Automotive washer system utilizing a freezable washer liquid...

Fluid handling – Freeze condition responsive safety systems

Reexamination Certificate

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C134S0570DL, C134S100100, C134S195000, C137S062000, C137S079000, C137S351000, C137S392000, C137S396000, C137S565160, C138S032000, C138S034000, C239S284100

Reexamination Certificate

active

06782908

ABSTRACT:

BACKGROUND OF INVENTION
Technical Field
The present invention relates generally to a washer system particularly suited for automotive vehicles and more particularly to a method and an apparatus for dispensing a freezable washer liquid or a freeze-resistant washer liquid depending on a given measured temperature.
Currently, most washer liquids contain volatile organic compounds (VOCs), such as alcohols or glycols, to depress the overall washer liquid freezing point temperature. The most common washer liquid is a solution of methyl alcohol (methanol) by weight in demineralized water, including a small amount of detergent and dye.
After having been dispensed onto the vehicle surface to be cleaned, the volatile organic compounds contained in the washer liquid can evaporate into the atmosphere. With sufficient atmospheric warmth and sunlight, such as during a hot and sunny day, certain VOCs, including those used as freezing point depression agents in washer liquid, may participate in a complex series of photochemical reactions in the atmosphere leading to the formation of ozone, a major component of smog (air pollution). For this reason, many governments have placed limits on total allowable vehicular VOC emissions, primarily with respect to engine exhaust and fuel delivery systems. As regulations become increasingly restrictive, VOC emissions from washer systems may be counted against total vehicular VOC emissions, though this currently is not the case.
Although reduction of VOC emissions is not addressed, U.S. Pat. No. 5,261,254 uses water extracted from the air in its washer system. The '254 patent is a windshield washer system that contains three separate reservoirs. One reservoir is used to collect water from the air. Another reservoir is used to hold an anti-freeze solution. Finally, the third reservoir is used to combine the water extracted from the air with the anti-freeze solution creating a freeze-resistant washer liquid.
U.S. Pat. No. 5,946,763 is a windshield washer system that also contains three reservoirs, although the reduction of VOC emissions is again not addressed. One reservoir contains collected rainwater. A second reservoir contains anti-freeze solution. A third reservoir contains a strong cleaning agent. According to the level of freeze protection needed, the anti-freeze solution is pumped into the tank holding the rainwater to create a washer liquid that is freeze-resistant. The '763 patent describes a method of mixing the rainwater with the anti-freeze upon determining the outside temperature, the washer liquid temperature, and the density of the washer liquid. Both the '763 and '254 patents transfer liquids from one reservoir to another and to the spray nozzles via a pump, a pump in combination with tubing, or via gravity. Both patents provide a single reservoir and pump assembly that is used to hold and distribute the washer liquid to the vehicle surface to be cleaned. In addition, both patents describe situations when water will be distributed throughout various reservoirs, pumps, tubing, passages and nozzles. When the temperature drops below the freezing point of water (0° C.), some of these components may freeze shut, thereby disabling the washer systems. Although the '763 patent describes a method of creating an ideal freezing point solution, it uses signals from several sensors in determining when to add anti-freeze to the washer liquid. The '763 patent uses a sensor to measure temperature of the washer liquid, a sensor for measuring the outside temperature, and a sensor for measuring the density of the washer liquid. The use of three sensors and various other components causes the '763 patent to be relatively complex and costly to produce.
Disadvantages associated with the systems disclosed in the '763 and '254 patents include freezing in the portion of the washer system that distributes washer liquid, when the washer liquid therein has a freezing point greater than or equal to the surrounding temperature. In addition, since only one washer liquid reservoir and pump assembly is provided, once the water is mixed with the anti-freeze solution to form the washer liquid, the only washer liquid option available is a freeze-resistant mixture. When outside temperatures transition to a level where ozone formation is possible, such as from a cold day or region to a hot day or region, the freeze-resistant mixture is still used, thereby emitting VOCs that are known contributors to ozone and smog formation.
It would therefore be desirable to provide a washer system that dispenses a washer liquid that emits a reduced amount of VOCs over conventional washer systems and that does not become inoperative due to freezing of the washer liquid.
In dual or multiple systems, the reservoir containing freezable liquid must permit many freeze-thaw cycles without rupture. It would therefore be desirable to provide a washer system that provides a fail-safe reservoir for freezing and expansion cycles, and which does not become inoperative due to freezing of the freezable washer liquid.
SUMMARY OF INVENTION
One object of the invention is to reduce the amount of VOC emissions from the washer system of an automotive vehicle. Another object of the invention is to provide a washer system that is functional at all vehicle-operating temperatures.
In one aspect of the invention, a washer system includes a first reservoir containing a washer liquid that, containing little or no VOC, may freeze at or below 0° C., such as a solution of water and soap, and a second reservoir containing a freeze-resistant washer liquid, such as a solution of water, alcohol, and soap. The first reservoir is fluidically coupled to a first pump. The second reservoir is fluidically coupled to a second pump. The first pump is fluidically coupled to a first port. The second pump is fluidically coupled to a second port. An electronic control circuit is electrically coupled to the first pump and the second pump. The electrical control circuit controls the first pump and the second pump upon measuring a temperature.
In a further aspect of the invention, a method for operating a washer system comprises the steps of: measuring a temperature, drawing a washer liquid from a first reservoir when the measured temperature is greater than a predetermined temperature, drawing washer liquid from a second reservoir when the measured temperature is less than a predetermined temperature, and dispensing the washer liquid onto a surface.
Furthermore, the present invention may also take into consideration space constraints by incorporating at least a portion of the automotive washer system into an engine cooling fan shroud.
In another aspect of the invention, a washer system is provided which includes a first reservoir containing a freezable washer liquid and having a drain port therein. The drain port is in fluid communication with the freezable washer liquid when the first reservoir is in at least a full state. The washer system also includes a temperature sensor for measuring a critical temperature corresponding to approximately a freezing temperature of the freezable washer liquid, a drain plug sealingly communicating with the drain port, and an electrical control unit in operative communication with the temperature sensor and the drain plug. The electrical control unit controls the drain plug to drain the liquid from the first reservoir in response to the critical temperature.
In another aspect of the invention, a washer system is provided which includes a first reservoir containing a freezable washer liquid and having a drain port therein in fluid communication with the freezable washer liquid when the first reservoir is in at least a full state. A drain plug sealingly communicates with the drain port, and a thermal actuator is coupled to the first reservoir and is in operative communication with the drain plug. The thermal actuator controls the drain plug to drain the liquid from the first reservoir in response to a critical temperature.
One advantage of the invention is that th

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