A cleaning system of a vehicle, comprising: a first medium unit; an acceleration unit, a second medium unit, wherein the first medium unit is configured to direct a first medium into the acceleration unit, wherein the acceleration unit is configured to discharge the first medium from the cleaning system in a predetermined fluid flow, and wherein the second medium unit is configured to introduce a second medium into the predetermined fluid flow.

A wiper lever (10) for cleaning a vehicle pane by means of a movement in a first and a second direction is proposed. Said wiper lever comprises a wiper blade (12), a wiper arm (14), an adapter (16) for securing the wiper blade (12) to the wiper arm (14) and a hydraulic system (18) which conducts a liquid from a vehicle to the wiper blade (12) via the wiper arm (14) in order to eject the liquid via nozzles (20) on the wiper blade (12). Said wiper lever comprises at least one nozzle (20) which is oriented in the first direction (1) and one nozzle (20) which is oriented in the second direction. According to the invention, a first valve (221) for the first direction is positioned closer to the nozzles (20) in the direction of flow (3) of the liquid than a second valve (222) for the second direction (2).

A windshield window wiping system, including a wiper blade in contact with a windshield window; a wiper motor operatively connected to the wiper blade, configured to perform a wiper blade stroke; a reservoir for a wash fluid; a first plurality of holes on a first leading edge of the wiper blade, configured to project the wash fluid toward the windshield window; a wash pump, wherein the wash pump is hydraulically connected to the first plurality of holes; and a first electronic circuit, configured to estimate a position of the wiper blade during the wiper blade stroke based on an input to the first electronic circuit and to synchronize the projection of the wash fluid toward the windshield window with the estimated position of the wiper blade. In other aspects, a method of wiping a windshield window and a non-transitory computer readable medium are provided.

The invention relates to a device (1) for de-icing and/or cleaning insects off a vehicle window (10) which is designed to perform at least a window wiping function and comprising a continuous-rotation motor (40) designed to drive the rotation of at least one wiper (30) to at least a first level corresponding to a first wiping speed, referred to as high wiping speed (HWS), and a second level at a second wiping speed, referred to as low wiping speed (LWS) and lower than the first, so as to perform the wiping function, and a system for spraying a specific, de-icing or insect-cleaning liquid, onto the window (10) from the said at least one wiper (30), characterized in that the continuous-rotation motor is designed in such a way as to operate at a third speed (CS), lower than the second speed, and in that the device is configured to cause the said wiper (30) to at least descend from the high position (PH) as far as the low position (PB) with the motor (40) operating at the very slow speed (CS) and with the said spraying system activated over at least part of the said descent. The invention also relates to the continuous-rotation motor suited to the device and to a cleaning method using the device.

A wiper system to apply wiper fluid to a vehicle window includes at least one wiper arm, at least one sensor, and at least one control apparatus. The sensor is configured to detect, during a wiping operation, the wiper arm in at least one defined position in a wiping area of the wiper arm, and to send a detection signal to the control apparatus.

Flat wiper blade for windscreen wiper modules, having a wiper blade body, which presents at least one wiping rubber (12) forming at least on e wiping lip (12.1), presents at least one spring rail (11) in addition to at least one retaining strip (10) on which the wiping rubber (12) is held and which (retaining strip (10)) possesses at least one profile section designed as a hollow profile, in which at least a partial length of the spring rail (11) is accommodated, wherein at least one heating foil (19) is arranged over at least a partial length together with the at least one spring rail (11) in the profile section (10.1) of the retaining strip (10).

A drive motor for at least one wiper arm intended to wipe a glazed surface of a motor vehicle is disclosed. The motor includes a cam surface linked in concentric rotation with a rotary shaft of the drive motor, and static cam reading means able to cooperate with said cam according to the angular positions occupied by said cam to generate electrical control signals varying as a function of the angular position of the wiper arm on the glazed surface. The cam has a first circular conductive track, a second semi-circular conductive track concentric to the first conductive track and connected to same via a conductive bridge, in which the static reading means are formed by three sliding contacts able to make and break electrical contact with respectively the first and second conductive tracks and the conductive bridge depending on the angular positions occupied by said cam.

A windscreen washer system for vehicles, in particular for motor vehicles, including at least one rainwater collection element connected to at least one suction pump for collecting rainwater and conveying the same to a collection tank connected in turn to a pump for delivering windscreen washer fluid where the rainwater collection element is integrated in at least one wiper blade.

A motor-powered windshield scourer for any type of a motor-powered vehicle and or motor craft. The motorized windshield scourer may have a motor propelled appendages or a singular appendage that have replaceable scouring attachments joined to the appendages. The motor that propels the appendages can be positioned anywhere on or in the motor vehicle/craft, whether under the hood, in the cabin or elsewhere. The motor driven appendages with joined scouring attachments may be mounted on the windshield of the vehicle directly opposite of the windshield wiper blades. When turned on, the motor may move the appendages with joined attachments in a side to side and/or up and down motion across the windshield. The appendages may include an unpliable metal such as: steel, titanium, tungsten, or inconel, and the scouring attachments may include nylon scouring pads or a vinyl coated mesh attached to and covering rubber or foam.

Provided is a washer liquid supply system in a simple structure and capable of improving the capacity of washing an object of a vehicle. A washer liquid supply system includes: a washer tank mounted on a vehicle to store washer liquid; a supply section mounted on the vehicle to supply the washer liquid in the washer tank to a window shield of the vehicle; and a connecting member being a bubbling section mounted on the vehicle to make the washer liquid contain bubbles, wherein the supply section supplies the washer liquid containing the bubbles to the window shield.