Patents Examined by Kyle Robert Thomas
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Patent number: 11359545Abstract: A pyrotechnic device comprising a main pyrotechnic charge, a firing device for firing the main pyrotechnic charge, a discharge passage for discharging the gas generated by firing the main pyrotechnic charge, and an injector device configured to inject a cooling fluid into said gas discharge passage, so as to deliver gas, specifically for driving turbines, at temperatures that are relatively low, and a method of cooling gas generated by firing the main pyrotechnic charge by injecting the cooling fluid.Type: GrantFiled: November 17, 2017Date of Patent: June 14, 2022Assignee: Safran Helicopter EnginesInventors: François Danguy, Laurent Paul Lattanzio Fabbri, Romain Maurice Henri Yannick Gauthier, Didier Paul Saucereau
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Patent number: 11352981Abstract: A multi-pulse rocket propulsion motor for use with vehicles, such as space vehicles like satellites, rockets, and the like. The propulsion motor is a modular system that is capable of providing a plurality of discrete, controllable propulsion pulses. The propulsion motor can be used for primary propulsion of the vehicle and/or as a maneuvering thruster of the vehicle. The propulsion motor includes a plurality of propellant housings each containing a combustible propellant grain, a discharge plenum defining a plenum volume in communication with the discharge of each propellant housing, and a nozzle downstream from and in fluid communication with the plenum volume.Type: GrantFiled: August 2, 2019Date of Patent: June 7, 2022Assignee: EXQUADRUM, INC.Inventor: Kevin E. Mahaffy
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Patent number: 11346306Abstract: Integrated chemical propellant and cold gas propulsion systems and methods are provided. A storage or fuel tank containing the chemical propellant is pressurized by a pressurant. The chemical propellant is selective passed to a propellant thruster through a first port of the storage tank and a propellant valve. The pressurant is selectively passed to a cold gas thruster through a second port of the storage tank and a cold gas valve. In addition, a pressurant tank can be provided. Pressurant contained within the pressurant tank can be selectively placed in communication with the pressurant contained within the storage tank via a pressurant valve, or can be selectively passed to the cold gas thruster through the cold gas thruster valve. Systems can also include bi-propellant thrusters, with a first and second chemical compounds and volumes of pressurant stored in first and second storage tanks respectively.Type: GrantFiled: January 3, 2020Date of Patent: May 31, 2022Assignee: Ball Aerospace & Technologies Corp.Inventors: Gordon C. Wu, Suzan Q. Green
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Patent number: 11338943Abstract: Concurrent rocket engine pre-conditioning and tank filling is disclosed. A disclosed example apparatus includes an inlet valve to supply a rocket propellant tank that is associated with a rocket engine with rocket propellant, and a flow director to direct at least a portion of a flow of the rocket propellant from the inlet valve to a chill line of the rocket engine to thermally condition the rocket engine as the rocket propellant tank is being filled with the rocket propellant.Type: GrantFiled: October 5, 2018Date of Patent: May 24, 2022Assignee: The Boeing CompanyInventors: Kevin Swenson, Henry Rodriguez, Jr., Brian Vaniman, Martin Edward Lozano
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Patent number: 11333104Abstract: A liquid rocket engine cools a thruster body by pumping propellant through cooling channels integrated in the thruster body between internal and external surfaces. One or more of the cooling channel surfaces has a variable depth along a thrust axis to mix propellant flow and destroy thermal stratification, such as a depth that varies with a repeated contiguous sinusoidal form along the thrust axis. Fuel passed through the cooling channels injects from the combustion chamber wall towards a central portion of the combustion chamber to cross impinge with oxygen injected at the combustion chamber head so that a toroidal vortex forms to enhance propellant mixing.Type: GrantFiled: January 24, 2019Date of Patent: May 17, 2022Assignee: FireFly AeroSpace Inc.Inventors: Anatoli Alimpievich Borissov, Thomas Edward Markusic
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Patent number: 11333105Abstract: A thrust chamber liner includes a metallic combustion chamber having an annular protrusion extending radially away from an exterior surface of the combustion chamber adjacent to its injector opening. A metallic nozzle is coupled to the combustion chamber at its throat opening. A composite material encases the exterior surface of the combustion chamber, but is only bonded to the annular protrusion.Type: GrantFiled: April 28, 2020Date of Patent: May 17, 2022Assignee: United States of America as represented by the Administrator of NASAInventors: Paul R. Gradl, William C. C. Brandsmeier, Sandra Elam Greene, Justin R. Jackson, Cory R. Medina, Omar R. Mireles, Christopher Stephen Protz
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Patent number: 11286887Abstract: A turbine pump assembly has a turbine, a centrifugal pump, a passive electrical speed control system, and a pneumatic circuit breaker. The pneumatic circuit breaker has a plurality of elements that are configured to move to a position blocking an outlet duct of the turbine when a flow velocity exceeds a predetermined threshold. A rocket thrust vector control system is also disclosed.Type: GrantFiled: April 24, 2015Date of Patent: March 29, 2022Assignee: Hamilton Sundstrand CorporationInventor: Richard A. Himmelmann
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Patent number: 11280296Abstract: A solid-propellant rocket engine (1) has a casing (2) and a thermal protection (15) internally coating the casing and delimiting a housing (17), which contains a mass of solid propellant (3); the thermal protection has a fixed portion (22) and at least one movable portion (23) that adheres to the mass of solid propellant (3) and can be moved from a back position to a forward position with respect to the fixed portion (22) through a thrust system obtained by pressuring a chamber 31 provided by installing a membrane 32 between the fixed portion 22 and the movable portion 23; the engine is tested by verifying the adhesion of the mass of solid propellant (3) to the movable portion (23) after having moved the movable portion (23) to the forward position by means of a thrust directed from the fixed portion towards the mass of solid propellant (3).Type: GrantFiled: October 11, 2018Date of Patent: March 22, 2022Assignee: AVIO S.P.A.Inventors: Daniele Schiariti, Paolo Bellomi
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Patent number: 11261828Abstract: A system and methods are disclosed for an upper stage space launch vehicle that uses gases from the propellant tanks to power an internal combustion engine that produces mechanical power for driving other components including a generator for generation of electrical current for operating compressors and fluid pumps and for charging batteries. These components and others comprise a thermodynamic system from which system enthalpy may be leveraged by extracting and moving heat to increase the efficient use of propellant and the longevity and performance of the launch vehicle.Type: GrantFiled: August 24, 2018Date of Patent: March 1, 2022Assignee: United Launch Alliance, L.L.C.Inventor: Frank Charles Zegler
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Patent number: 11220979Abstract: An air-breathing rocket engine in certain embodiments comprises an outer shell and an interior portion situated entirely within the front end of the outer shell. The interior portion includes a funnel-shaped intake and an annular primary combustion chamber between the inner front wall of the shell and the outer surface of the funnel-shaped intake. The intake has a central aperture that is in fluid communication with the throat and exhaust areas within the outer shell. A second circumferential gap is formed between the outer surface of the front inner wall and the inner surface of the front end of the outer shell and is in fluid communication with the throat and exhaust areas within the outer shell. One or more injector ports and one or more ignition ports are situated at the front end of the second circumferential gap.Type: GrantFiled: November 10, 2020Date of Patent: January 11, 2022Assignee: Mountain Aerospace Research Solutions, Inc.Inventors: Aaron Davis, Scott Stegman
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Patent number: 11174817Abstract: An air-breathing rocket engine in certain embodiments comprises an outer shell and an interior portion situated entirely within the front end of the outer shell. The interior portion includes a funnel-shaped intake and an annular primary combustion chamber between the inner front wall of the shell and the outer surface of the funnel-shaped intake. The intake has a central aperture that is in fluid communication with the throat and exhaust areas within the outer shell. A second circumferential gap is formed between the outer surface of the front inner wall and the inner surface of the front end of the outer shell and is in fluid communication with the throat and exhaust areas within the outer shell. One or more injector ports and one or more ignition ports are situated at the front end of the second circumferential gap.Type: GrantFiled: November 10, 2020Date of Patent: November 16, 2021Assignee: Mountain Aerospace Research Solutions, Inc.Inventors: Aaron Davis, Scott Stegman
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Patent number: 11174818Abstract: A high temperature thermal protection systems for rockets, and associated methods, is disclosed. A representative system includes a launch vehicle having a first end and a second end generally opposite the first end. The launch vehicle is elongated along a vehicle axis extending between the first and second ends and carries a propulsion system having at least one nozzle positioned at the second end of the launch vehicle. A thermal protection apparatus positioned around the nozzle is used to provide cooling and/or insulation to the nozzle during the flight of the launch vehicle. The thermal protection apparatus can include multiple fabric layers and an insulation layer stacked and stitched together. The fabric layers can include metal alloy fibers. In representative systems, the thermal protection apparatus can further include provisions for water that saturates the insulation layer to provide further insulating and/or cooling effects.Type: GrantFiled: May 10, 2019Date of Patent: November 16, 2021Assignee: BLUE ORIGIN, LLCInventors: Adam Keith Norman, John Paul Brendel, Christopher Patrick Hupf, Stefano Gulli
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Patent number: 11149691Abstract: Devices and methods of rocket propulsion are disclosed. In one aspect, a staged combustion liquid rocket engine with preburner and turbopump unit (TPU) integrated into the structure of the combustion chamber is described. An initial propellant mixture is combusted in a preburner combustion chamber formed as an annulus around a main combustion chamber, the combustion products from the preburner driving the turbine of the TPU and subsequently injected into the main combustion chamber for secondary combustion along with additional propellants, generating thrust through a supersonic nozzle. The preburner inner cylindrical wall is shared with the outer cylindrical wall of the engine's main combustion chamber and the turbine is axially aligned with the main combustion chamber.Type: GrantFiled: September 4, 2020Date of Patent: October 19, 2021Assignee: Special Aerospace Services, LLCInventors: Timothy Bulk, Christopher Hayes
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Patent number: 11143144Abstract: A rocket propulsion system comprises a combustion chamber, a hydrogen-oxygen supply system connected to the combustion chamber, which hydrogen-oxygen supply system is configured to conduct hydrogen and oxygen into the combustion chamber, and a coolant supply system connected to the combustion chamber, which coolant supply system is configured to conduct a combustible coolant into the combustion chamber. An ignition system of the rocket propulsion system is configured to initiate combustion of the hydrogen-oxygen-coolant mixture in the combustion chamber.Type: GrantFiled: May 18, 2017Date of Patent: October 12, 2021Assignee: Arianegroup GmbHInventors: Ulrich Gotzig, Malte Wurdak
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Patent number: 11143038Abstract: An airfoil for a gas turbine engine includes pressure and suction side walls joined to one another at leading and trailing edges. A stagnation line is located on the pressure side wall aft of the leading edge. A cooling passage is provided between the pressure and suction side walls. Forward-facing cooling holes are provided adjacent to the stagnation line on the pressure side wall and oriented toward the leading edge.Type: GrantFiled: February 26, 2014Date of Patent: October 12, 2021Assignee: Raytheon Technologies CorporationInventors: San Quach, Matthew A. Devore
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Patent number: 11143143Abstract: Various implementations of an extinguishable, solid propellant divert system for a flight vehicle are disclosed. Also disclosed are methods for using the divert system to control the flight of a flight vehicle. In one implementation, a divert system includes a hot gas generator pneumatically linked to one or more divert thrusters and an extinguishment valve. The extinguishment valve can be opened to rapidly depressurize the hot gas generator and extinguish the solid propellant burning inside. In another implementation, a method of controlling the trajectory of the flight vehicle includes repeatedly igniting and extinguishing the solid propellant in a hot gas generator and using the hot gas to provide divert thrust for the flight vehicle.Type: GrantFiled: May 13, 2019Date of Patent: October 12, 2021Assignee: Valley Tech Systems, Inc.Inventors: Russell Carlson, Dustin Barr, Allen Yan, Justin Carpenter
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Patent number: 11105298Abstract: A pogo effect corrector system for a liquid propellant feed system of a rocket engine includes a liquid propellant feed pipe portion, and a hydraulic accumulator including a tank connected firstly to the feed pipe portion firstly via at least one take-off passage opening out into a take-off segment of the feed pipe portion, and secondly via at least one rejection passage opening out into the tank at an intermediate level lying between the at least one take-off passage and the top of the tank, wherein the feed pipe portion possesses a constriction segment where the flow section of the feed pipeline portion is less than the flow section of the take-off segment, and wherein at least one rejection passage opens out into the feed pipeline portion in the constriction segment.Type: GrantFiled: November 24, 2017Date of Patent: August 31, 2021Assignee: ARIANEGROUP SASInventors: Benoit Mathieu André Cingal, Jesus Llanos Garcia
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Patent number: 11092111Abstract: Embodiments of the present invention generally relate to a vapor retention device and methods of using a vapor retention device to manage propellant for upper stage space vehicles. The use of a vapor retention device, in combination with controlled acceleration, drives liquid propellant from a propellant supply line communicating with an upper stage main engine back into a propellant tank and establishes an insulating liquid/gas propellant interface that prevents the exchange of gaseous propellant across the interface.Type: GrantFiled: December 10, 2018Date of Patent: August 17, 2021Assignee: United Launch Alliance, L.L.C.Inventors: Christopher L. Bridges, Bernard Friedrich Kutter, Frank C. Zegler
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Patent number: 11060483Abstract: A rocket engine with an improved solid fuel segment mainly comprises a combustion chamber, a solid fuel segment installed in the combustion chamber, and an oxidizer injector installed at one end of the combustion chamber. The solid fuel segment surrounds and forms a trajectory to allow the oxidizer injector to inject oxidizer into the trajectory, in particular, on the solid fuel segment is formed with a plurality of protrusions, between the each two protrusions are defined a recess, a flame holding hot-gas region is formed between the protrusion and the recess, so as to produce eddy current in the flame holding hot-gas region when the propellant mixture is burned inside the trajectory, such that the whole solid fuel segment can produce even regression rate and high combustion efficiency.Type: GrantFiled: March 12, 2019Date of Patent: July 13, 2021Assignee: Taiwan Innovative Space, Inc.Inventor: Yen-Sen Chen
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Patent number: 11053892Abstract: A method for operating a rocket propulsion system comprises the steps of supplying oxygen to a combustion chamber, supplying hydrogen to the combustion chamber and combusting the oxygen-hydrogen mixture in the combustion chamber. The rocket propulsion system is operated alternately in a first operating mode, in which oxygen and hydrogen are supplied to the combustion chamber in a first mass mixing ratio of oxygen to hydrogen, and in a second operating mode, in which oxygen and hydrogen are supplied to the combustion chamber in a second mass mixing ratio of oxygen to hydrogen that is greater than the first mass mixing ratio.Type: GrantFiled: May 18, 2017Date of Patent: July 6, 2021Assignee: ARIANEGROUP GMBHInventors: Ulrich Gotzig, Malte Wurdak, Joel Deck, Manuel Frey