Window and lens glass cleaning system

Brushing – scrubbing – and general cleaning – Attachments – Optical-member-attachable cleaner

Reexamination Certificate

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Details

C015S250010, C239S284100, C239S130000, C239S135000, C239S570000, C239S571000

Reexamination Certificate

active

06393652

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a window and lens glass cleaning system for a window/lens glass of a motor vehicle, having a pivotally mounted wiper arm for holding a wiper lip, which slides over the window/lens glass, in the intended installation position, and having at least one washer fluid pipe which is arranged on the wiper arm and is routed to a washer nozzle which is directed onto the window/lens glass, washer fluid situated in the washer nozzle and/or the washer fluid pipe being heatable.
BACKGROUND OF THE INVENTION
Window and lens glass cleaning systems of this type are used for motor vehicle windshields or rear windows or for headlight lenses, and are known from practical experience. In this case, the washer nozzles are supplied with washer fluid by a washer fluid pump arranged in a washer fluid tank. The arrangement of one or more washer nozzles along the wiper arm has the advantage that particularly little washer fluid misses the wiping region of the wiper lip or gets onto the rear side of the wiper arm. Since in this case the washer nozzle is arranged at a particularly small distance in front of the window/lens glass and the washer fluid jet emerging from the washer nozzle is particularly highly pressurized in the region of the window/lens glass, in addition dirt adhering to the window/lens glass can be dissolved by the washer fluid jet.
The washer nozzles are directly exposed to the airstream and so the result of washer fluid emerging is that it is evaporated and therefore the washer nozzles are severely cooled. Since frequently additives of cleaning agents having a low boiling point are mixed in the washer fluid, the washer nozzle can also freeze at temperatures above 0° C. Since air can enter into the washer fluid pipe through the washer nozzle when the washer fluid pump is switched off, the washer fluid pipe is furthermore severely cooled in particular at low outside temperatures. When the washer fluid pump is switched on again, this can likewise result in the washer nozzle freezing. As a result, reliable wetting of the window/lens glass with washer fluid is no longer ensured. Because of that, there is the risk of the wiper lip being moved over the still dry window/lens glass and thereby very rapidly becoming worn. Thus, there is a need for a window and lens glass cleaning system to overcome the aforementioned problems.
Other needs will become apparent upon a further reading of the following detailed description taken in conjunction with the drawings.
SUMMARY OF THE INVENTION
The invention is based on the problem of configuring a window and lens glass cleaning system of the type mentioned at the beginning in such a manner that even at low outside temperatures the window/lens glass is reliably wetted with washer fluid and the washer-lip wear is kept particularly low.
According to the invention, this problem is solved in that a nonreturn valve is arranged directly in front of the washer nozzle, as seen in the direction of flow, and an electric heating element is arranged near to the washer nozzle.
This configuration enables the washer nozzle to be heated to a designated temperature so that the risk of the washer fluid freezing is kept particularly small. Since the heating element is arranged near to the washer nozzle, heating energy losses are kept particularly small. In addition, rapid heating of the washer nozzle, for example during evaporative cooling, is ensured. Furthermore, air can only penetrate into the region, which owing to the invention is kept small, as far as the nonreturn valve after washer fluid which is situated in said region has emerged through the washer nozzle. The washer nozzle is thereby only insignificantly cooled. Furthermore, the close arrangement of the nonreturn valve to the washer nozzle means that the delay in the washer fluid emerging when the washer fluid pump is activated is particularly small. By this means, the window/lens glass is reliably wetted with washer fluid after the washer fluid pump is switched on, and therefore the wiper-lip wear is kept particularly low.
The window and lens glass cleaning system according to the invention is particularly cost-efficient if the washer nozzle together with the heating element and the nonreturn valve is configured as a construction unit which can be preassembled.
Cornering or sharp braking or accelerating of the motor vehicle can result in the washer fluid emerging from the washer nozzle because of the mass inertia of the washer fluid column of the washer fluid in the washer fluid pipe. This is particularly annoying in the case of the window cleaning system provided for a windshield or rear window. According to another advantageous development of the invention, emergence of washer fluid from the washer nozzle without the washer fluid pump being switched on can be reliably avoided if the nonreturn valve is pretensioned into a closed position by a force provided for sustaining a washer fluid column. As a result, the nonreturn valve can only be opened by a comparatively high pressure of the washer fluid pump.
The nonreturn valve could be provided with a closing part pretensioned against a valve seat counter to the direction of flow by a spring. However, in this case the closing part offers high resistance to the flow. According to another advantageous development of the invention, when washer fluid is conveyed by the washer fluid pump the nonreturn valve only insignificantly restricts the flow if the nonreturn valve is configured as a duckbill valve. Duckbill valves have at least two sealing lips which are opposite one another and are pretensioned against one another. In the open position the sealing lips are forced apart by the flow.
The window and lens glass cleaning system according to the invention has a particularly simple design if the washer nozzle is arranged on a retaining part and the nonreturn valve is clamped between a connecting branch of the washer fluid pipe and the retaining part.
According to another advantageous development of the invention, the heating element is only insignificantly cooled by the airstream if the retaining part has a recess for accommodating the heating element.
According to another advantageous development of the invention, a contribution to further reducing heat losses from the heating element is made if the recess can be closed by a flap.
According to another advantageous development of the invention, the installation of the retaining part is particularly simple if the retaining part is connected to the flap via a film hinge. This also makes it impossible for the flap to become lost before being installed.
According to another advantageous development of the invention, the retaining part is particularly cost-efficient if the retaining part is manufactured from plastic by injection molding. Furthermore by this means the retaining part, the film hinge and the flap can be manufactured in a single mold from which removal takes place axially.
According to another advantageous development of the invention, dirt adhering to the window/lens glass is rinsed away or at least partially dissolved by the washer fluid jet if the washer nozzle has a fluidic nozzle. Fluidic nozzles produce a particularly sharply defined washer fluid jet which swings to and fro. Partial dissolving of the dirt results in a further reduction in the wiper-lip wear.
According to another advantageous development of the invention, adaptation of the surface to be wetted to the wiping surface of the wiper lip is particularly simple if the washer nozzle has a flat-jet ball. Flat-jet balls produce a washer fluid jet which essentially extends in one direction, and therefore permit optimum adaptation to the window/lens glass surface which is to be wetted. The spherical configuration also enables the washer nozzle to be aligned in an infinitely variable manner.
The window and lens glass cleaning system according to the invention is constructed particularly cost-efficiently if the heating element is designed as a thick-film mesh.
According to another advantageous developmen

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