Valves and valve actuation – Fluid actuated or retarded – Pilot or servo type motor
Reexamination Certificate
2001-05-22
2003-05-06
Mancene, Gene (Department: 3754)
Valves and valve actuation
Fluid actuated or retarded
Pilot or servo type motor
C251S030050, C251S031000, C251S061100, C251S331000, C137S596160
Reexamination Certificate
active
06557820
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to valves for fluids and more specifically to valves suitable for construction as high flow, high pressure microvalves.
Small fluid valves are known in the art that have been developed using Micro-Electro-Mechanical-Systems (MEMS) concepts. These small scale valves have the advantage of being able to be produced very precisely and inexpensively using fabrication techniques more commonly used in the microelectronics industry. Typically, such valves also consume very low power and have high switching frequencies. While these valves have many ingenious configurations, most are limited to low pressures, e.g., under 200 psig (approximately 1,500 kPa), and all are limited to extremely low flows, e.g., under 10
−4
kg/second. In fact, none of the actuation mechanisms known, such as electromagnetic, electrostatic, piezoelectric, and shape-memory alloys, are capable by themselves of producing both the forces necessary to overcome high pressures, and the deflections needed to provide large flow areas.
SUMMARY OF THE INVENTION
It is an object of this invention to provide a means for switching high flow rates at high pressures, at the expense of response time, by a device that is particularly suitable for fabrication using micro-fabrication techniques.
The present invention is a two-stage valve for controlling the flow of gas from a pressurized gas supply comprising an upper main body including a cavity therein; a lower main body having at least one pressurized gas supply exhaust outlet passage forming a primary flow path with the pressurized gas supply; a pre-stressed diaphragm sandwiched between the upper and lower main bodies, the pre-stressed diaphragm having one side of a portion thereof in fluidic communication with the cavity, and the opposite side of the portion thereof in fluidic communication with the pressurized gas supply; and pressure control means fluidically coupled to the cavity for controlling the pressure in the cavity to cause the portion of the pre-stressed diaphragm to open the flow of gas from the pressurized gas supply through the primary flow path of the two-stage valve and to cause the portion of the pre-stressed diaphragm to close the flow of gas from the pressurized gas supply through the primary flow path of the two-stage valve.
The pressure control means comprises the lower main body having a secondary flow path communicating with the pressurized gas supply, the upper main body having a secondary flow path communicating with the secondary flow path in the lower main body, and communicating with the cavity in the upper main body; a first valve providing (a) an isolating means for isolating the flow of gas from the pressurized gas supply to the cavity in the upper main body, and (b) an opening means for allowing the gas from the pressurized gas supply to flow to the cavity in the upper main body, the upper main body having an exhaust passage for fluidically communicating the cavity with an environment at a pressure lower than the pressure of the pressurized gas supply, a second valve installed in the exhaust passage, the second valve providing an isolating means for fluidically isolating the cavity in the upper main body from the environment, and an opening means for opening the cavity in the upper main body to exhaust to the environment.
The first valve is installed in one of (a) the secondary flow path in the lower main body, and (b) the secondary flow path in the upper main body. The lower main body can include a cavity. The lower main body further can include a boss formed in the cavity of the lower main body, the boss surrounding a hole acting as the inlet primary flow path for the flow of gas from the pressurized gas supply, the hole fluidically coupled to the opposite side of the portion of the pre-stressed diaphragm. Preferably, the boss formed in the cavity of the lower main body is positioned coincident with the center of the cavity of the lower main body.
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Guida Renato
Meyer Laura Jean
Nielsen Matthew Christian
Rose James Wilson
Weaver, Jr. Stanton Earl
Bastianelli John
Lockheed Martin Corporation
Mancene Gene
Scully Scott Murphy & Presser
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