Expansion valve having an internal bypass
DCFirst Claim
1. An expansion valve comprising:
- a valve body defining an inlet, an outlet, and an orifice in fluid communication with said inlet and said outlet;
a closure positioned in said valve body and adapted to close said orifice, said closure being movable between an open and closed position to allow or prevent fluid to flow through said orifice, from said inlet to said outlet;
said valve body defining a bypass flow path in fluid communication with said outlet and said inlet to allow fluid to flow from said outlet to said inlet;
a bypass closure positioned in the bypass flow path and movable between an open position and a closed position, so that when said closure is in said closed position, fluid flowing from said outlet toward said inlet causes said bypass closure to move toward said open position thereby allowing said fluid to flow in a reverse direction from said outlet to said inlet, and when said closure moves toward said open position, fluid pressure maintains said bypass closure in said closed position, thereby allowing said fluid to flow from said inlet to said outlet;
means defining a guide path, said bypass closure having an extension slidably positioned in said guide path; and
said bypass closure being free floating with said extension being shaped to prevent fluid from becoming trapped in said guide path as said bypass closure moves between said open and closed positions.
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Abstract
In an expansion valve a valve body combines an inlet and outlet in an orifice in fluid communication therewith. A closure is positioned in the valve body and is movable between an opened and closed position to allow or prevent fluid to flow through the orifice from the inlet to the outlet. The valve body defines a bypass flow path which is in fluid communication with the outlet and inlet to allow fluid to flow from the outlet to the inlet, a bypass closure positioned in the bypass flow path is movable between an opened position and a closed position so that when said closures in said closed position fluid flowing from said outlet towards an inlet causes a bypass closure to move toward said opened position allowing fluid to flow on a reverse direction from the outlet to the inlet. When the closure moves toward the opened position fluid pressure maintains the bypass closure in the dosed position allowing fluid to flow from the inlet to the outlet. The bypass closure is free floating within the valve body.
31 Citations
15 Claims
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1. An expansion valve comprising:
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a valve body defining an inlet, an outlet, and an orifice in fluid communication with said inlet and said outlet;
a closure positioned in said valve body and adapted to close said orifice, said closure being movable between an open and closed position to allow or prevent fluid to flow through said orifice, from said inlet to said outlet;
said valve body defining a bypass flow path in fluid communication with said outlet and said inlet to allow fluid to flow from said outlet to said inlet;
a bypass closure positioned in the bypass flow path and movable between an open position and a closed position, so that when said closure is in said closed position, fluid flowing from said outlet toward said inlet causes said bypass closure to move toward said open position thereby allowing said fluid to flow in a reverse direction from said outlet to said inlet, and when said closure moves toward said open position, fluid pressure maintains said bypass closure in said closed position, thereby allowing said fluid to flow from said inlet to said outlet;
means defining a guide path, said bypass closure having an extension slidably positioned in said guide path; and
said bypass closure being free floating with said extension being shaped to prevent fluid from becoming trapped in said guide path as said bypass closure moves between said open and closed positions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
said fluid is refrigerant having a first density when in liquid form;
said bypass closure is formed from a material having a second density substantially equal to said first density.
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9. An expansion valve as defined by claim 1 wherein said bypass closure is made from a polymeric material.
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10. An expansion valve as defined by claim 9 wherein said polymeric material is PEEK.
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11. An expansion valve as defined by claim 9 wherein said polymeric material is nylon.
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12. An expansion valve comprising:
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a valve body defining an inlet, an outlet, and an orifice in fluid communication with said inlet and said outlet;
a closure positioned in said valve body and movable between an open and closed position to allow or prevent fluid to flow through said orifice, from said inlet to said outlet;
said valve body defining a bypass flow path said bypass flow path being in fluid communication with said outlet and said inlet to allow fluid to flow from said outlet to said inlet;
a bypass closure positioned in said valve body and movable between an open position and a closed position, so that when said closure is in said closed position, fluid flowing from said outlet toward said inlet causes said bypass closure to move toward said open position thereby allowing said fluid to flow in a reverse direction from said outlet to said inlet, and when said closure moves toward said open position, fluid pressure maintains said bypass closure in said closed position, thereby allowing said fluid to flow from said inlet to said outlet; and
whereinsaid fluid defines a first density, and said bypass closure is formed from a material defining a second density substantially equal to said first density. - View Dependent Claims (13, 14, 15)
said fluid is refrigerant and said bypass closure is formed from a polymeric material.
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14. An expansion valve as defined by claim 13 wherein said polymeric material is PEEK.
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15. An expansion valve as defined by claim 13 wherein said polymeric material is nylon.
Specification