Encased gas valve control housing having a plastic body and...

Valves and valve actuation – Valve – Bodies

Reexamination Certificate

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Details

C251S368000

Reexamination Certificate

active

06793199

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to novel gas valve control housings for use in the consumer, commercial, and industrial product markets.
DESCRIPTION OF THE PRIOR ART
Long known for controlling gas flow, gas valves have been in use for decades to control flow of a variety of gaseous fuels for appliance products. Such valves are used to regulate flow and pressure of natural gas and propane, for example, in residential consumer appliances such as central heating units, space heaters, wall heaters, water heaters, boilers, stoves, and outdoor grills. Additionally, gas control valves are widely used in commercial and industrial applications.
Gas valves operate to regulate the flow of gas from a pressurized source to, for example, a downstream gas burner. Simplistic gas valves may provide only manually operated open and closed functions. More sophisticated gas valves, however, may include additional regulation features such as low, medium, and high flow stops and may include thermostatically controlled servo motor actuation, inlet and outlet screens, and bleed gas and pilot filters.
To adequately control gas at a variety of incoming pressures, modern gas valves require a number of components to become effectively and conveniently operational. Gas valve assemblies at a minimum usually require a valve stem, a valve guide, a valve seat, an actuator rod, an actuator knob, an inlet means to connect to the gas supply, and an outlet means to connect to the burner. Such assemblies may also employ gas tubing for a pilot, and pressure sensing diaphragms, magnetic structures, and servo-actuators to thermostatically control the valve.
Typically, a valve assembly is packaged in a housing to contain and support the discrete components of the assembly and to provide a structural fixture from which the valve can be mounted to the appliance. Valve assembly housings have been configured for these purposes and are frequently formed from metal alloys. Aluminum and stainless steel have been materials of choice for such control housings.
The metal housing is often cast to form two mating parts and is subsequently machined to provide precision orifices and other intricate features such as seats for press fitting of the valve components. Gas transport passageways between components are also precision machined into one or more of the housing parts. Gaskets are configured between the mating surfaces of the housing parts before they are joined to prevent gas leakage after assembly. Gasket material is also used to seal component parts to the housing.
The metal housings of the prior art are typically cast from dies. Such metal cast housings, frequently composed of aluminum, may be gas permeable, the composition of the cast part being somewhat porous. As is frequently the case, the inside of the valve assembly housing is pressurized from the gas source creating a pressure differential between the inside and outside of the housing. The porous cast metal housing wall and/or incomplete sealing of mating surfaces may form pathways for undesirable leakage.
Control valve housings are often subject to consumer environmental requirements such as AGA, CGA, and Underwriters Laboratories (UL). Valve assemblies may, for example, be subject to temperature ratings of between −40 degrees Fahrenheit to +175 degrees Fahrenheit. Temperature-induced expansion and contraction of the porous cast metal may also cause a pressure differential to form, further facilitating undesirable transmission of the gas through the porous housing wall and/or through pathways formed by incomplete sealing of housing and component parts.
One method to streamline manufacturing of valve assemblies, has been to adopt a single valve assembly housing to accept a variety of valve components. In this fashion, a variety of valve models from the simplistic to the complex can utilize the same cast housing parts. Press-fit orifices and gas flow passageways can be machined and changed as needed depending upon the configuration of the valve assembly to be inserted. To accommodate a simple valve assembly, for example, only a small number of press-fit orifices and gas transport passageways are required to be machined. To produce a more complicated valve assembly, additional machining to the housing may be required to provide for the extra components and to provide functional communication, such as gas transport passageways, therebetween.
Varying processes to construct a product line from a single metal housing configuration can be costly as each housing must be machined to suit a particular model and its particular componentry. Shifting from one machining procedure to another requires manufacturing set-up adjustments thereby adding time and expense to modify each housing. Additionally, the handling of non-uniform parts, due to changes in manufacturing procedures from one model to the next, may serve to increase the likelihood of error by operators of the machining tools producing the specialized housings.
Another way in the prior art to provide reduced-cost manufacturing of valve control assemblies has been to create a standardized housing that accommodates components of a variety of valve models. The housing is formed to accommodate the most complicated assembly contemplated for the housing, and is machined in the same fashion for all models. Models not requiring all the componentry of the most sophisticated design may be configured with dummy non-functioning components. Alternatively, undesired components and their facsimiles may be omitted altogether depending on the configuration. However, the unnecessary machining required of the housing for simplified models and dummy parts is costly and wasteful. Utilizing this approach, valve controls of basic design are packaged in housings that may be of unnecessarily excessive size, weight, and cost.
Cast metal housings of the prior art suffer from additional cost disadvantages. During the molding process, dies that form metal parts frequently wear relatively rapidly. Increased wear of a die diminishes the number of dimensionally conforming parts produced from that die. Yielding fewer conforming parts, the costly die must be replaced frequently. Furthermore, the weight of the cast metal housing is typically relatively heavy resulting in increased transportation costs to ship the valve control, whether in unfinished or in fully assembled form.
Competition in the valve control markets is substantial. Lowering costs of production in the valve control industry, whether it be in materials, numbers of parts, processing, or otherwise is actively sought out by manufacturers to provide themselves with a competitive advantage. Such advantage may take the form of lowered costs which translate into increased market share, and, ultimately result in increased return on investment.
As valve control assemblies often require a substantial number of discrete parts, cost disadvantages to the manufacturer can quickly multiply. To produce a product line of control valves often requires stocking, compiling, and assembling large numbers of parts increasing numbers of discrete parts also provides for increased opportunities for error, manufacturing time lost, material scrap, and increased product returns.
What is needed is a valve control housing that is light-weight, does not leak, requires less time to manufacture, and is economical to produce and transport. The present invention fulfills this need.
SUMMARY OF THE INVENTION
This invention is directed to an improvement in valve control housings, specifically those used in the consumer, commercial, and industrial markets to house gas control valves. The present invention includes a plastic molded body sealingly surrounded by an outer metal case. The plastic body is molded to accept valve components and includes necessary gas transport passageways and an integral over-molded rubber sealant. The outer metal case is formed from an extruded metal tube capped at each end by a metal plate.
The molded plastic body is modular in design so as to provide for varying functional com

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