallow, glancing spray aiming angle to impinge upon and wash the lens external surface. Optionally, an integrated image sensor and lens washing assembly is configured for use with a remote control method for cleaning an exterior objective lens surface and includes a sealed image sensor housing assembly including an integral, remotely controllable lens cleaning system with an optimized configuration for aiming one or more cleansing sprays from one or more laterally offset fluidic oscillators.

Base end sides of washer tubes 44, 45 are arranged in an axial direction of a swinging shaft PS at one end portion of an arm head 40, and they are drawn out from a head side pipe housing portion 41a so as to curve toward a side opposite to a shaft fixing portion 42 side. Each of the washer tubes 44, 45 is wound around the shaft fixing portion 42 during swinging of the arm head 40 without applying any load to the swinging shaft PS. No tension acts on each of the washer tubes 44, 45, and each of the washer tubes 44, 45 is not rubbed against the shaft fixing portion 42. Therefore, deterioration of the washer tubes 44, 45 can be suppressed. When the washer tubes 44, 45 are wound around the shaft fixing portion 42, a periphery of the shaft fixing portion 42 is suppressed from swelling outward in a radial direction thereof. This makes it possible to prevent the arm head 40 around the swinging shaft PS from increasing in size.

Systems, apparatus, and methods to remove vehicle sensor debris are disclosed. A disclosed cleaning assembly for a vehicle includes a track coupled to the vehicle. The cleaning assembly also includes an arm adjustably coupled to the track and having a nozzle positioned on the arm. The arm is moveable, via the track, near an exterior surface of the vehicle that is associated with a vehicle sensor. The cleaning assembly also includes a first motor operatively coupled to the arm configured to move the arm along the track relative to debris positioned on the exterior surface. The cleaning assembly also includes a pump fluidly coupled to the nozzle configured to expel the fluid from the nozzle to remove the debris.

A wiper arm includes an arm main body having a blade joining portion at a distal end side in a length direction of the arm main body; a first nozzle portion disposed at a proximal end side from the blade joining portion in the length direction of the arm main body; a second nozzle portion disposed at a distal end side from the first nozzle portion in the length direction of the arm main body; a first line hose; and a second line hose, wherein the second nozzle portion jets washing fluid toward a wiping direction forward side when the arm main body moves toward an upper turning position, and the first washer nozzle portion jets washing fluid toward a wiping direction forward side and further toward the proximal end side than a length direction center of the wiper blade when the arm main body moves toward a lower turning position from the upper turning position.

Sensor cleaning apparatus, systems, and related methods for use with vehicles are disclosed. A disclosed apparatus includes a sensor of a vehicle. The apparatus also includes a motor operatively coupled to the sensor to enable the sensor to move within a cavity of the vehicle. The apparatus also includes a wiper fixedly coupled to the vehicle and partially defining the cavity. An edge of the wiper is to engage the sensor when the sensor moves to remove debris.

The invention relates to a window-wiper spray nozzle (350) for a vehicle, especially a motor vehicle, comprising first detachable mounting means designed to cooperate with second mounting means of a support (390) for mounting said spray nozzle, the spray nozzle comprising at least one actuating means (370), such as a push-button, independent from said mounting means and designed to release the spray nozzle from the mounting support and thereby allow the spray nozzle to be dismounted from the mounting support.

A windscreen wiper device of the flat blade type comprising an elastic, elongated carrier element, as well as an elongated wiper blade of a flexible material, which can be placed in abutment with a windscreen to be wiped, which wiper blade includes at least one longitudinal slit, in which slit at least one longitudinal strip of the carrier element is disposed, which windscreen wiper device comprises a connecting device for a rod-like extension of an oscillating arm, wherein said rod-like extension can be pivotally connected to said connecting device about a pivot axis near a free end thereof, wherein said connecting device comprises a first part and a second part, wherein said rod-like extension of said oscillating arm can be pivotally connected to said first part about said pivot axis, with the interposition of said second part, wherein said first part is connected to said wiper blade and said second part is pivotally connected onto said first part, wherein said second part comprises a channel arranged to receive said free end of said rod-like extension, with the special feature that said windscreen wiper device comprises a housing for said rod-like extension, wherein said housing is arranged to be connected to said second part, and wherein said housing comprises a channel to receive said rod-like extension, said channel of said housing in mounted position being co-axial with said channel of said second part, wherein said first part and said second part are provided with mutually cooperating pivot means for pivotally connecting said second part to said first part, and wherein said first part engages said second part laterally from the outside at the location of said pivot axis.

The invention relates to a wiper arm head (14) for a wiper arm rod (11), with a first end region (178), which has an opening (15) for receiving a drive shaft, and a second end region (179) for the pivotable fastening of the wiper arm rod (11), and with means for directing at least one hose (31, 32) carrying a cleaning fluid. It is provided according to the invention that the means has a feedthrough (181, 182), which leads the hose (31, 32) from an upper side (187) in the direction of an underside (188) of the wiper arm head (14).

The washing arrangement comprises at least one first wiper driving actuator and at least one second wiper driving actuator to move at least one wiper, and at least one nozzle for injecting washing fluid towards the target device, wherein the wiper driving actuators are linked to each other such that, in use, the wiper is driven by the first wiper driving actuator along a first line to contact the surface of the target device to be washed, and by the second wiper driving actuator along a second line to wipe at least one portion of the surface of the target device.