Patents Assigned to Lift Technology
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Patent number: 11898412Abstract: A rod lock out clamp includes a housing having a central bore for receiving a rod in spaced relation therethrough and clamp members in the housing for grippingly and frictionally engaging the rod in the bore. At least one of the clamp members has an inner end and a recess in the inner end, the recess having a profile with an arcuate portion having a radius of curvature that reduces from a maximum radius to a minimum radius. Manipulating means are coupled to the housing and the clamp members for moving the clamp members between a rod gripping position and a retracted position.Type: GrantFiled: January 21, 2022Date of Patent: February 13, 2024Assignee: Oil Lift Technology Inc.Inventor: Ross Willard Senger
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Patent number: 11759848Abstract: A method for inorganic binder casting including selecting a shape-forming material based on pre-determined manufacturing and shape characteristics, forming the shape-forming material by printing the shape-forming material using a plurality of additive material printers to form a casting mold, creating a liquid binder solution, the liquid binder solution configured to include at least 51% inorganic binder material by weight, the inorganic binder material having a weight ratio to the liquid binder solution between a range of 1.0 and 3.5, coating the shape-forming material with the liquid binder solution, substantially dehydrating the shape-forming material, pouring a hot liquid metal into the casting mold, and allowing said hot liquid metal to cool to form a molded part.Type: GrantFiled: September 20, 2021Date of Patent: September 19, 2023Assignee: Lift TechnologyInventor: Jiten Shah
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Publication number: 20230184714Abstract: The present disclosure relates, in some embodiments, to a system for measuring capillary electrophoresis current. The system includes a plurality of capillaries, where each capillary has a cathode end and an anode end. The system further includes a plurality of cathode buffers. Each of the cathode buffers is configured to be electrically isolated from the other cathode buffers. Further, each cathode buffer is associated with one capillary of the plurality of capillaries. The cathode end of each capillary is immersed in its associated cathode buffer. The system includes a plurality of current sensors, each current sensor associated with one capillary of the plurality of capillaries for measuring current. In some embodiments, the plurality of capillaries is four capillaries.Type: ApplicationFiled: February 9, 2023Publication date: June 15, 2023Applicant: LIFT TECHNOLOGIES CORPORATIONInventors: Marc Haberstroh, Geoffrey DAHLHOFF
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Patent number: 11661833Abstract: Provided are an apparatus, method, and system for separating solids from fluids, particularly in a downhole environment. The separator apparatus comprises a vortex inducer and a solids collection conduit. The separator apparatus can be mounted in a cylindrical housing for attachment to downhole piping for removal of solids in fluid flowing to other equipment.Type: GrantFiled: May 27, 2022Date of Patent: May 30, 2023Assignee: Reynolds Lift Technologies, LLCInventor: Kyle Meier
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Publication number: 20220016694Abstract: A method for inorganic binder casting including selecting a shape-forming material based on pre-determined manufacturing and shape characteristics, forming the shape-forming material by printing the shape-forming material using a plurality of additive material printers to form a casting mold, creating a liquid binder solution, the liquid binder solution configured to include at least 51% inorganic binder material by weight, the inorganic binder material having a weight ratio to the liquid binder solution between a range of 1.0 and 3.5, coating the shape-forming material with the liquid binder solution, substantially dehydrating the shape-forming material, pouring a hot liquid metal into the casting mold, and allowing said hot liquid metal to cool to form a molded part.Type: ApplicationFiled: September 20, 2021Publication date: January 20, 2022Applicant: Lift TechnologyInventor: Jiten Shah
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Patent number: 11168548Abstract: A gas compressor system is provided to operate at a well site and to inject a compressible fluid into a wellbore in support of a gas-lift operation. Methods and systems are provided that allow for the automated individual control of discharge temperatures from coolers for gas injection, in real time, wherein the temperature control points of the first and/or second stage cooler discharges are automatically controlled by a process controller in order to push heat produced by adiabatic compression to a third or final compression stage. In this way, discharge temperatures at the final stage are elevated to maintain injection gaseous mixtures in vapor phase.Type: GrantFiled: April 4, 2020Date of Patent: November 9, 2021Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Patent number: 11123789Abstract: A method for inorganic binder casting, comprising: selecting a Shape-Forming Material based on pre-determined manufacturing and shape characteristics, selecting a casting shape based on pre-determined design characteristics, and forming the Shape-Forming Material into a mold. The mold is coated with an inorganic binder solution at a pre-defined weight ratio and is dehydrated the Shape-Forming Material. The method further comprises pouring a hot liquid metal into the mold and allowing said hot liquid metal to cool to form a molded part. The Shape-Forming Material may be washed from said molded part with a solvent, the inorganic material and Shape-Forming Material reclaimed, reused, and the Shape-Forming Material reformed to a mold. The method further comprises recreating a liquid inorganic binder solution using the reclaimed inorganic material and recoating the Shape-Forming Material with the reclaimed inorganic binder solution.Type: GrantFiled: January 22, 2020Date of Patent: September 21, 2021Assignee: Lift TechnologyInventors: Thomas A. Cobett, John R. Keough, Jiten Shah
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Patent number: 11001485Abstract: A pivot frame assembly pivotably mountable in a fork-carriage apparatus includes: (a) a lower cross member; (b) an upper cross member; (c) a pair of laterally spaced apart first and second side members connecting the upper and lower cross members; (d) a fork assembly mounting shaft supported by the first and second side members; and (e) a reinforced central support member laterally intermediate the first and second side members and connecting the upper and lower cross members.Type: GrantFiled: June 15, 2020Date of Patent: May 11, 2021Assignee: LIFT TECHNOLOGIES, INC.Inventor: Jody Addicott
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Patent number: 10895141Abstract: A controlled production fluids separator. The separator is configured to be placed in fluid communication with a production fluids flow line coming off of a well head. The separator includes an inlet configured to receive fluids from the flow line. The separator has a water dump valve and an oil dump valve. The separator further has a gas outlet residing along the upper surface of the vessel. The gas outlet comprises a valve configured to open and close in response to control signals. In this way, the valve serves as a back-pressure regulator valve for the separator. The separator also includes a controller. The controller is configured to periodically receive data indicative of fluid flow through the flow line, and adjust a back-pressure setpoint in real time by sending signals to the back-pressure regulator valve for opening and closing. A method of operating a three-phase production fluids separator is also provided.Type: GrantFiled: November 24, 2018Date of Patent: January 19, 2021Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Publication number: 20200230694Abstract: A method for inorganic binder casting, comprising: selecting a Shape-Forming Material based on pre-determined manufacturing and shape characteristics, selecting a casting shape based on pre-determined design characteristics, and forming the Shape-Forming Material into a mold. The mold is coated with an inorganic binder solution at a pre-defined weight ratio and is dehydrated the Shape-Forming Material. The method further comprises pouring a hot liquid metal into the mold and allowing said hot liquid metal to cool to form a molded part. The Shape-Forming Material may be washed from said molded part with a solvent, the inorganic material and Shape-Forming Material reclaimed, reused, and the Shape-Forming Material reformed to a mold. The method further comprises recreating a liquid inorganic binder solution using the reclaimed inorganic material and recoating the Shape-Forming Material with the reclaimed inorganic binder solution.Type: ApplicationFiled: January 22, 2020Publication date: July 23, 2020Applicant: Lift TechnologyInventors: Thomas A. Cobett, John R. Keough, Jiten Shah
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Patent number: 10717636Abstract: A fork-carriage apparatus for a lift truck includes: (a) a mounting frame assembly mountable to the lift truck for vertical movement; (b) a side shifter frame assembly slidably mounted to the mounting frame assembly; (c) a pivot frame assembly pivotably mounted to the side shifter frame assembly for translating therewith; (d) a fork assembly mounted to the pivot frame assembly for pivoting therewith; and (e) at least one load-pulling connector mounted to the pivot frame assembly and configured to connect a load to the fork-carriage apparatus for pulling the load.Type: GrantFiled: June 7, 2018Date of Patent: July 21, 2020Assignee: Lift Technologies, Inc.Inventor: Jody Addicott
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Patent number: 10697278Abstract: A gas injection optimization system is provided. The optimization system is designed to control a volume of gas injected into a wellbore in connection with an intermittent gas-lift system. The system includes a gas storage vessel residing at the surface, and a series of pressure transducers. The system additionally includes a controller configured to receive pressure value signals from the transducers, and in response, send control signals that cyclically open and close a well flow control valve at the surface. When the well flow control valve is closed, compressible fluid is injected into the gas storage vessel to load the vessel. When the well flow control valve is opened, a volume of injection gas (VR) is released from the vessel and is injected into a wellbore annular region to push a volume of fluids (VS) residing in the tubing string to the surface. A method for optimizing gas injection into a wellbore in support of an intermittent gas-lift operation is also provided herein.Type: GrantFiled: December 12, 2017Date of Patent: June 30, 2020Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Patent number: 10683742Abstract: A gas emissions recovery system. The recovery system is designed to receive fugitive gas emissions from a compressor, and pressurize those emissions using a double-acting liquid piston compressor system. The pressurized fugitive gas emissions may be returned to the compressor, or may be injected into a wellbore. The system includes a first liquid piston chamber and a second liquid piston chamber. Each chamber holds an incompressible fluid that is used to force a gas into a fluid reservoir in response to a piston motion of the incompressible fluid. A pump is provided, with the pump being configured to pump the incompressible fluid between the first and second liquid piston chambers and, thereby, induce piston action of the incompressible fluid in the liquid piston chambers. The system includes a processor that controls the cycling of the incompressible fluid in response to signals indicative of liquid levels in the chambers. A method for reclaiming fugitive gas emissions from a compressor is also provided.Type: GrantFiled: October 11, 2017Date of Patent: June 16, 2020Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Patent number: 10619441Abstract: Embodiments of a wellhead assembly have a tubular body with a removable bottom cap to house a tubing rotator comprising a multi-enveloping worm gear assembly which provides sufficient torque to rotate tubing strings in deep and/or deviated wellbores. The bottom cap is supported on a wellhead having a dognut for supporting a production string therefrom in a wellbore. The bottom cap rotatably supports a mandrel and multi-enveloping worm wheel thereon, the mandrel being connected to the dognut and tubing string for co-rotation therewith. The tubular body supports a multi-enveloping worm for engagement with the worm wheel when the tubular body is lowered axially onto the bottom cap. When the tubular body and worm are lifted axially from the bottom cap, the worm wheel and mandrel are exposed for repair or replacement without need to pull the production string from the wellbore.Type: GrantFiled: January 5, 2018Date of Patent: April 14, 2020Assignee: Oil Lift Technology Inc.Inventors: Ross Senger, Denis Blaquiere, Ramamurthy Narasimhan, Manjunath Devalapalli Prakash Reddy, Manjunath Jayanthi Narayana Setty, Santhosha Singanahalli Malleshappa, Kogan Lee
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Patent number: 10619462Abstract: A gas compressor system is provided to operate at a well site and to inject a compressible fluid into a wellbore in support of a gas-lift operation. Methods and systems are provided that allow for the automated individual control of discharge temperatures from coolers for gas injection, in real time, wherein the temperature control points of the first and/or second stage cooler discharges are automatically controlled by a process controller in order to push heat produced by adiabatic compression to a third or final compression stage. In this way, discharge temperatures at the final stage are elevated to maintain injection gaseous mixtures in vapor phase.Type: GrantFiled: August 15, 2017Date of Patent: April 14, 2020Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Patent number: 10428627Abstract: A closed loop pneumatic pumping system is provided. The system uses a gas compressor and a high pressure gas tank to exert pneumatic pressure against a reciprocating piston over a wellbore. The piston is connected to a rod string and downhole pump for pumping formation fluids from a wellbore. The system includes an electronic controller that controls movement, including pump speed of the piston as it cycles between upstrokes and downstrokes within a cylinder over the wellbore. In one aspect, speed is controlled by adjusting a speed of the compressor. In another aspect, speed is controlled by adjusting the position of an upstroke control valve and a downstroke control valve. In one aspect, the pump stroke controller is configured to adjust a speed of the upstroke and a speed of the downstroke in response to signals indicative of pump fillage. A method for optimizing pneumatic pumping speed at a wellbore is also provided herein.Type: GrantFiled: September 7, 2016Date of Patent: October 1, 2019Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Publication number: 20180363403Abstract: A pump drive head for a progressing cavity pump comprises a top mounted stuffing box rotatably disposed around a compliantly mounted standpipe with a self or manually adjusting pressurization system for the stuffing box. To prevent rotary and vertical motion of the polish rod while servicing the stuffing box, a polished rod lock-out clamp is provided with the pump drive head integral with or adjacent to a blow-out-preventer which can be integrated with the pump drive head to save space and cost. A centrifugal backspin braking system located on the input shaft and actuated only in the backspin direction and a gear drive between the input shaft and output shaft are provided.Type: ApplicationFiled: August 22, 2018Publication date: December 20, 2018Applicant: Oil Lift Technology Inc.Inventor: Vern A. Hult
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Patent number: 10087696Abstract: A pump drive head for a progressing cavity pump comprises a top mounted stuffing box rotatably disposed around a compliantly mounted standpipe with a self or manually adjusting pressurization system for the stuffing box. To prevent rotary and vertical motion of the polish rod while servicing the stuffing box, a polished rod lock-out clamp is provided with the pump drive head integral with or adjacent to a blow-out-preventer which can be integrated with the pump drive head to save space and cost. A centrifugal backspin braking system located on the input shaft and actuated only in the backspin direction and a gear drive between the input shaft and output shaft are provided.Type: GrantFiled: March 22, 2016Date of Patent: October 2, 2018Assignee: Oil Lift Technology Inc.Inventor: Vern A. Hult
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Patent number: 10077642Abstract: A gas compression optimization system and a method for optimizing gas injection rate in support of a gas lift operation. The optimization system is designed to control a rate of gas injection in connection with a gas lift system in a wellbore. The system includes a string of production tubing, and an annular region around the production tubing. The system also comprises a production line at the surface. The system further includes a pressure transducer that is configured to determine a differential pressure across an orifice plate placed along the production line. The system additionally includes a gas injection line. The gas injection line is at the surface, and is configured to inject a compressible fluid into the annular region. The system additionally includes a controller which is configured to control the injection of the compressible fluid into the annular region in response to differential pressure signals.Type: GrantFiled: June 18, 2016Date of Patent: September 18, 2018Assignee: Encline Artificial Lift Technologies LLCInventor: William G. Elmer
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Patent number: 9399767Abstract: Provided herein are mutant DNA-dependent polymerases which are derived from, or otherwise related to, wild type RB69 DNA polymerase. These mutant polymerases are capable of selectively binding labeled nucleotides. These mutant polymerases are also capable of incorporating a variety of naturally occurring and modified nucleotides, including, for example, terminator nucleotides.Type: GrantFiled: February 27, 2014Date of Patent: July 26, 2016Assignee: LIFT TECHNOLOGIES CORPORATIONInventors: Marian Peris, Michael Phelan, Barnett Rosenblum, Stephen Hendricks