Solenoid valve for delivering a fluid at a variable flow-rate
First Claim
1. A solenoid valve for delivering a fluid at a variable flow-rate, comprising:
- a duct having and inlet opening and an outlet opening through which the fluid can pass substantially without changing direction, a valve seat within the duct, between the inlet opening and the outlet opening, a closure member movable between a closure position and a fully-open position, electromagnetic means for acting on the closure member in order to move it to any position between the closure position and the open position, in dependence on an electrical control quantity, the electromagnetic means comprising a core of ferromagnetic material, fixed firmly to the closure member and movable substantially along the same axis as the fluid, and a solenoid for generating a force on the ferromagnetic core along the same axis, and a further valve seat, a further core of ferromagnetic material, a further closure member fixed firmly to the further core, and further resilient means having dimensions such that, when the solenoid is not energized, the further closure member is urged against the further valve seat in order to block the passageway for the fluid and, when the solenoid is energized, the further closure member is removed from the valve seat to allow the fluid to pass through.
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Accused Products
Abstract
The solenoid valve comprises a duct having an inlet opening and an outlet opening through which the fluid can pass substantially without changing direction, a valve seat within the duct, a closure member movable between a closure position and a fully-open position, and electromagnetic means for acting on the closure member in order to move it to any position between the closure position and the open position in dependence on an electrical control quantity.
The electromagnet means comprise a core of ferromagnetic material, fixed firmly to the closure member and movable substantially along the same axis as the fluid, and a solenoid for generating a force on the ferromagnetic core along the same axis. A second closure member, movable along the same axis, may be provided in order to provide a solenoid valve with a double seal.
The solenoid valve described is less bulky and expensive than known solenoid valves because it does not require a metal housing body.
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Citations
14 Claims
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1. A solenoid valve for delivering a fluid at a variable flow-rate, comprising:
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a duct having and inlet opening and an outlet opening through which the fluid can pass substantially without changing direction, a valve seat within the duct, between the inlet opening and the outlet opening, a closure member movable between a closure position and a fully-open position, electromagnetic means for acting on the closure member in order to move it to any position between the closure position and the open position, in dependence on an electrical control quantity, the electromagnetic means comprising a core of ferromagnetic material, fixed firmly to the closure member and movable substantially along the same axis as the fluid, and a solenoid for generating a force on the ferromagnetic core along the same axis, and a further valve seat, a further core of ferromagnetic material, a further closure member fixed firmly to the further core, and further resilient means having dimensions such that, when the solenoid is not energized, the further closure member is urged against the further valve seat in order to block the passageway for the fluid and, when the solenoid is energized, the further closure member is removed from the valve seat to allow the fluid to pass through. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
an inlet element which defines a first portion of the duct adjacent the inlet opening and is made at least partially of ferromagnetic material, an outlet element which defines a second portion of the duct adjacent the outlet opening and comprises the valve seat and, a sheath of non-ferromagnetic material which joins the inlet element to the outlet element and defines between these elements a chamber in which the core with the closure member is housed in a slidable manner.
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3. A solenoid valve according to claim 2, comprising resilient means for urging the core, with the closure member, to the closure position.
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4. A solenoid valve according to claim 2 in which the core divides the chamber defined by the sheath into a first compartment which is in communication with the first portion of the duct, and a second compartment which is in communication with the second portion of the duct when the closure member is not in the closure position, the core comprising ducting means which put the two compartments of the chamber into communication with one another.
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5. A solenoid valve according to claim 2, having a support structure comprising two discs of ferromagnetic material with central openings through which the end portions of the inlet element and of the outlet element extend, and fixing means which interconnect the two discs.
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6. A solenoid valve according to claim 1 in which the closure member and the valve seat have respective substantially complementary conical surfaces.
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7. A solenoid valve according to claim 1 in which the inlet element and the core have respective substantially complementary conical surfaces.
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8. A valve system comprising a solenoid valve according to claim 1, means for detecting the flow-rate of the fluid output from the solenoid valve and regulating means for varying the electrical quantity (I) controlling the solenoid in a manner such as to keep the flow-rate of the fluid output at a predetermined value.
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9. A valve system according to claim 8 in which the detecting means comprise a turbine disposed in the path of the fluid output, at least one permanent magnet movable with the turbine, and Hall-effect sensor, and in which the regulating means comprise an electronic unit for controlling the electrical control quantity in dependence on the difference between a signal generated by the Hall-effect sensor and a signal corresponding to the predetermined flow-rate value.
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10. A valve system according to claim 8 in which the detecting means comprise a pressure sensor disposed in the path of the fluid output, and in which the regulating means comprise an electronic unit for controlling the electrical control quantity in dependence on the difference between a signal generated by the pressure sensor and a predetermined pressure signal corresponding to the predetermined flow-rate value.
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11. A solenoid valve for delivering a fluid at a variable flow-rate, comprising:
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a duct having an inlet opening and an outlet opening through which fluid can flow without substantially changing direction;
a first valve seat within the duct between the inlet opening and the outlet opening;
a first closure member movable between a closure position and a fully-open position to which is fixed a first core of ferromagnetic material movable substantially along the same axis as the fluid;
a solenoid for generating a force on the first core along the same axis to move the first closure member to any position between the closure position and the open position in dependence on an electrical control quantity, and a second valve seat, a second closure member having a second core of ferromagnetic material fixed thereto, and at least one resilient member adapted to urge the second closure member against the second valve seat when the solenoid is not energized to block fluid flow, and when the solenoid is energized, the second closure member is removed from the valve seat thereby to allow fluid flow. - View Dependent Claims (12, 13, 14)
a solenoid valve according to claim 11;
a detector for detecting flow-rate of fluid output from the solenoid valve; and
a regulator for varying the electrical control quantity to maintain the flow-rate of fluid output at a predetermined value.
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13. The valve system of claim 12, wherein the detector comprises a turbine disposed in the path of the fluid output, at least one permanent magnet movable with the turbine, and a Hall-effect sensor, and the regulator comprises an electronic unit for controlling the electrical control quantity in dependence upon a difference between a signal generated by the Hall-effect sensor and a signal corresponding to the predetermined flow-rate value.
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14. The valve system of claim 12, wherein the detector comprises a pressure sensor disposed in the path of the fluid output, and the regulator comprises an electronic unit for controlling the electrical control quantity in dependence on a difference between a signal generated by the pressure sensor and a signal corresponding to the predetermined flow-rate value.
Specification