A microvalve having a generally planar plate valve body defining a chamber and a plate valve member movable in the chamber about a pivot axis that is perpendicular to the valve body to control the flow of a fluid through the valve body. The plate valve member defines a pair of opposite faces, a firs
A microvalve having a generally planar plate valve body defining a chamber and a plate valve member movable in the chamber about a pivot axis that is perpendicular to the valve body to control the flow of a fluid through the valve body. The plate valve member defines a pair of opposite faces, a first duct therethrough provides fluid communication between the opposite faces to equalize fluid pressures acting on the opposite faces in the region of the first duct. The plate valve member also has a second duct therethrough that provides fluid communication between the opposite faces to equalize fluid pressures acting on the opposite faces in the region of the second duct. The first duct and the second duct are equidistant from the pivot axis.
대표청구항▼
What is claimed is: 1. A microvalve comprising: a generally planar plate valve body defining a chamber; and a plate valve member movable in said chamber about a pivot axis perpendicular to said valve body to control the flow of a fluid through said valve body, said plate valve member defining a pai
What is claimed is: 1. A microvalve comprising: a generally planar plate valve body defining a chamber; and a plate valve member movable in said chamber about a pivot axis perpendicular to said valve body to control the flow of a fluid through said valve body, said plate valve member defining a pair of opposite faces, a first duct therethrough providing fluid communication between said opposite faces to equalize fluid pressures acting on said opposite faces in the region of said first duct, and a second duct therethrough providing fluid communication between said opposite faces to equalize fluid pressures acting on said opposite faces in the region of said second duct, said first duct and said second duct being equidistant from said pivot axis. 2. The microvalve defined in claim 1, said valve body further defining a first port communicating with said chamber which is adapted to be connected to a source of high pressure fluid, and defining a second port communicating with said chamber which is adapted to be connected to a low pressure reservoir, said plate valve member being movable to a position in which said first duct is in fluid communication with said first port, and said second duct is in fluid communication with said second port. 3. The microvalve defined in claim 2, wherein said plate valve member is "T-shaped", comprising a main shaft connected to said pivot and a cross-member having a first end portion defining said first duct, a second end portion defining said second duct, and a middle portion between said first and second end portions fixed to said main shaft. 4. A micromachined device, comprising: a body comprising a plurality of plates defining a plurality of parallel planes, said body defining a chamber within at least one intermediate plate and a fluid port communicating with said chamber; and a member movable in said chamber within a plane parallel to said plurality of parallel planes, said member having a first portion and a second portion, said member being movable within a fixed range of movement such that only said first portion of the member is adjacent to said fluid port within said fixed range of movement, said member defining a pair of opposite faces, and further defining a vent through said second portion providing fluid communication between said opposite faces of said member to equalize fluid pressures acting on said opposite faces of said member. 5. The micromachined device defined in claim 4, wherein said member is a valve member movable to control the flow of a fluid through said fluid port. 6. The micromachined device defined in claim 5, wherein said valve member is "T-shaped", comprising a main shaft connected to a pivot and a cross-member comprising said first portion, and a third portion, said second portion being disposed between said first portion and said third portion, said first portion having a first duct defined therethrough, said third portion defining a second duct defined therethrough, said body defining a second fluid port in fluid communication with said chamber, only said third portion of said member being adjacent to said second fluid port within said fixed range of movement. 7. The micromachined device defined in claim 6, wherein said member is movable, within said fixed range of motion, to a first position in which said first duct is in unrestricted fluid communication with said fluid port and said second duct is in restricted fluid communication with said second fluid port, and movable to a second position in which said first duct is in restricted fluid communication with said fluid port and said second duct is in unrestricted fluid communication with said second fluid port. 8. The micromachined device defined in claim 6, wherein said vent is formed through said second portion adjacent said first duct, and further including a second vent defined through said second portion adjacent said second duct providing fluid communication between said opposite faces of said member to equalize fluid pressures acting on said opposite faces of said member. 9. The micromachined device defined in claim 6, wherein said vent is formed through said second portion adjacent said first duct, and further including a second vent defined through said second portion adjacent said vent providing fluid communication between said opposite faces of said member to equalize fluid pressures acting on said opposite faces of said member. 10. The micromachined device defined in claim 6, wherein said vent is formed through said second portion adjacent said first duct, and wherein said vent is one of a pair of laterally spaced apart vents formed through said second portion adjacent said first duct, and further including a second pair of laterally spaced apart vents defined through said second portion adjacent said second duct providing fluid communication between said opposite faces of said member to equalize fluid pressures acting on said opposite faces of said member.
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