Rotary Valve Patents (Class 251/192)
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Patent number: 11939981Abstract: A rotary disc valve is used in a fluid delivery system to control flow of fluid between multiple ports of a valve housing. The valve housing may include a valve body and a lid that closes an open end of the valve body. In addition, the valve may include a diverter and seal assembly that are disposed in the valve housing. The diverter is configured to rotate about a rotational axis and to control fluid flow through the valve housing. The seal assembly provides a dynamic seal that is fluid tight within a plane that is perpendicular to the rotational axis. The diverter, the valve body and the seal assembly cooperate to define a fluid passageway that is coaxial with the rotational axis and passes through the seal assembly.Type: GrantFiled: December 16, 2021Date of Patent: March 26, 2024Assignees: Robert Bosch LLC, Robert Bosch GmbHInventor: Thomas Chapman
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Patent number: 11821536Abstract: A shaft end section of a shaft is inserted into a receiving hole of a shaft receiver of a gear arrangement. An outer periphery, which forms an outer periphery of the shaft end section, has an end section flat surface portion and an end section curved surface portion. A receiving hole inner periphery, which forms an inner periphery of the receiving hole, has a receiving hole flat surface portion and a receiving hole curved surface portion. The shaft end section is press-fitted such that the receiving hole flat surface portion contacts at least a part of the end section flat surface portion, and the receiving hole curved surface portion contacts at least a part of the end section curved surface portion, while a central axis of the shaft end section overlaps with a central axis of the receiving hole.Type: GrantFiled: May 4, 2022Date of Patent: November 21, 2023Assignee: DENSO CORPORATIONInventor: Ryo Noumura
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Patent number: 11739612Abstract: An isolation valve system includes a well string having an isolation valve including a ball rotatably mounted to a pair of inserts for rotation about a fixed axis, an arm coupled to the ball at a position offset from the fixed axis, and a mandrel connected to an actuation end of the arm, the mandrel and the actuation end of the arm being disposed uphole of the ball. Via the actuation end of the arm, the mandrel forces rotation of the ball from a closed position to an open position by moving in a linear direction away from the ball, which allows flow of fluid along a through hole of the ball.Type: GrantFiled: September 16, 2019Date of Patent: August 29, 2023Assignee: SCHLUMBERGER TECHNOLOGY CORPORATIONInventors: Cassius Elston, Brian Walther, Venkata Siva Reddy Battula, Ashish Sharma, Diana Orzechowski
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Patent number: 11662032Abstract: A rotary valve, comprising a valve housing with a valve chamber, wherein the valve chamber has a chamber wall in which at least two fluid openings are provided, wherein the valve chamber has a receiving opening on the end face side, wherein the valve chamber accommodates a valve core, wherein the valve core is provided with a channel structure which interacts with the fluid openings, wherein the valve core is supported in the valve chamber in a rotationally movable manner, wherein the valve chamber is formed in a conical shape.Type: GrantFiled: December 3, 2021Date of Patent: May 30, 2023Assignee: TI AUTOMOTIVE TECHNOLOGY CENTER GMBHInventors: Albert Boecker, Matthias Winter, Thorsten Schaefer, Florian Deibel, Matthias B. Olbrich
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Patent number: 11585447Abstract: A valve seat for a ball valve. The valve seat having a valve seat body with a circumferential concave seating surface configured to mate with a curvature of the valve ball. A seal pocket formed within the valve seat body, the seal pocket having (i) an throat formed in the concave seating surface, (ii) an outer pocket sidewall, and (iii) an inner pocket sidewall. A retaining groove positioned below the throat on either the outer pocket sidewall or the inner pocket sidewall and a flexible seal element shaped for positioning in the seal pocket. The seal element includes (i) an extended lip configured to rest within the retaining groove when the seal element is seated in the seal pocket, and (ii) a sealing face with an upper end laying below the valve seat's concave seating surface and a mid-portion extending upward above a curvature path of the concave seating surface.Type: GrantFiled: June 16, 2021Date of Patent: February 21, 2023Assignee: M & M Oil Tools, LLCInventors: David A. Buck, Andy Paul Todd, Sythonh Sysavath, Jon David Hurst
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Patent number: 11530591Abstract: A plug valve including a valve body defining an internal cavity, a first passage, and a second passage, a plug defining a third passage and being rotatable within the internal cavity, and an insert extending within the internal cavity between the valve body and the plug. The insert defines an interior surface and an opening aligned with the first passage of the valve body. The insert may also define a sealing surface extending around the opening and standing in relief against the interior surface to sealingly engage the plug. In addition to, or instead of, the sealing surface, the insert may define a projection at least partially defining the interior surface. In addition, a boot may be connected to the valve body and interlocked with the projection to prevent, or at least reduce, rotation of the insert relative to the valve body when the plug rotates within the internal cavity.Type: GrantFiled: May 1, 2020Date of Patent: December 20, 2022Assignee: SPM Oil & Gas Inc.Inventors: Brian C. Witkowski, Nuder Said, Duc Thanh Tran
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Patent number: 11519520Abstract: A gas valve includes a body, a knob and a pin. The pin is connected to the knob and contacts the body. When the knob is rotated to drive the valve between a turn-off position and a turn-off position. The knob and the valve are threadedly co-rotated to change the distance of the knob relative to the body. When the knob and the valve are rotated to the turn-off position, the pin protrudes beyond the through hole. When the knob and the valve are rotated to the turn-on position, the pin does not protrude beyond the through hole. The users are acknowledged the gas valve is turned off or turned on by the position of the pin.Type: GrantFiled: July 6, 2021Date of Patent: December 6, 2022Inventor: Yi-Jhih Bai
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Patent number: 9829111Abstract: A valve device has a housing, and a flow channel running in the housing, in which a valve flap is fastened on a shaft arranged perpendicularly to the flow direction. The shaft is rotatably mounted in housing. The bearing formed as a loose bearing is surrounded by a spring retainer, the base of which lies on a bearing bush of the loose bearing and has a jacket surface with a radial wavy shape.Type: GrantFiled: December 18, 2012Date of Patent: November 28, 2017Assignee: Continental Automotive GmbHInventor: Christian Weis
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Patent number: 9322327Abstract: A turbocharger includes a turbine housing defining an exhaust gas inlet, and an exhaust gas exit. The turbine housing is integrated with a housing for a 3-way valve defining a primary through-passage that supplies exhaust gas directly to a catalyst. The exhaust gas inlet is connected to a bypass passage of the valve that allows exhaust gases to flow to the turbine before going to the catalyst. The valve includes a rotary element whose position is controllable to regulate flow through each of the primary through-passage and the bypass passage of the valve. The rotary element is rotatable over a first range of movement and a further second range of movement, the first range including a position in which the bypass passage is substantially fully closed. Over the second range the bypass passage is fully open regardless of the degree of opening or closing of the primary through-passage.Type: GrantFiled: June 26, 2013Date of Patent: April 26, 2016Assignee: Honeywell International Inc.Inventors: Alain Lombard, Johann Kurtzmann, Michael Ladonnet
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Patent number: 9249889Abstract: A bidirectional ball valve for ultra-high pressure applications wherein the inner end of the valve stem has sides dimensioned to rotationally engage a corresponding recess in the flow control element having larger corresponding sides disposed to allow for lateral movement of the flow control element, and wherein the inner annular surface of a valve seat has an annular sealing face in sealing engagement with the flow control element, support surfaces adjacent the sealing face in contact with the flow control element, and lateral vent grooves between the support surfaces. A method to utilize the bidirectional ball valve involves rotating the valve stem and control element and maintaining a pressure of 275.8 MPa (40,000 psi) or more for at least 1 hour without leaking before opening or after closing the valve.Type: GrantFiled: March 8, 2013Date of Patent: February 2, 2016Assignee: Mogas Industries, Inc.Inventors: Alfred Lewis Anderson, M. Robert Junier
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Patent number: 8998172Abstract: In an embodiment of the present invention, a valve seal for a ball valve includes a ball configured to mate with a tail piece, an annular seat ring to facilitate the mating of the ball with the tail piece, the seat ring having an angled wall having a first groove for accommodating a first seal and a second groove for accommodating a second seal, the first seal having a different Young's modulus from the second seal.Type: GrantFiled: May 6, 2011Date of Patent: April 7, 2015Assignee: SPX CorporationInventors: Mark Lewandowski, Glenn McClatchey, Phillip Treichel
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Publication number: 20150083254Abstract: The disclosed embodiments include ball valves having integrated seats. The integrated seats are included in a ball body assembly of a valve body. The ball body assembly may rotate with respect to the valve body to open or close the valve. The integrated seats may contact walls of a bore to sealingly close the valve.Type: ApplicationFiled: November 27, 2014Publication date: March 26, 2015Inventor: Christophe Avdjian
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Patent number: 8978691Abstract: A valve including a flow control assembly having an adaptive, floating closure member is provided. In one embodiment, a ball valve includes a floating closure member having a shoulder enclosed within a recess of the valve body. The recess is larger than the shoulder of the closure member and allows axial movement of the closure member with respect to the valve body and along a flow path through the valve. Additional valve systems, devices, and methods are also disclosed.Type: GrantFiled: August 8, 2012Date of Patent: March 17, 2015Assignee: Cameron International CorporationInventors: Christophe Avdjian, Jacques Berardo
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Patent number: 8979068Abstract: A differential pressure sealing device for use with ball valves that utilizes the pressure of the fluid being communicated in a piping system to increase the sealing force created by the sealing device. Fluid being communicated through a ball valve is provided to a sealing device that includes some type of element for creating a bias force. The pressure of the fluid being communicated increases the sealing pressure created by the sealing device. In this manner, the bias force created in the sealing device benefits from the pressure of the fluid being communicated to enhance the sealing when used with a ball valve or similar component.Type: GrantFiled: February 7, 2012Date of Patent: March 17, 2015Assignee: Yeary & Associates, Inc.Inventors: Arthur R. Yeary, James P. Azzinaro, Hans D. Baumann
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Patent number: 8931760Abstract: The ball valve may be manually opened and dosed with ease and securely prevent leakage. The ball valve includes a valve body having a fluid inlet passage, fluid outlet passage, and a communicating part provided between these passages. The ball valve includes a ball having a fluid communication passage and preferably is arranged on the communicating part of the valve body for rotating about a reference axis. A substantially cylindrical ball seat which preferably has a desired opening part on its peripheral wall and is arranged between the ball and valve body. The ball valve includes a ball seat pressing part inside the valve body, adjacent to the ball seat and a presser screw screwed into the inner periphery of the valve body. The presser screw preferably presses the ball seat pressing part by adjustment of its tightening force and presses the ball seat pressing part without contacting the packing.Type: GrantFiled: September 25, 2013Date of Patent: January 13, 2015Assignee: Kabushiki Kaisha FujikinInventors: Shunya Ikeda, Izuru Shikata
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Patent number: 8911688Abstract: A microvalve for controlling fluid flows, and a sealing device for sealing cavities in a microfluidic system, particularly in a lab-on-a-chip system, and a method for the production thereof. A sealing surface of a valve body, or a sealing element, respectively, rests on a sealing surface of a substrate and is pressed against the sealing surface of the substrate in a fluid-tight manner by means of a clamping element. The clamping element and/or the valve body, or the sealing element, respectively, are at least partially elastic.Type: GrantFiled: June 19, 2009Date of Patent: December 16, 2014Assignee: Fraunhofer-Gesellschaft zur Förderung der Angewandten Forschung E.V.Inventors: Rainer Gransee, Eva Schaeffer, Klaus-Stefan Drese, Silvio Kraus, Tobias Baier, Felix Schmitz
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Patent number: 8905075Abstract: A multi-position rotary shear valve assembly having a substantially metallic or ceramic stator device and a substantially metallic or ceramic rotor device. The stator device defines a substantially planar stator face and at least two or more stator channels in fluid communication with the stator face at corresponding stator ports, while the rotor device includes a substantially planar rotor face defining one or more rotor channels. A tribological coating is disposed atop at least one of the rotor face and the stator face, which enables a substantially fluid-tight, selective relative rotation between the rotor face and the stator face, at a rotor-stator interface, between two or more rotor positions.Type: GrantFiled: July 9, 2010Date of Patent: December 9, 2014Assignee: IDEX Health & Science LLCInventor: Christopher R. Tower
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Patent number: 8876081Abstract: A multi-position rotary shear valve assembly having a metallic or ceramic stator device and a metallic or ceramic rotor device. The stator device defines a planar stator face and two or more stator channels in fluid communication with the stator face at corresponding stator ports, while the rotor device includes a substantially planar rotor face defining one or more rotor channels. A tribological coating is disposed atop at least one of the rotor and stator face. The valve assembly includes a polymer insert device defining an exposed contact face having an inner diameter less than that of the outer circumferential edge and an outer diameter more than the outer circumferential edge. The insert device is formed for press-fit insertion in a groove defined in the rotor face. The outer circumferential edge of the stator face contacts the insert exposed face during rotation between the two or more rotor positions.Type: GrantFiled: November 14, 2011Date of Patent: November 4, 2014Assignee: IDEX Health & Science LLCInventor: Christopher R. Tower
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Patent number: 8814138Abstract: A seal used in a valve includes a ring-shaped cartridge. The cartridge has a first portion and a second portion. The first and second portions hold a sealing portion, and the first and second portions have respective first and second curved surfaces adjacent to a sealing surface of the sealing portion. Radii of curvature of the curved surfaces enable an initial point of contact between a flow control member and the cartridge to be on the sealing surface when the flow control member moves to a closed position.Type: GrantFiled: October 12, 2011Date of Patent: August 26, 2014Assignee: Fisher Controls International LLCInventor: Wade Jonathon Helfer
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Patent number: 8727309Abstract: Fluid valves having adjustable sealing characteristics are described. An example fluid valve includes a valve body having a flow aperture to enable the flow of fluid therethrough. Additionally, the fluid valve includes a seal surrounding the flow aperture and a sealing member having a shaft extending therefrom. The sealing member is movable relative to the seal and the flow aperture to control the flow of fluid through the flow aperture. Further, the fluid valve includes a support body movably coupled to the valve body and having a passage to receive the shaft. The support body holds the shaft and the sealing member to enable rotation of the shaft and the sealing member relative to the valve body and the seal, and at least one of the support body or the valve body includes at least one elongated opening to enable movement of the support body relative to the valve body to change an amount of engagement between the sealing member and the seal when the fluid valve is in a closed position.Type: GrantFiled: April 17, 2009Date of Patent: May 20, 2014Assignee: Fisher Controls International LLCInventor: Ross Arthur Schade
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Patent number: 8720856Abstract: Valve comprising a gasket interposed between a body (1) and a closure member (2), which is in two pieces (6), each piece (6) has a curved part (12), and the two pieces are fixed within the body (1) and within the closure member (2), in such a way as to come into contact via the convex face of their curved part (12).Type: GrantFiled: May 4, 2011Date of Patent: May 13, 2014Assignee: KSB S.A.S.Inventor: Dominique Duboy
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Patent number: 8720855Abstract: Embodiments and methods are disclosed herein that relate to a valve assembly. The valve assembly includes a housing having a passage formed therethrough, and a valve ball having a through hole and disposed in the housing, in which the valve ball is rotatable between an open position that has the through hole aligned with the passage and a closed position that has the through hole misaligned with the passage. The valve assembly further includes a first seat having a first sealing surface and disposed in the housing adjacent to the valve ball, and a second seat having a second sealing surface and disposed in the housing adjacent to the first seat such that the first sealing surface of the first seat is disposed adjacent to the second sealing surface of the second seat. At least one of the first sealing surface of the first seat and the second sealing surface of the second seat comprises an arcuate surface.Type: GrantFiled: September 19, 2012Date of Patent: May 13, 2014Assignee: Virgo Engineers, Inc.Inventor: Marvin E. Beasley
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Patent number: 8695633Abstract: Aspects of the invention are associated with the discovery of methods for operating rotary valves that reduce or minimize wear of the seal sheet, which is often the limiting factor in overall processing capability of the valve. The control of certain parameters associated with the rotary valve operation, and particularly the seating pressure of the seal sheet (e.g., the dome pressure), can extend the useful life of the seal sheet, thereby avoiding excessive maintenance and downtime costs. In preferred embodiments, control is on a real time basis.Type: GrantFiled: September 9, 2010Date of Patent: April 15, 2014Assignee: UOP LLCInventor: Franz Marcus Nowak
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Publication number: 20140084198Abstract: Provided is a ball valve which may be manually opened and closed with ease by reducing handle torque and can securely prevent leakage. The present invention relates to a ball valve, comprising a valve body which has a fluid inlet passage, fluid outlet passage, and a communicating part provided between these passages, a ball which has a fluid communication passage and preferably is arranged on the communicating part of the valve body to be able to rotate about a reference axis, a substantially cylindrical ball seat which preferably has a desired opening part on its peripheral wall and is arranged between said ball and said valve body, a ball seat pressing part arranged inside said valve body so as to be adjacent to said ball seat, and a presser screw arranged to be screwed to fit in the inner periphery of said valve body. The ball valve preferably performs communication and interception between the fluid inlet passage and the fluid outlet passage by the rotation of the ball about the reference axis.Type: ApplicationFiled: September 25, 2013Publication date: March 27, 2014Applicant: Kabushiki Kaisha FujikinInventors: Shunya Ikeda, Izuru Shikata
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Patent number: 8678026Abstract: An automatic vacuum-relief apparatus for liquid suction systems includes a vessel defining a chamber filled with liquid in communication with a liquid flow line, a rotary shaft extending through the chamber to support a valve device adjacent to the liquid flow line and to move the valve device to open a relief-air flow channel to relieve increased suction caused by inlet blockage, and a piston on the rotary shaft responsive to suction increases within the liquid flow line and chamber to actuate shaft rotation. The valve device, chamber and relief-air flow channel are configured and arranged to cause a spurt of liquid from the chamber into the inlet while the valve device is moving from its isolating position toward its opening position upon inlet blockage, whereby the spurt of liquid pushes the blockage away from the inlet and the relief air reduces the suction.Type: GrantFiled: September 24, 2009Date of Patent: March 25, 2014Inventors: Dieter J. Rief, Hans Schlitzer, Manuela Rief
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Patent number: 8651136Abstract: A faucet includes an annular body (101), a throttle valve (102) constituting a seat and an annular metal gasket positioned therebetween while being accommodated in a recess, the movable sealing element being connected by a plate to a static sealing element gripped within the recess, the plate is flexible and there is play between the recess and the part of the main surfaces of the dynamic sealing element closest to the seat (102) when said element is remote from the seat (102).Type: GrantFiled: April 15, 2011Date of Patent: February 18, 2014Assignee: KSB S.A.S.Inventors: Dominique Duboy, Pascal Vinzio
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Patent number: 8641012Abstract: A medical connector of improved configuration. Annular grooves are formed in both inner and outer surfaces of an outer peripheral portion of an elastic valve element to form an annular constricted section. An outer peripheral side from the constricted section is made to serve as an annular fixation section. A valve receiving seat is formed at an inner peripheral edge of an aperture portion in a housing, and an annular ring is fixed to the aperture portion to sandwich and support the annular fixation section between the valve receiving seat and the annular ring. Engaging projections formed on mutually facing surfaces of the valve receiving seat and the annular ring are engaged with the annular grooves, and either the engaging projection and/or the engaging projection is divided in a circumferential direction to have a plurality of projection-divisions.Type: GrantFiled: December 24, 2009Date of Patent: February 4, 2014Assignee: Nipro CorporationInventors: Kuniaki Matsumoto, Katsuhiro Hiejima, Ken Suzuki, Akihiko Ishizaki
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Publication number: 20130313457Abstract: A valve including a flow control assembly having an adaptive, floating closure member is provided. In one embodiment, a ball valve includes a floating closure member having a shoulder enclosed within a recess of the valve body. The recess is larger than the shoulder of the closure member and allows axial movement of the closure member with respect to the valve body and along a flow path through the valve. Additional valve systems, devices, and methods are also disclosed.Type: ApplicationFiled: August 8, 2012Publication date: November 28, 2013Applicant: CAMERON INTERNATIONAL CORPORATIONInventors: Christophe Avdjian, Jacques Berardo
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Patent number: 8584705Abstract: An apparatus for controlling the flow of fluid may include a main passageway for conducting the fluid and the valve which may include a rotatable valve cavity having a ball check. The rotatable valve cavity may be rotatable with respect to the main passageway to provide at least three positions including a bypass position, a closed position and a run position. The valve may include an outlet for connection to the sight glass, and the apparatus may include a bleeder valve. The apparatus may include a sight glass which may be in fluid communication with the valve.Type: GrantFiled: April 17, 2010Date of Patent: November 19, 2013Inventors: Richard C Hughes, Melvin O Castillo, James C Hertenberger
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Patent number: 8500090Abstract: A ball valve sealing ring is provided for sealing between a ball valve member a valve body. The sealing ring may comprise a ring body having a ball valve member-contacting surface and one or more valve body-contacting shoulders for contacting the valve seat. The sealing ring may comprise a resilient ring core for providing bending resistance. The resilient ring core may be at least partially conical and may have a curved cross-section with a convex side oriented towards the member-contacting surface. The cross section may be of a geometry corresponding to the outer contour of the ring body or shoulders and may have ends bent towards the member-contacting surface. The ring core may also have a plurality of apertures spaced about its circumference. The sealing ring may be elastically deflected upon contact with the valve member. Also provided is a ball valve seating arrangement comprising the aforementioned sealing ring.Type: GrantFiled: March 24, 2010Date of Patent: August 6, 2013Assignee: Velan, Inc.Inventors: Miroslav Hubacek, Luc Vernhes, Jocelyn Deslandes
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Patent number: 8479771Abstract: An exemplary embodiment of a diverter valve system includes a valve body defining an internal chamber having at least first, second and third ports, and a first valve seat associated with the first port and a second valve seat associated with the second port. A valve shaft structure includes an internal shaft portion positioned within the internal chamber, the valve shaft structure configured for rotation about a valve axis through a range of motion. A diverter structure includes a diverter face portion configured to seat against the first valve seat when in a first rotational position and against the second valve seat when in a second position, and a mounting portion configured to mount on the internal shaft portion of the valve shaft structure.Type: GrantFiled: November 21, 2008Date of Patent: July 9, 2013Assignee: G-G Distribution and Development Co., Inc.Inventors: Graham J. Campbell, Luis E. Fuentes, Jason W. Hillyard
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Patent number: 8434736Abstract: A fluid passage valve is equipped with a valve body which is disposed rotatably through first and second shafts, a movable seat having a communication hole therein, and an elastic member that urges the movable seat toward a side opposite from the valve body. The first and second shafts are assembled and installed on the valve body such that an axis thereof is disposed at a position offset from a center of curvature of a spherical surface portion of the valve body. The fluid passage valve is placed in a valve-closed condition by the spherical surface portion abutting against a seating surface and closing the communication hole, and is placed in an open condition by the valve body separating away from the movable seat and thereby opening the communication hole.Type: GrantFiled: September 22, 2011Date of Patent: May 7, 2013Assignee: Keihin CorporationInventors: Takenori Sumiya, Moriyoshi Awasaka, Yuya Yamazaki, Hirotaka Otaki
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Patent number: 8424841Abstract: A floating ball valve has a metal multiple component seat installed in the seat pocket. The multiple component seat further includes a support ring and at least one seal element. The support ring and the seal element are juxtaposed and both are adjacent to the ball when the floating ball valve is in a closed position. The support ring is in a overlapping complimentary position with respect to the seal element, the seal element having greater elasticity than the support ring and the support ring having a greater load bearing strength than the seal element.Type: GrantFiled: March 16, 2010Date of Patent: April 23, 2013Assignee: Bray International, Inc.Inventor: Robert Anthony Frenzel
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Patent number: 8403293Abstract: A ball valve (10) for sealing a conduit (12) is described. The ball valve includes a housing having a throughbore and a valve seat. An apertured ball element (18) is mounted within the housing and is rotatable about an axis of rotation (38) between a throughbore open and a throughbore closed position. The apertured ball element (18) has a first portion (20) and a second portion (22) coupled together which are rotatable and moveable relative to each other. The first portion has a sealing surface for engaging with the valve seat. In use, in the throughbore closed position, the second portion is moveable relative to the first portion to axially displace the first portion from the axis of rotation towards the valve seat such that the sealing surface on the first portion of the apertured ball forms a seal with valve seat.Type: GrantFiled: September 9, 2010Date of Patent: March 26, 2013Assignee: Enovate Systems LimitedInventors: Gavin David Cowie, Jeffrey Charles Edwards
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Patent number: 8262061Abstract: A ball valve having a cam element, and a ball having a left arm and a right arm with a slot between each arm. A terminal portion of each arm is positioned adjacent the cam element. The cam element is shaped so that, when the ball is rotated from the open condition to the closed condition, the cam element forces the arms through three distances of separation. A first distance, when the ball has undergone no rotation from the fully open condition. A second distance, when the ball has undergone some rotation from the fully open condition towards the closed condition but has not reached the closed condition. A third distance in which the ball has undergone rotation to the closed condition. The third distance is greater than the first distance, and the second distance is greater than the third distance.Type: GrantFiled: May 11, 2010Date of Patent: September 11, 2012Inventor: Robert W. King
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Publication number: 20120205569Abstract: A differential pressure sealing device for use with ball valves that utilizes the pressure of the fluid being communicated in a piping system to increase the sealing force created by the sealing device. Fluid being communicated through a ball valve is provided to a sealing device that includes some type of element for creating a bias force. The pressure of the fluid being communicated increases the sealing pressure created by the sealing device. In this manner, the bias force created in the sealing device benefits from the pressure of the fluid being communicated to enhance the sealing when used with a ball valve or similar component.Type: ApplicationFiled: February 7, 2012Publication date: August 16, 2012Applicant: YEARY & ASSOCIATES, INC.Inventors: Arthur R. Yeary, James P. Azzinaro, Hans D. Baumann
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Patent number: 8201574Abstract: Embodiments and methods are disclosed herein that relate to a valve assembly. The valve assembly includes a housing having a passage formed therethrough, and a valve ball having a through hole and disposed in the housing, in which the valve ball is rotatable between an open position that has the through hole aligned with the passage and a closed position that has the through hole misaligned with the passage. The valve assembly further includes a seat having a first tapered surface and disposed in the housing adjacent to the valve ball, wherein the seat is biased towards the valve ball, and a seat holder having a second tapered surface and disposed in the housing adjacent to the seat such that the first tapered surface of the seat is disposed adjacent to the second tapered surface of the seat holder.Type: GrantFiled: December 11, 2009Date of Patent: June 19, 2012Assignee: Virgo Engineers, Inc.Inventor: Marvin E. Beasley
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Patent number: 8172200Abstract: A flow control valve for fluidized material comprises a valve housing having a valve chamber with a valve seat and a valve plug having a flow passage, the valve plug being arranged inside the valve chamber in front of the valve seat (30) so as to be rotatable about an axis of rotation for controlling a flow through the flow control valve. It further comprises spring means biasing the valve plug against the valve seat perpendicularly to the axis of rotation, for achieving a sealing contact between the valve seat and the valve plug. According to an important aspect of the invention, the spring means comprises at least one cantilever spring (40) arranged in a clearance space opposite to the valve seat (30) so as to bias the valve plug against the valve seat.Type: GrantFiled: November 30, 2006Date of Patent: May 8, 2012Assignee: Paul Wurth S.A.Inventors: Yvan Kroemmer, Emanuele Censi
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Publication number: 20110233435Abstract: A medical connector of improved configuration. Annular grooves are formed in both inner and outer surfaces of an outer peripheral portion of an elastic valve element to form an annular constricted section. An outer peripheral side from the constricted section is made to serve as an annular fixation section. A valve receiving seat is formed at an inner peripheral edge of an aperture portion in a housing, and an annular ring is fixed to the aperture portion to sandwich and support the annular fixation section between the valve receiving seat and the annular ring. Engaging projections formed on mutually facing surfaces of the valve receiving seat and the annular ring are engaged with the annular grooves, and either the engaging projection and/or the engaging projection is divided in a circumferential direction to have a plurality of projection-divisions.Type: ApplicationFiled: December 24, 2009Publication date: September 29, 2011Applicant: NIPRO CORPORATIONInventors: Kuniaki Matsumoto, Katsuhiro Hiejima, Ken Suzuki, Akihiko Ishizaki
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Patent number: 8002237Abstract: A ball valve seat arrangement is provided that permits relief of cavity pressure. The arrangement includes a valve body for receiving a resilient annular seat. First passages in the seat provide communication between the valve cavity, and a space formed between the seat and the valve body. When the cavity pressure reaches a certain level, a sealing point between the seat and the valve body is lost. Communication is thereby provided between the space and the valve passage to achieve cavity pressure relief.Type: GrantFiled: November 12, 2008Date of Patent: August 23, 2011Assignee: Velan Inc.Inventors: Mirek Hubacek, Luc Vernhes, Jocelyn Deslandes
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Patent number: 7988127Abstract: A valve device includes a valve body having a cavity, a stopper member in the cavity, and a fluid passage in fluidic communication with the cavity when the valve device is in an open state. A stem is coupled to the stopper member for driving the stopper member to open or close the valve. The stem extends through a stem aperture in the valve body. A first self-expanding seal around the stem is used to seal off an annular gap around the stem. A second self-expanding seal and a third self-expanding seal are disposed around the fluid passage substantially concentrically to prevent leakage. A method for assembling and sealing the valve device, and a valve system are also provided.Type: GrantFiled: December 31, 2007Date of Patent: August 2, 2011Inventor: Gregory J Parra
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Publication number: 20100276620Abstract: Disclosed are a method and a ball valve structure which provide for an improved seal in a trunnion mounted, double piston ball valve, which is especially useful in applications requiring a seal against high pressures, such as in the oil, gas and chemical process industries. Higher pressures on an inlet side of the valve are used, while the valve moves toward and is maintained in a valve closed position, to create movement of a ball element of the valve so as to bias the ball element against both piston seat elements (or rings) used to create the seals. This movement of the ball element thereby effectively uses such upstream pressure to create and enhance a seal between the ball element and both piston seat elements while in the valve closed position.Type: ApplicationFiled: April 26, 2010Publication date: November 4, 2010Applicant: BP Corporation North America Inc.Inventor: Mark Ezekiel
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Patent number: 7819383Abstract: A selector valve (102) having at least first and second ports (108 and 110) is provided. The selector valve includes a closure element (120) selectively displaceable between a first position, wherein the closure element (120) sealingly engages the first port (108), and a second position, wherein the closure element (120) sealingly engages the second port (110). The selector valve (102) further includes a cam assembly that is configured to bias the closure element (120) into at least the first or second position in a manner such that the closure element (120) does not come into substantial contact with the first or second port (108 or 110) when being moved into the first or second position.Type: GrantFiled: March 29, 2007Date of Patent: October 26, 2010Assignee: Norgren GT Development CorporationInventor: John M. Morris
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Ball valve with a rotatable body capable of being kept out of substantial contact with a seat member
Patent number: 7775502Abstract: A ball valve having a reduced sized is provided, that includes a first shaft that extends into a housing accommodating a valve body along a rotational axis of the valve body and is connected to the valve body; and a second shaft that extends into the housing to be oppositely located to the first shaft and is rotatable about an axis line, and has a pressing part that projects radially outwardly from at least a part of the outer circumference of the second shaft. The ball valve is capable of instantly and securely opening and closing communication passages, and changing the direction of fluid flow, while being capable of minimizing the wearing of a seat member for shutting off the communication passages, by having a valve body rotatable while being kept out of contact or substantial contact with the seat member.Type: GrantFiled: October 4, 2007Date of Patent: August 17, 2010Assignee: Hisaka Works, Ltd.Inventor: Kozi Ohta -
Patent number: 7758016Abstract: A ball valve comprising a housing, a ball seat disposed within the housing, and a ball rotatably movable within the housing, and engageable with the ball seat in order to provide a seal within the ball valve and the ball seat, wherein the ball seat comprises multiple seat surfaces independently capable of engaging the ball, a first seat surface engaging the ball to form a first seal, and being arranged such that pressure acting from above pushes the first seat surface against the ball; a second seat surface being movable relative to the first seat surface and engaging the ball to form a second seal, the second seat surface being arranged such that pressure acting from below causes the second seat surface to move relative to the first seat surface and pushes the second seat surface into contact with the ball.Type: GrantFiled: May 18, 2007Date of Patent: July 20, 2010Assignee: Halliburton Energy Services, Inc.Inventors: Gordon Kenneth Scott, James Crabb, Ronald George Taylor
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Patent number: 7644840Abstract: A valve assembly comprising a housing and a valve member mounted within the housing rotatable about an axis and between at least a dispensing position and a further position, for instance a volume selection position during which a material can be withdrawn from a container, and, preferably, a seat for mounting and guiding the valve member within the housing, wherein at least one of said housing, valve member, and seat is made of a synthetic material and the assembly further comprises a spring, which urges at least two of said housing, valve member, and seat together.Type: GrantFiled: April 5, 2005Date of Patent: January 12, 2010Assignee: Fluid Management Operations LLCInventors: Micha Alexander Held, Arthur Frans Van der Knaap, Marcus Johannes Voskuil
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Patent number: 7559531Abstract: A ball valve having reduced torque requirements for rotation is presented. Torque reduction is realized by providing a shaped sealing back member to provide a back force behind essentially the entire sealing surface of the downstream seal. Torque reduction is also realized by providing a dynamic sealing configuration that varies the sealing force over the valve's operating pressure conditions. An initial bias sealing force is applied by a spring member which also provides a low uniform as-assembled valve torque. As fluid pressure increases, the sealing pressure also increases as an o-ring is forced along a ramped surface of the seal. As inlet pressure decreases, the o-ring is allowed to back down the ramped surface to reduce the sealing force against the valve member. This sealing configuration allows for reverse flow or improper installation of the ball valve, and bottoms out to maintain a sealing force at higher back pressure conditions.Type: GrantFiled: November 30, 2006Date of Patent: July 14, 2009Assignee: TAC, LLCInventors: Kurt R. Thomas, Eugene R. Jornod
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Patent number: 7484710Abstract: A control valve of the ball type with bi-directional shutoff capabilities is disclosed. The ball valve including an inlet and an outlet, a ball element and a seal assembly. When closing the valve, the ball element, which is eccentrically mounted on a shaft, rotates to abut the seal assembly. While closed, the seal assembly including a seal housing, a main seal and a resilient member, contacts the ball element at the main seal, while the resilient member biases the main seal toward the ball element. The seal assembly further includes a secondary flowpath between the main seal and seal housing, which is restricted by a high temperature seal.Type: GrantFiled: February 28, 2005Date of Patent: February 3, 2009Assignee: Fisher Controls International LLCInventors: David John Koester, Sarah Lynn Dvorak, Lynn Dean Mahncke, Brandon Wayne Bell, Ronald R. Brestel
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Patent number: 7451959Abstract: A fluid control valve utilizes a rotatable plug valve member mounted in a fluid passage to control the flow of fluids. Two segments are placed on each side of the plug valve member within a recess located between the plug valve member and the body of the fluid passage. The outer surface of the segments includes an elastomeric seal and metal annular boss, which acts as a stop to limit deformation of the seal when the valve is closed and under pressure.Type: GrantFiled: December 14, 2006Date of Patent: November 18, 2008Assignee: S.P.M. Flow Control, Inc.Inventor: Mark D. Matzner
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Patent number: 7337797Abstract: A ball valve having a ball valve assembly disposed within a unitary, elongated tube is provided. The unitary, elongated tube has a first, inlet end, a medial portion having a cross-sectional area, and a second, outlet end. The first, inlet end is a swedged tube having a cross-sectional area that is less than the medial portion cross-sectional area. The second, outlet end is also a swedged tube having a cross-sectional area that is less than the medial portion cross-sectional area. The ball valve assembly is disposed within the medial portion.Type: GrantFiled: May 25, 2006Date of Patent: March 4, 2008Assignee: Harsco Technologies CorporationInventor: Kent Alan Miller