Patents Assigned to Big Horn Valve, Inc.
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Patent number: 9377121Abstract: A rotary valve assembly composing a leak-free enclosure containing a worm gear and a pinion gear, an adapter plate that is situated between a rotary valve body and the enclosure and that secures the rotary valve body to the enclosure, and a magnetic actuator assembly. The worm gear engages with the pinion gear such that when the worm gear rotates, the pinion gear rotates as well. The enclosure is situated between the magnetic actuator assembly and the rotary valve body. A shaft extends through the center of the pinion gear and causes a valve within the rotary valve body to open and close based on rotation of the shaft. In an alternate embodiment, the invention is a rotary valve as described above with an integral adapter plate.Type: GrantFiled: November 18, 2012Date of Patent: June 28, 2016Assignee: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Patent number: 8690119Abstract: A valve assembly comprising an adapter plate assembly comprising an adapter plate, a bonnet with a center and a threaded shaft extending through the center of the bonnet; an actuation assembly comprising an outer enclosure and an outer magnetic cartridge that is magnetically coupled to an inner magnetic cartridge; and an inner valve assembly comprising an inner enclosure and a planetary gear subassembly comprising one or more planetary gears.Type: GrantFiled: June 16, 2011Date of Patent: April 8, 2014Assignee: Big Horn Valve, Inc.Inventors: Kevin Burgess, Daniel E. Clawson, David Yakos, Bryan Walthall
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Patent number: 8496228Abstract: A stemless ball valve comprising a first flange, second flange, ball, inner magnetic cartridge, outer magnetic cartridge, and planetary gear assembly. The inner magnetic cartridge is situated inside of the outer magnetic cartridge, and the inner and outer magnetic cartridges actuate the valve. The planetary gear assembly is situated between the inner magnetic cartridge and the ball. The planetary gear assembly comprises one or more planetary gear phases, each planetary gear phase comprising a step-down gear. Each planetary gear phase comprises one or more planetary gears that engage with the inner teeth of the outer ring of the planetary gear assembly and with a step-down gear. The invention further comprises a pressure equalization system comprising inner and outer equalization tubes, a piston situated between the inner and outer equalization tubes, and either a piston spring or spring washer stack that biases the piston in the direction of the clean oil.Type: GrantFiled: January 28, 2012Date of Patent: July 30, 2013Assignee: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Patent number: 8490946Abstract: A stemless ball valve comprising a first flange, second flange, ball, inner magnetic cartridge, outer magnetic cartridge, and planetary gear assembly. The inner magnetic cartridge is situated inside of the outer magnetic cartridge, and the inner and outer magnetic cartridges actuate the valve. The planetary gear assembly is situated between the inner magnetic cartridge and the ball. The planetary gear assembly comprises one or more planetary gear phases, each planetary gear phase comprising a step-down gear. Each planetary gear phase comprises one or more planetary gears that engage with the inner teeth of the outer ring of the planetary gear assembly and with a step-down gear.Type: GrantFiled: January 21, 2011Date of Patent: July 23, 2013Assignee: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Publication number: 20130175463Abstract: A rotary valve assembly composing a leak-free enclosure containing a worm gear and a pinion gear, an adapter plate that is situated between a rotary valve body and the enclosure and that secures the rotary valve body to the enclosure, and a magnetic actuator assembly. The worm gear engages with the pinion gear such that when the worm gear relates, the pinion gear rotates as well. The enclosure is situated between the magnetic actuator assembly and the rotary valve body. A shaft extends through the center of the pinion gear and causes a valve within the rotary valve body to open and close based on rotation of the shaft. In an alternate embodiment, the invention is a rotary valve as described above with an integral adapter plate.Type: ApplicationFiled: November 18, 2012Publication date: July 11, 2013Applicant: Big Horn Valve, Inc.Inventor: Big Horn Valve, Inc.
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Publication number: 20130140476Abstract: A rotary valve adapter assembly comprising an adapter plate configured to attach to a rotary valve body, a torque multiplier assembly comprising one or more planetary gear subassemblies, each of which comprises a sun gear, ring gear, and a plurality of planetary gears, a magnetic actuator assembly comprising two sets of magnetically coupled magnets, and a shaft. The magnetic actuator assembly interfaces with the torque multiplier assembly such that when the magnets of the magnetic actuator assembly rotate, they cause the sun gear of a first planetary gear subassembly to rotate and the planetary gears to walk on the ring gear. The shaft interfaces with the carrier of one of the planetary gear subassemblies such that when the carrier rotates, the shaft also rotates, thereby causing the valve to open and close. The assembly further comprises a pressure equalization system comprising a piston and piston spring or spring washer stack.Type: ApplicationFiled: January 23, 2012Publication date: June 6, 2013Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Publication number: 20130140475Abstract: A rotary valve adapter assembly comprising an adapter plate configured to attach to a rotary valve body, a torque multiplier assembly comprising one or more planetary gear subassemblies, each of which comprises a sun gear, a ring gear, and a plurality of planetary gears, a magnetic actuator assembly comprising two sets of magnetically coupled magnets, and a shaft. The magnetic actuator assembly interfaces with the torque multiplier assembly such that when the magnets of the magnetic actuator assembly rotate, they cause the sun gear of a first planetary gear subassembly to rotate and the planetary gears to walk on the ring gear. When the carrier of the first planetary gear subassembly rotates, it causes the sun gear of a second planetary gear subassembly to rotate. When the carrier of the second planetary gear subassembly rotates, the shaft also rotates, thereby causing the valve to open and close.Type: ApplicationFiled: December 3, 2011Publication date: June 6, 2013Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Publication number: 20130026397Abstract: A stemless ball valve comprising a first flange, second flange, ball, inner magnetic cartridge, outer magnetic cartridge, and planetary gear assembly. The inner magnetic cartridge is situated inside of the outer magnetic cartridge, and the inner and outer magnetic cartridges actuate the valve. The planetary gear assembly is situated between the inner magnetic cartridge and the ball. The planetary gear assembly comprises one or more planetary gear phases, each planetary gear phase comprising a step-down gear. Each planetary gear phase comprises one or more planetary gears that engage with the inner teeth of the outer ring of the planetary gear assembly and with a step-down gear. The invention further comprises a pressure equalization system comprising inner and outer equalization tubes, a piston situated between the inner and outer equalization tubes, and either a piston spring or spring washer stack that biases the piston in the direction of the clean oil.Type: ApplicationFiled: January 28, 2012Publication date: January 31, 2013Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Publication number: 20120319019Abstract: A valve assembly comprising an adapter plate assembly comprising an adapter plate, a bonnet with a center and a threaded shaft extending through the center of the bonnet; an actuation assembly comprising an outer enclosure and an outer magnetic cartridge that is magnetically coupled to an inner magnetic cartridge; and an inner valve assembly comprising an inner enclosure and a planetary gear subassembly comprising one or more planetary gears.Type: ApplicationFiled: June 16, 2011Publication date: December 20, 2012Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, Daniel E. Clawson, David Yakos, Bryan Walthall
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Publication number: 20120187319Abstract: A stemless ball valve comprising a first flange, second flange, ball, inner magnetic cartridge, outer magnetic cartridge, and planetary gear assembly. The inner magnetic cartridge is situated inside of the outer magnetic cartridge, and the inner and outer magnetic cartridges actuate the valve. The planetary gear assembly is situated between the inner magnetic cartridge and the ball. The planetary gear assembly comprises one or more planetary gear phases, each planetary gear phase comprising a step-down gear. Each planetary gear phase comprises one or more planetary gears that engage with the inner teeth of the outer ring of the planetary gear assembly and with a step-down gear.Type: ApplicationFiled: January 21, 2011Publication date: July 26, 2012Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Patent number: 8132786Abstract: A stemless ball valve comprising: a right flange; left flange; ball with an axis pin and two travel pins; ball seal on either side of the ball; guide sleeve with inner walls comprising two channels; cartridge guide holder; inner magnetic cartridge; and outer magnetic cartridge. The ball is situated inside of the guide sleeve, and a travel pin is located in each of the two channels. The guide sleeve is situated inside of the cartridge guide holder, which is located adjacent to and outside of the inner magnetic cartridge and secured to the inner magnetic cartridge such that when the inner magnetic cartridge rotates, the cartridge guide holder also rotates. The cartridge guide holder is secured to the guide sleeve such that when the cartridge guide holder rotates, the travel pins move within the channels in the inner walls of the guide sleeve, thereby causing the ball to rotate.Type: GrantFiled: September 25, 2010Date of Patent: March 13, 2012Assignee: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Publication number: 20110180739Abstract: A stemless ball valve comprising: a right flange; left flange; ball with an axis pin and two travel pins; ball seal on either side of the ball; guide sleeve with inner walls comprising two channels; cartridge guide holder; inner magnetic cartridge; and outer magnetic cartridge. The ball is situated inside of the guide sleeve, and a travel pin is located in each of the two channels. The guide sleeve is situated inside of the cartridge guide holder, which is located adjacent to and outside of the inner magnetic cartridge and secured to the inner magnetic cartridge such that when the inner magnetic cartridge rotates, the cartridge guide holder also rotates. The cartridge guide holder is secured to the guide sleeve such that when the cartridge guide holder rotates, the travel pins move within the channels in the inner walls of the guide sleeve, thereby causing the ball to rotate.Type: ApplicationFiled: September 25, 2010Publication date: July 28, 2011Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Patent number: 7971855Abstract: A stemless ball valve comprising two flanges and a ball with a channel, two axis pins and two travel pins. One end of each axis and travel pin is fixedly attached to the ball, and the other end of each axis pin is lodged into a notch in the first or second flange such that the axis pin is allowed to rotate in the notch. The guide sleeve comprises two channels, and one end of each travel pin is situated within one of the two channels in the guide sleeve. An outer magnetic cartridge causes the inner magnetic cartridge and guide sleeve to rotate, and when the guide sleeve rotates, the travel pins move up and down within the channels in the guide sleeve. The movement of the travel pins within the channels in the guide sleeve causes the ball to rotate, thereby opening and closing the ball valve.Type: GrantFiled: December 9, 2008Date of Patent: July 5, 2011Assignee: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Publication number: 20100140521Abstract: A stemless ball valve comprising two flanges and a ball with a channel, two axis pins and two travel pins. One end of each axis and travel pin is fixedly attached to the ball, and the other end of each axis pin is lodged into a notch in the first or second flange such that the axis pin is allowed to rotate in the notch. The guide sleeve comprises two channels, and one end of each travel pin is situated within one of the two channels in the guide sleeve. An outer magnetic cartridge causes the inner magnetic cartridge and guide sleeve to rotate, and when the guide sleeve rotates, the travel pins move up and down within the channels in the guide sleeve. The movement of the travel pins within the channels in the guide sleeve causes the ball to rotate, thereby opening and closing the ball valve.Type: ApplicationFiled: December 9, 2008Publication date: June 10, 2010Applicant: Big Horn Valve, Inc.Inventors: Kevin Burgess, David Yakos, Bryan Walthall
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Patent number: 7677261Abstract: A fluid coupling device and coupling system that may start and stop the flow of a fluid is disclosed. In some embodiments, first and second couplings are provided having an actuator coupled with each of the couplings. The couplings and actuators may be detachable to provide quick disconnect features and, in some embodiments, provide unitary actuation for the actuators of the coupling device to facilitate connection in mobile applications. Actuation may occur as the two couplings and actuators are engaged and disengaged and may occur by rotational actuation of the actuators. Rotational actuation can be provided to ensure flow through the coupling device, which in some embodiments may further provide an offset venturi feature. Upon disengagement, a compression element such as a compression spring can be provided to return the actuators to a closed position. Some embodiments further provide a seal external to the actuators and provided at incipient engagement of the couplings.Type: GrantFiled: October 29, 2002Date of Patent: March 16, 2010Assignee: Big Horn Valve, Inc.Inventors: Ronn G. Smith, Zoltan Frank Nagy, Jr., Joseph Roch Moszczienski
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Patent number: 6557576Abstract: An axially-rotated valve permitting increased flow rates and lower pressure drop is disclosed using an axial eccentric split venturi with two portions where at least one portion is rotatable with respect to the other portion. A cross section of the eccentric split venturi may be non-axisymmetric such as a semicircular cross section which may assist in both throttling capabilities and in maximum flow capacity. Applications are disclosed for freeze resistant axially-rotated valves which may be fully-opened and fully-closed in one-half of a complete rotation. An internal wide radius elbow connected to a rotatable portion of the eccentric venturi may assist in directing flow with lower friction losses. A valve actuator may actuate in an axial manner located outside of the axial flow path. A seat may be used between the two portions that may include a peripheral and diametrical seal in the same plane.Type: GrantFiled: August 27, 2001Date of Patent: May 6, 2003Assignee: Big Horn Valve, Inc.Inventors: David E. Walrath, William R. Lindberg, Robert K. Burgess
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Patent number: 6431519Abstract: The invention described herein is an electrically operated rotary actuator. It is intended primarily for use with the axially rotated VOST valve in applications requiring remote or automatic valve operation, although it may have other applications. The actuator delivers 180 degrees of angular displacement to the rotating member of the VOST valve, as required to open or close the valve. It also effects a small axial displacement to provide seal separation during rotation to minimize seal wear. The actuator is designed to produce low friction and a high torque-to-mass ratio relative to existing actuators. Once operated by an electric signal, the actuator is designed to latch in either the open or closed position without holding current or other externally applied energy.Type: GrantFiled: July 7, 2000Date of Patent: August 13, 2002Assignee: Big Horn Valve, Inc.Inventor: Ronn G. Smith
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Patent number: 6279595Abstract: The present invention provides an axially-rotated valve which permits increased flow rates and lower pressure drop (characterized by a lower loss coefficient) by using an axial eccentric split venturi with two portions where at least one portion is rotatable with respect to the other portion. The axially-rotated valve typically may be designed to avoid flow separation and/or cavitation at full flow under a variety of conditions. Similarly, the valve is designed, in some embodiments, to produce streamlined flow within the valve. A typical cross section of the eccentric split venturi may be nonaxisymmetric such as a semicircular cross section which may assist in both throttling capabilities and in maximum flow capacity using the design of the present invention. Such a design can include applications for freeze resistant axially-rotated valves and may be fully-opened and fully-closed in one-half of a complete rotation.Type: GrantFiled: July 19, 2000Date of Patent: August 28, 2001Assignee: Big Horn Valve, Inc.Inventors: David E. Walrath, William R. Lindberg, Robert K. Burgess
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Patent number: 6109293Abstract: The present invention provides an axially-rotated valve which permits increased flow rates and lower pressure drop (characterized by a lower loss coefficient) by using an axial eccentric split venturi with two portions where at least one portion is rotatable with respect to the other portion. The axially-rotated valve typically may be designed to avoid flow separation and/or cavitation at full flow under a variety of conditions. Similarly, the valve is designed, in some embodiments, to produce streamlined flow within the valve. A typical cross section of the eccentric split venturi may be non-axisymmetric such as a semicircular cross section which may assist in both throttling capabilities and in maximum flow capacity using the design of the present invention. Such a design can include applications for freeze resistant axially-rotated valves and may be fully-opened and fully-closed in one-half of a complete rotation.Type: GrantFiled: September 8, 1997Date of Patent: August 29, 2000Assignee: Big Horn Valve, Inc.Inventors: David E. Walrath, William R. Lindberg, Robert K. Burgess
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Patent number: 5718257Abstract: The invention includes an axial-mounted high flow rate valve by fixedly mounting a rotatable valve sealing element so that it pivots on an axis which is substantially parallel to a central axis of the pipe or conduit to which the valve is connected. The rotatable valve sealing element can be not only circular, but non-circular as well, having an extended length along the pivot axis for even greater flow rates and may be particularly suited for installations in sprinkler systems which require greater flow than a normal valve of the same diameter and may even be used as a combination valve for hydrant and sprinkler system use, such as in residential applications. The present invention also may include a purge port to purge residual fluid remaining in the valve, downstream of the valve sealing element, to assist in preventing freezing of the valve and it may include an air port to allow air to enter the valve to alleviate a possible vacuum created by the purging and to enable more effective purging.Type: GrantFiled: April 24, 1996Date of Patent: February 17, 1998Assignee: Big Horn Valve, Inc.Inventor: Robert K. Burgess