US2010019181A1PendingUtilityA1
Apparatus and method for controlling fluid flow
Est. expiryFeb 29, 2020(expired)· nominal 20-yr term from priority
F16K 31/082F16K 37/00F16K 31/0675F16K 31/0672Y10T137/8242F16K 37/0041
56
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Claims
Abstract
An actuator base, bobbin, and pole piece form a pocket for an armature that a flexible membrane encloses to form an armature chamber filled with an incompressible fluid. The membrane protects the armature from exposure to corrosive fluids flowing in a conduit. Conduit flow can be stopped by driving the membrane against a valve seat. Pressure from the controlled fluid in the conduit is transmitted through the membrane to the fluid within the armature chamber so that the armature does not need to counteract force applied to the membrane by the conduit fluid's pressure.
Claims
exact text as granted — not AI-modified1 - 8 . (canceled)
9 . An actuator system comprising:
an actuator including an armature housing, an armature including ferromagnetic material and having a proximal and a distal part, and a solenoid coil operable by application of a coil drive to linearly displace said armature; a flexible membrane partially enclosing said distal part of said armature and secured at a mouth of said armature housing to form an armature pocket to seal armature fluid within said armature pocket; said armature being disposed in said armature pocket for movement between retracted and extended armature positions in response to magnetic force exerted on said ferromagnetic material as a result of current flow through said solenoid coil: said armature including a fluid passage constructed for fluid flow from said proximal part to said distal part as the armature moves between said extended and retracted armature positions; said armature being cooperatively arranged with said flexible membrane to act onto a valve seat and thereby control fluid flow between a valve inlet and a valve outlet, an armature sensor constructed to detect displacement of said armature; and a control circuit constructed to apply said coil drive to said coil in response to an output from said armature sensor.
10 . The actuator system of claim 9 wherein
said sensor is so coupled to the actuator as to sense said armature reaching said first end position; and said control circuit is operable to begin applying coil drive to said coil in said first drive direction and responsive to an output from said sensor meeting a predetermined first current-termination criterion to stop applying coil drive to the coil in the first drive direction.
11 . The actuator system of claim 10 wherein:
the coil is operable by application of a coil drive thereto in a second drive direction to conduct current in a second current direction and thereby tend to drive the armature to a second end position; said sensor is so coupled to the actuator as to sense said armature reaching the second end position; and said control circuit is operable to begin applying coil drive to the coil in the second drive direction and responsive to said sensor output meeting a predetermined second current-termination criterion to stop applying coil drive to said coil in the second drive direction.
12 . The actuator system of claim 11 wherein the first and second current-termination criteria differ.
13 . The actuator system of claim 9 wherein said sensor includes a piezoelectric transducer.
14 . The actuator system of claim 10 wherein, if the sensor output does not meet the first current-termination criterion within a predetermined first drive duration after the control circuit begins application of coil drive to the coil in the first drive direction, the control circuit applies coil drive to the coil in the first drive direction at a level higher than that at which it began application of coil drive to the coil.
15 . The actuator system of claim 11 wherein, if the sensor output does not meet the second current-termination criterion within a predetermined second drive duration after the control circuit begins application of coil drive to the coil in the second drive direction, the control circuit applies coil drive to the coil in the second drive direction at a level higher than that at which it began application of coil drive to the coil.
16 - 20 . (canceled)
21 . The actuator system of claim 9 further including a motion sensor.
22 . The actuator system of claim 9 further including a presence sensor.
23 - 27 . (canceled)
28 . An actuator system comprising:
an actuator including an armature and a coil operable by application of a coil drive to displace linearly said armature; a membrane partially enclosing said armature; an armature sensor; and a control circuit constructed to apply said coil drive to said coil in response to an output from said armature sensor.
29 . The system of claim 28 wherein the armature sensor includes a sound sensor.
30 . The system of claim 28 wherein the armature sensor includes a piezoelectric sensor.
31 - 40 . (canceled)
41 . The actuator system of claim 9 wherein said armature fluid includes incompressible fluid comprising a corrosion inhibitor.
42 . The actuator system of claim 9 wherein said armature fluid includes an incompressible fluid consists essentially of water mixed with a corrosion inhibitor.
43 . The actuator system of claim 9 wherein said membrane includes a compliant region, and a resilient region designed to be displaced said distal part of said armature and designed to come in contact with said valve seat.
44 . The actuator system of claim 43 wherein said resilient region is further designed to be attached to said distal part of said armature.
45 . The actuator system of claim 44 wherein said resilient region includes a C-shaped member designed for said attachment to said distal part.
46 . The actuator system of claim 28 wherein said armature includes a central cavity.
47 . The actuator system of claim 46 wherein said central cavity is constructed and arranged for receiving a bias spring for biasing said armature toward its extended position.
48 . The actuator system of claim 28 wherein said membrane includes a compliant region, and a resilient region designed to be displaced said distal part of said armature and designed to come in contact with said valve seat.
49 - 50 . (canceled)
51 . A method of operating an actuator system, comprising:
providing the actuator system comprising an actuator including an armature housing, an armature including ferromagnetic material and having a proximal and a distal part, and a solenoid coil operable by application of a coil drive to linearly displace said armature; a flexible membrane partially enclosing a distal part of said armature and secured at a mouth of said armature housing to form an armature pocket to seal substantially incompressible armature fluid within said armature pocket; said armature being disposed in said armature pocket for movement therein between retracted and extended armature positions in response to magnetic force exerted on said ferromagnetic material as a result of current flow through said solenoid coil; said armature including a fluid passage constructed for fluid flow from said proximal part to said distal part as the armature moves between said extended and retracted armature positions, said armature being cooperatively arranged with said flexible membrane to act onto a valve seat and thereby control fluid flow between a valve inlet and a valve outlet; an armature sensor constructed to detect displacement of said armature; and a control circuit constructed to apply said coil drive to said coil in response to an output from said armature sensor; delivering said coil drive signal said solenoid coil for opening and closing of said valve passage; detecting armature movement by said armature sensor; providing a signal from said armature sensor to said control circuit.
52 . The method of claim 51 including delivering said coil drive signal initially at a first level and subsequently in response to said output from said armature sensor applying said coil drive at a second level.Cited by (0)
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