Refrigeration – Automatic control – Gas-liquid contact cooler – fluid flow
Reexamination Certificate
2002-07-09
2003-09-16
Doerrler, William C. (Department: 3744)
Refrigeration
Automatic control
Gas-liquid contact cooler, fluid flow
C062S305000, C062S157000, C062S158000, C062S231000
Reexamination Certificate
active
06619059
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to water vapor cooling systems for air-cooled condensing units and more particularly to an improvement thereof.
2. General Background
Conventional air conditioning systems used for many commercial and residential dwellings utilize an outside compressor unit housing the compressor motor and the condensing coils which are normally cooled by passing a forced draft stream of ambient air through the coils.
It is generally known within the air conditioning art that an over all reduction in energy can be achieve in an air conditioning system by improving the efficiency of the condensing coils' ability to quickly dissipate heat. Therefore, numerous systems have been proposed that provide means for applying water vapor to the coils, thereby lowering the ambient temperature of the air being drawn over the coils and thus increasing the efficiency of the system.
Each of the prior art systems recognizes the need to cool the ambient air passing over the condensing coils. The prior art also seems to agree that the most effective and economical way to achieve this is by providing a water fog or spray system, located in front of the coils, activated by a solenoid valve and a preset temperature sensor. The prior art all disagrees on the precise method on how the spray system should be configured to achieve the most effective result. Since the air conditioning manufacturers have not yet incorporated such system into OEM systems, the technology has been left in the hands of the after market. It is therefore it is a prime concern that such water spray cooling systems be provided to the after market in a manner so that the air conditioner owner or AC maintenance personnel can easily install and maintain such a system. Secondly the system must also be as efficient as possible.
Problems associated with such systems in the prior art range from too much water, thereby causing debris buildup, mold and mildew, and oxidation in the units, solenoid failure and freeze ups as a result of abrupt temperature changes, to inefficiency due to lack of attention to detail in the installation process. It has been found that simply providing extra insulation to the compressor lines and cooling the spray water vastly improves efficiency. Further improvements are necessary to allow the installer to easily accommodate the wide variety of condensing unit designs without compromising the system's integrity.
SUMMARY OF THE INVENTION
A more efficient method for cooling an air conditioning system's condensing coils can be achieved by providing an air filter pad made of glass fibers with self contained, perforated water capillary tubes that allow moisture to permeate the filter pad. Pads are connectable in series and provided with integral mounting strips for fixed or magnetic internal or external attachment to the condensing unit. Special adaptive solenoids are also provided to allow for minimum flow of water over long periods of time. Rather than relying on ambient temperature sensor for water control, dual sensors are provided connected to the high and low side of the compressor for sensing compressor temperature status and switching the solenoid on and off, thereby preventing freezing. A unique method for applying chilled water to the capillary tubes by coiling the capillary tube around the suction line of the compressor is utilized. The system may be provided in kits with several pads adapted for use with a wide variety of condensing unit configurations and includes valves, tubing, wiring and connection boxes, insulation components for enclosing compressor and water tubing, and detailed instructions.
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Doerrler William C.
Montgomery Robert N.
Shulman Mark
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