Quick disconnect fluid coupling with integral pressure relief feature
First Claim
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1. A coupling for a fluid line, said coupling comprising first and second coupling elements coupled together to permit fluid to flow in series through said coupling elements, said first coupling element comprising:
- a first annular member, said first annular member having a larger diameter portion extending inwardly from a first end thereof, a reduced diameter portion extending substantially from a second end thereof to said larger diameter portion, a first transversely extending annular shoulder at a juncture between said larger diameter portion and said reduced diameter portion, said first annular shoulder extending outwardly from said reduced diameter portion, and a second transversely extending annular shoulder adjacent said second end thereof said second annular shoulder extending inwardly from said reduced diameter portion;
an annular valve body positioned within said larger diameter portion of said first annular member, said annular valve body being slidable within said first annular member and being in a position where an end of said annular valve body is in engagement with said first shoulder, said annular valve body further having an opposed end which extends outwardly beyond said first end of said first annular member, said annular valve body further having on its inside surface, between its end and its opposed end, a surface portion which tapers inwardly as it extends toward said opposed end;
a valve, said valve having a first end and an opposed end, said first end being generally cylindrical, said opposed end being larger in radial extent than said first end and having longitudinally extending slot means extending therethrough, said valve further having a tapered surface between said first end and said opposed end, said tapered surface tapering inwardly as it extends toward said first end, said valve being moveable within said annular valve body and being in a position where said first end is positioned inwardly of said opposed end of said valve body, said tapered surface of said valve being out of engagement with said surface portion of said annular valve body in said first position of the valve; and
spring means trapped between said second annular shoulder of said (first annular member and said opposed end of said valve, said spring means resiliently urging said valve toward said second coupling element;
said second coupling element comprising;
a second annular member having a first end with a restricted opening and a second end with a restricted opening, said second end of said second annular member being adjacent to said first end of said first annular member;
a perforate retainer, said perforate retainer being slidably positioned within said second annular member, said perforate retainer being adjacent said first end of said second annular member;
an annular valve sleeve, said annular valve sleeve having a larger diameter portion which is slidably positioned within said annular member, a reduced diameter portion which extends from said larger diameter portion toward said second end of said second annular member and a generally transversely extending shoulder at a juncture between said larger diameter portion and said smaller diameter portion, said shoulder of said annular valve sleeve being in engagement with a free end of said annular valve body of said first coupling element;
spring means trapped between said perforate annular retainer and said annular valve sleeve for resiliently urging said annular valve sleeve toward said first coupling element; and
an elongate valve member having a first end affixed to said perforate retainer and a second end extending beyond said reduced diameter portion of said annular valve sleeve, said elongate valve member engaging a free end of said first end of said valve to keep said first end of said valve from blocking fluid flow through said opposed end of said annular valve body.
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Abstract
A quick disconnect fluid coupling for a liquid-cooled, preprogrammed card for an aircraft communication or navigation system, the coupling being made up of male and female coupling elements which are closed to flow in the free or uncoupled state and which are open to flow when coupled. The male coupling element has an integral pressure relief feature which operates in two phases. In a first phase the male coupling element remains closed to fluid flow, but accommodates an increase in fluid pressure by movement of an annular valve sleeve within an outer annular member to increase the fluid volume within the annular member. In a second phase an end of a valve member of the male coupling element is biased away from sealing engagement with an end of the annular valve sleeve by fluid pressure, against the biasing effect of a return spring which is trapped between the annular valve sleeve and a perforate annular retainer that is affixed to an opposed end of the valve member, to permit fluid to be dumped from the coupling element.
67 Citations
21 Claims
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1. A coupling for a fluid line, said coupling comprising first and second coupling elements coupled together to permit fluid to flow in series through said coupling elements, said first coupling element comprising:
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a first annular member, said first annular member having a larger diameter portion extending inwardly from a first end thereof, a reduced diameter portion extending substantially from a second end thereof to said larger diameter portion, a first transversely extending annular shoulder at a juncture between said larger diameter portion and said reduced diameter portion, said first annular shoulder extending outwardly from said reduced diameter portion, and a second transversely extending annular shoulder adjacent said second end thereof said second annular shoulder extending inwardly from said reduced diameter portion; an annular valve body positioned within said larger diameter portion of said first annular member, said annular valve body being slidable within said first annular member and being in a position where an end of said annular valve body is in engagement with said first shoulder, said annular valve body further having an opposed end which extends outwardly beyond said first end of said first annular member, said annular valve body further having on its inside surface, between its end and its opposed end, a surface portion which tapers inwardly as it extends toward said opposed end; a valve, said valve having a first end and an opposed end, said first end being generally cylindrical, said opposed end being larger in radial extent than said first end and having longitudinally extending slot means extending therethrough, said valve further having a tapered surface between said first end and said opposed end, said tapered surface tapering inwardly as it extends toward said first end, said valve being moveable within said annular valve body and being in a position where said first end is positioned inwardly of said opposed end of said valve body, said tapered surface of said valve being out of engagement with said surface portion of said annular valve body in said first position of the valve; and spring means trapped between said second annular shoulder of said (first annular member and said opposed end of said valve, said spring means resiliently urging said valve toward said second coupling element; said second coupling element comprising; a second annular member having a first end with a restricted opening and a second end with a restricted opening, said second end of said second annular member being adjacent to said first end of said first annular member; a perforate retainer, said perforate retainer being slidably positioned within said second annular member, said perforate retainer being adjacent said first end of said second annular member; an annular valve sleeve, said annular valve sleeve having a larger diameter portion which is slidably positioned within said annular member, a reduced diameter portion which extends from said larger diameter portion toward said second end of said second annular member and a generally transversely extending shoulder at a juncture between said larger diameter portion and said smaller diameter portion, said shoulder of said annular valve sleeve being in engagement with a free end of said annular valve body of said first coupling element; spring means trapped between said perforate annular retainer and said annular valve sleeve for resiliently urging said annular valve sleeve toward said first coupling element; and an elongate valve member having a first end affixed to said perforate retainer and a second end extending beyond said reduced diameter portion of said annular valve sleeve, said elongate valve member engaging a free end of said first end of said valve to keep said first end of said valve from blocking fluid flow through said opposed end of said annular valve body. - View Dependent Claims (2, 3, 4, 5, 6)
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- 7. A first coupling element for a fluid line coupling comprising, in combination, an annular member having an inner end adapted to be connected to a normally substantially unpressurized fluid circuit, an outer end adapted to be connected to a second coupling element, and an axial cylindrical bore intersecting each end, a valve subassembly axially displaceable with said member bore between an inner position defining a closed minimum volume chamber within said bore and an outer position defining a closed maximum volume chamber within said bore, said valve subassembly comprising an elongated axially related valve stem having an inner end and an enlarged circular outer end having a valve seat defined thereon, a tubular valve sleeve circumscribing and axially displaceable with respect to said valve stem having an outer cylindrical surface of a diameter slightly less than the bore diameter, an outer end, and a through axial passage intersecting said valve sleeve outer end to define an annular valve sleeve port, said valve sleeve port having a diameter less than that of said stem head whereby upon engagement of said sleeve port with said stem head and valve seat outer axial displacement of said valve sleeve with respect to said stem is terminated and said member bore is sealed, and a spring axially displaceable with said subassembly and axial biasing said valve sleeve toward said stem head, an inner abutment defined on said member, an outer abutment defined on said member axially spaced from said inner abutment, a first abutment defined on said valve subassembly adapted to engage said member inner abutment at said subassembly inner position, a second abutment defined on said valve sleeve adapted to engage said member outer abutment at said subassembly outer position, the axial distance separating said member'"'"'s inner and outer abutments being greater than the axial distance separating said subassembly first and second abutments permitting axial displacement of said subassembly within said member bore between its inner and outer positions while said subassembly stem valve seat and sleeve port are engaged, and an annular seal ring interposed between said member bore and valve sleeve cylindrical surface sealing said valve sleeve with respect to said member bore and providing a frictional restraint on said valve sleeve against axial displacement less than the axial biasing force of said spring upon said valve sleeve, said frictional restraint being overcome upon said subassembly being axially displaced between said inner position to said outer position.
- 13. A liquid-cooled preprogrammed card for an electronic system, the card having at least one connection for the flow of a liquid cooling medium into or out of the card, said at least one connection having a coupling element of a quick disconnect coupling attached thereto, said coupling element comprising, in combination, an annular member having an inner end adapted to be connected to a card circuit wherein the card circuit is normally substantially unpressurized when the card is removed from the electronic system, an outer end adapted to be connected to a second coupling element, and an axial cylindrical bore interacting each end, a valve subassembly axially displaceable with said member bore between an inner position defining a closed minimum volume chamber within said bore and an outer position defining a closed maximum volume chamber within said bore, said valve subassembly comprising an elongated axially related valve stem having an inner end and an enlarged circular outer end having a valve seat defined thereon, a tubular valve sleeve circumscribing and axially displaceable with respect to said valve stem having an outer cylindrical surface of a diameter slightly less than the bore diameter, an outer end, and a through axial passage intersecting said valve sleeve outer end to define an annular valve sleeve port, said valve sleeve port having a diameter less than that of said stem head whereby upon engagement of said sleeve port with said stem head and valve seat outer axial displacement of said valve sleeve with respect to said stem is terminated and said member bore is sealed, and a spring axially displaceable with said subassembly and axial biasing said valve sleeve toward said stem head, an inner abutment defined on said member, an outer abutment defined on said member axially spaced from said inner abutment, a first abutment defined on said valve subassembly adapted to engage said member inner abutment at said subassembly inner position, a second abutment defined on said valve sleeve adapted to engage said member outer abutment at said subassembly outer position, the axial distance separating said member'"'"'s inner and outer abutments being greater than the axial distance separating said subassembly first and second abutments permitting axial displacement of said subassembly within said member bore between its inner and outer positions while said subassembly stem valve seat and sleeve valve port are engaged, and an annular seal ring interposed between said member bore and valve sleeve cylindrical surface sealing said valve sleeve with respect to said member bore and providing a frictional restraint on said valve sleeve against axial displacement less than the axial biasing force of said spring upon said valve sleeve, said frictional restraint being overcome upon said subassembly being axially displaced between said inner position to said outer position.
- 19. In a coupling consisting of first and second tubular elements adapted to be interconnected to permit fluid flow therebetween wherein the first coupling includes a spring biased self sealing valve and the second coupling includes a tubular protuberance engaging the valve of the first coupling during connection to displace and open the valve, the improvement comprising, the second coupling having an open end through which the protuberance extends, a cylindrical recess defined in the second coupling having an axis and intersecting said open end, the tubular protuberance including an inner end received within said recess, said inner end being of a lesser diameter than said recess and axially tiltable with respect to the axis of said recess, a resilient O-ring interposes between said recess and protuberance inner end biasing said inner end toward a coaxial relationship with said recess axis and retaining means mounted on the second coupling retaining said inner end within said recess and permitting tilting of the protuberance for self alignment with the first coupling.
Specification
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Current AssigneeAeroquip Corporation (Eaton Corporation PLC.)
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Original AssigneeAeroquip Corporation (Eaton Corporation PLC.)
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InventorsWebster, Alexander P., Marrison, William C., Rogers, Russell L.
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Primary Examiner(s)Schwadron, Martin P.
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Assistant Examiner(s)Lee, Kevin L.
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Application NumberUS07/805,992Time in Patent Office540 DaysField of Search137/614, 137/614.02, 137/614.03, 137/614.04, 137/614.05, 251/149.1, 251/149.3, 251/149.6, 251/149.7, 251/149.9US Class Current137/614.04CPC Class CodesF16L 29/04 with a cut-off device in ea...F16L 37/34 at least one of the lift va...Y10T 137/87957 Valves actuate each other
