Patents by Inventor John T. Hardesty
John T. Hardesty has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9702222Abstract: A seat forming apparatus for use in a downhole tool comprising a driving member and a seating restriction. The driving member and the seating restriction are mechanically disposed within an outer housing of the downhole tool. When the driving member drives into the seating restriction, the seating restriction or the driving member bend or buckle inwards to form a seat in the downhole tool. The inner diameter of the seat is configured to allow a restriction element to be seated in the seat.Type: GrantFiled: June 24, 2016Date of Patent: July 11, 2017Assignee: GEODYNAMICS, INC.Inventors: John T. Hardesty, Philip M. Snider, David S. Wesson
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Patent number: 9689239Abstract: A wellbore perforating system and method with reliable and safer connections in a perforating gun assembly is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with multiple perforating guns attached to plural switch subs. The perforating guns are pre-wired with a cable having multi conductors; the multi conductors are connected to electrical ring contacts on either end of the perforating guns. The switch subs are configured with electrical contacts that are attached to the electrical contacts of the perforating guns without the need for manual electrical connections and assembly in the field of operations. The system further includes detonating with a detonator that is positioned upstream of the perforating gun. The detonator is wired to a switch that is positioned downstream of the perforating gun.Type: GrantFiled: April 5, 2016Date of Patent: June 27, 2017Assignee: GEODYNAMICS, INC.Inventor: John T Hardesty
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Patent number: 9689238Abstract: A wellbore perforating system and method with reliable and safer connections in a perforating gun assembly is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with multiple perforating guns attached to plural switch subs. The perforating guns are pre-wired with a cable having multi conductors; the multi conductors are connected to electrical ring contacts on either end of the perforating guns. The switch subs are configured with electrical contacts that are attached to the electrical contacts of the perforating guns without the need for manual electrical connections and assembly in the field of operations. The system further includes detonating with a detonator that is positioned upstream of the perforating gun. The detonator is wired to a switch that is positioned downstream of the perforating gun.Type: GrantFiled: October 19, 2015Date of Patent: June 27, 2017Assignee: GEODYNAMICS, INC.Inventors: John T Hardesty, James A Rollins
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Patent number: 9689232Abstract: An actuating apparatus for actuating a downhole tool in a wellbore casing comprising an actuating member and a holding device. The actuating member disposed within an outer housing of the downhole tool and the holding device mechanically coupled to the arming member. When a ball deployed into the wellbore casing passes through the downhole tool in a downhole direction and moves back in an uphole direction due to reverse flow, the ball engages on the holding device and functions the actuating member such that a port in the downhole tool is exposed to uphole pressure and actuates the actuating member to travel in an uphole direction.Type: GrantFiled: June 24, 2016Date of Patent: June 27, 2017Assignee: GEODYNAMICS, INC.Inventors: John T. Hardesty, Kevin R. George, Raymond C. Shaffer, Michael D. Wroblicky, Dennis E. Roessler, Varun Garg, Philip M. Snider, David S. Wesson
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Patent number: 9650866Abstract: An apparatus and method for providing a time delay in injection of pressured fluid into a geologic formation. The apparatus comprises a toe valve activated by fluid pressure that opens ports after a predetermined time interval to allow fluid to pass from a well casing to a formation. The controlled time delay enables casing integrity testing before fluid is passed through the ports. This time delay also allows multiple valves to be used in the same well casing and provide a focused jetting action to better penetrate a concrete casing lining.Type: GrantFiled: August 31, 2015Date of Patent: May 16, 2017Assignee: GEODYNAMICS, INC.Inventors: Kevin R. George, James A. Rollins, John T. Hardesty, David S. Wesson
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Patent number: 9617826Abstract: A catch-and-engage tool conveyed with a well casing for use in a wellbore comprising an outer housing having flow ports therethrough, a functioning apparatus disposed within the outer housing comprising a movable member/sleeve and a holding device, a blocking apparatus disposed within the outer housing comprising a blocking member configured to block one or more flow ports in a first position, a seating apparatus positioned upstream of the blocking apparatus configured to form a seat in the tool. When a ball deployed into the well casing passes through the tool in a downstream direction and moves back in an upstream direction, the restriction element engages onto the holding device and moves the movable member such that a port in exposed to uphole pressure and the blocking member travels to a second position in a reverse direction unblocking flow ports and enabling fluid communication to the wellbore.Type: GrantFiled: July 1, 2016Date of Patent: April 11, 2017Assignee: GEODYNAMICS, INC.Inventors: Dennis E. Roessler, Kevin R. George, Varun Garg, John T. Hardesty, Raymond C. Shaffer, Philip M. Snider, David S. Wesson
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Publication number: 20170058637Abstract: A catch-and-release tool conveyed with a well casing for use in a wellbore comprising an outer housing having flow ports therethrough, a functioning apparatus disposed within the outer housing comprising a movable member/sleeve and a holding device, and a blocking apparatus comprising a blocking member configured to block the flow ports in a first position. When a ball deployed into the well casing passes through the tool in a downstream direction and moves back in an upstream direction, the restriction element engages onto the holding device and moves the movable member such that a port in exposed to up hole pressure and the blocking member travels to a second position in a reverse direction unblocking flow ports and enabling fluid communication to the wellbore. The ball is thereafter released in an upstream direction.Type: ApplicationFiled: June 24, 2016Publication date: March 2, 2017Applicant: GEODynamics, Inc.Inventors: Dennis E. Roessler, Varun Garg, John T. Hardesty, Kevin R. George, Raymond C. Shaffer, Philip M. Snider, David S. Wesson
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Publication number: 20170058642Abstract: A catch-and-engage tool conveyed with a well casing for use in a wellbore comprising an outer housing having flow ports therethrough, a functioning apparatus disposed within the outer housing comprising a movable member/sleeve and a holding device, a blocking apparatus disposed within the outer housing comprising a blocking member configured to block one or more flow ports in a first position, a seating apparatus positioned upstream of the blocking apparatus configured to form a seat in the tool. When a ball deployed into the well casing passes through the tool in a downstream direction and moves back in an upstream direction, the restriction element engages onto the holding device and moves the movable member such that a port in exposed to uphole pressure and the blocking member travels to a second position in a reverse direction unblocking flow ports and enabling fluid communication to the wellbore.Type: ApplicationFiled: July 1, 2016Publication date: March 2, 2017Applicant: GEODynamics, Inc.Inventors: Dennis E. Roessler, Kevin R. George, Varun Garg, John T. Hardesty, Raymond C. Shaffer, Philip M. Snider, David S. Wesson
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Publication number: 20170058634Abstract: An arming apparatus for arming a downhole tool in a wellbore casing comprising an arming member and a holding device. The arming member disposed within an outer housing of the downhole tool and the holding device mechanically coupled to the arming member. When a ball deployed into the wellbore casing passes through the downhole tool in a downhole direction and moves back in an uphole direction due to reverse flow, the ball engages on the holding device and functions the arming member such that a pressure actuating device in the downhole tool is armed.Type: ApplicationFiled: June 24, 2016Publication date: March 2, 2017Applicant: GEODynamics, Inc.Inventors: Dennis E. Roessler, Varun Garg, Kevin R. George, Michael D. Wroblicky, Raymond C. Shaffer, John T. Hardesty, Philip M. Snider, David S. Wesson
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Publication number: 20170058641Abstract: A multiple tool reverse flow system and method in a wellbore casing for use in a wellbore is disclosed. The system comprises a plurality of catch-and-release tools and a catch-and-engage tool, wherein the catch-and-release tools allow a restriction element to pass through in a downstream direction and engage and then allow the restriction element to pass through in an upstream direction. The catch-and-engage tool allows the restriction element to pass through only in a downstream direction, engage and restrict travel of the restriction element in an upstream direction. The catch-and-engage tool forms a seat on an upstream end is positioned upstream of all of catch-and-release tools. The restriction element passes through all the tools in a downstream direction and moves back in an upstream direction and actuates each of the tools one at a time.Type: ApplicationFiled: June 24, 2016Publication date: March 2, 2017Applicant: GEODynamics, Inc.Inventors: John T. Hardesty, Philip M. Snider, David S. Wesson
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Publication number: 20170058639Abstract: A seat forming apparatus for use in a downhole tool comprising a driving member and a seating restriction is disclosed. The driving member and the seating restriction are mechanically disposed within an outer housing of the downhole tool. When the driving member drives into the seating restriction, the seating restriction or the driving member bend or buckle inwards to form a seat in the downhole tool. The inner diameter of the seat is configured to allow a restriction element to be seated in the seat.Type: ApplicationFiled: June 24, 2016Publication date: March 2, 2017Applicant: GEODynamics, Inc.Inventors: John T. Hardesty, Raymond C. Shaffer, Dennis E. Roessler, Varun Garg, Kevin R. George, Philip M. Snider, David S. Wesson
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Publication number: 20170058638Abstract: An actuating apparatus for actuating a downhole tool in a wellbore casing comprising an actuating member and a holding device. The actuating member disposed within an outer housing of the downhole tool and the holding device mechanically coupled to the arming member. When a ball deployed into the wellbore casing passes through the downhole tool in a downhole direction and moves back in an uphole direction due to reverse flow, the ball engages on the holding device and functions the actuating member such that a port in the downhole tool is exposed to uphole pressure and actuates the actuating member to travel in an uphole direction.Type: ApplicationFiled: June 24, 2016Publication date: March 2, 2017Applicant: GEODynamics, Inc.Inventors: John T. Hardesty, Kevin R. George, Raymond C. Shaffer, Michael D. Wroblicky, Dennis E. Roessler, Varun Garg, Philip M. Snider, David S. Wesson
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Patent number: 9562421Abstract: A limited entry perforating phased gun system and method for accurate perforation in a deviated/horizontal wellbore is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with shaped charge clusters. The charges are spaced and angled such that, when perforated, they intersect at a preferred fracturing plane. Upon fracturing, the fractures initiate at least principal stress location in a preferred fracturing plane perpendicular to the wellbore from an upward and downward location of the wellbore. Thereafter, the fractures connect radially about the wellbore in the preferred fracturing plane. The fracture treatment in the preferred fracturing plane creates minimal tortuosity paths for longer extension of fractures that enables efficient oil and gas flow rates during production.Type: GrantFiled: January 16, 2015Date of Patent: February 7, 2017Assignee: GEODYNAMICS, INC.Inventors: John T. Hardesty, Nathan G. Clark, James A. Rollins, David S. Wesson
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Publication number: 20170030167Abstract: A wellbore perforating system and method with reliable and safer connections in a perforating gun assembly is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with multiple perforating guns attached to plural switch subs. The perforating guns are pre-wired with a cable having multi conductors; the multi conductors are connected to electrical ring contacts on either end of the perforating guns. The switch subs are configured with electrical contacts that are attached to the electrical contacts of the perforating guns without the need for manual electrical connections and assembly in the field of operations. The system further includes detonating with a detonator that is positioned upstream of the perforating gun. The detonator is wired to a switch that is positioned downstream of the perforating gun.Type: ApplicationFiled: October 13, 2016Publication date: February 2, 2017Applicant: GEODynamics, Inc.Inventor: John T. Hardesty
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Publication number: 20160356137Abstract: A restriction plug element and method for positioning plugs to isolate fracture zones in a horizontal, vertical, or deviated wellbore is disclosed. The restriction plug element includes a partial hollow passage with an interior end. The partial passage enables the plug element to seat in a restriction sleeve member during treatment and subsequently degrade to form a complete hollow passage. The complete flow channel dissolves or degrades not only the outside but also the inside of the wall of the restriction plug element. Initially the flow is restricted by the closed end in the partial hollow passage and over time the flow channel opens up by degradation and allows fluid to pass through in either direction. During back flow in the well new fluid is circulated into the well and the restriction plug element continues to degrade.Type: ApplicationFiled: April 5, 2016Publication date: December 8, 2016Applicant: GEODynamics, Inc.Inventors: John T. Hardesty, Michael D. Wroblicky
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Publication number: 20160333676Abstract: A select fire system and method for controlling operations in a gun string assembly comprising perforating guns and switch subs mechanically connected in the gun string assembly is disclosed. Each of the switch subs further comprises a switching element, input links and output links. The switch subs and perforating guns communicate with each other through the input and output links. The switching elements keeps track of the state of the sub and switches states based on trigger conditions such as environment conditions, perforating gun conditions, or input conditions from surface. A self-detecting method for detecting failures in a perforating gun and acting on the failure without the need for pulling the gun string assembly out of the wellbore is also disclosed.Type: ApplicationFiled: July 27, 2016Publication date: November 17, 2016Applicant: GEODynamics, Inc.Inventor: John T. Hardesty
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Publication number: 20160245058Abstract: A wellbore perforating system and method with reliable and safer connections in a perforating gun assembly is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with multiple perforating guns attached to plural switch subs. The perforating guns are pre-wired with a cable having multi conductors; the multi conductors are connected to electrical ring contacts on either end of the perforating guns. The switch subs are configured with electrical contacts that are attached to the electrical contacts of the perforating guns without the need for manual electrical connections and assembly in the field of operations. The system further includes detonating with a detonator that is positioned upstream of the perforating gun. The detonator is wired to a switch that is positioned downstream of the perforating gun.Type: ApplicationFiled: April 5, 2016Publication date: August 25, 2016Applicant: GEODynamics, Inc.Inventors: John T Hardesty, James A Rollins
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Publication number: 20160245055Abstract: A wellbore select fire switch retaining member system and method with an integrated through wire and ground wire in a switch sub. The system/method includes a retaining member that has a form factor acceptable by a conventional switch sub. The retaining member incorporates an electrical connection to the center pin of a pressure switch. The system further includes a secondary piston aligned with a piston in the switch (switch piston) so that external pressure is fully acted upon the entire switch piston creating a reliable switch connection. Another system includes an integrated retaining member and switch module having a form factor compatible with existing switch subs. The integrated module inputs include a ground wire and a through wire and the outputs include a ground wire, through wire and an arming wire.Type: ApplicationFiled: February 16, 2016Publication date: August 25, 2016Applicant: GEODynamics, Inc.Inventors: John T. Hardesty, James A. Rollins
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Publication number: 20160245057Abstract: A wellbore perforating system and method with reliable and safer connections in a perforating gun assembly is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with multiple perforating guns attached to plural switch subs. The perforating guns are pre-wired with a cable having multi conductors; the multi conductors are connected to electrical ring contacts on either end of the perforating guns. The switch subs are configured with electrical contacts that are attached to the electrical contacts of the perforating guns without the need for manual electrical connections and assembly in the field of operations. The system further includes detonating with a detonator that is positioned upstream of the perforating gun. The detonator is wired to a switch that is positioned downstream of the perforating gun.Type: ApplicationFiled: April 5, 2016Publication date: August 25, 2016Applicant: GEODynamics, Inc.Inventor: John T. Hardesty
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Publication number: 20160245056Abstract: A wellbore perforating system and method with reliable and safer connections in a perforating gun assembly is disclosed. The system/method includes a gun string assembly (GSA) deployed in a wellbore with multiple perforating guns attached to plural switch subs. The perforating guns are pre-wired with a cable having multi conductors; the multi conductors are connected to electrical ring contacts on either end of the perforating guns. The switch subs are configured with electrical contacts that are attached to the electrical contacts of the perforating guns without the need for manual electrical connections and assembly in the field of operations. The system further includes detonating with a detonator that is positioned upstream of the perforating gun. The detonator is wired to a switch that is positioned downstream of the perforating gun.Type: ApplicationFiled: April 5, 2016Publication date: August 25, 2016Applicant: GEODynamics, Inc.Inventors: John T. Hardesty, James A. Rollins