Patents by Inventor Bryan Lynch
Bryan Lynch 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: 11944804Abstract: Disclosed are systems, devices, and methods that employ a pump to assist or support blood flow. An apparatus for pumping blood may include a pump housing having an outer wall disposed about a longitudinal pump axis, and having an upstream end and a downstream end; a blood flow straightener having a plurality of fins and positioned in the upstream end of the pump housing and secured to the pump housing by the plurality of fins; a diffuser having a plurality of diffuser fins and positioned in the downstream end of the pump housing and secured to the pump housing by the plurality of diffuser fins; and an impeller positioned between the blood flow straightener and the diffuser, and including a plurality of impeller blades. The apparatus may further include a pump drive configured to impart a rotational motion to the impeller by applying a magnetic field.Type: GrantFiled: March 17, 2023Date of Patent: April 2, 2024Assignee: CARDIODYME, INC.Inventors: Gopal K. Chopra, William Graham, Bryan Lynch, Jeffrey A. LaRose
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Publication number: 20240075760Abstract: A crafting apparatus (10) includes a working portion (22) and a base portion (20). The working portion (22) includes a lower surface (32) and an upper surface (34). The upper surface (34) defines a working three dimensional Cartesian coordinate system (X-Y-Z). The base portion (20) includes a lower surface (24) and an upper surface (26). The lower surface (32) of the working portion (22) is disposed adjacent to the upper surface (26) of the base portion (20). The lower surface (24) defines a non-working three dimensional Cartesian coordinate system (XS-YS-ZS). The upper surface (34) of the working portion (22) extends relative to the lower surface (24) of the base portion (20) at an angle (?22) for angularly-offsetting the working three dimensional Cartesian coordinate system (X-Y-Z) from the non-working three dimensional Cartesian coordinate system (XS-YS-ZS). Methods (200, 300) are also disclosed.Type: ApplicationFiled: January 27, 2022Publication date: March 7, 2024Applicant: Cricut, Inc.Inventors: John Barrus CHRISTENSEN, Bryan Fred Bihlmaier, Donald Christopher Sutton, John Douglas Dalton, Ryun Bates Noble, Kyle Kenneth Johnson, Grayson Stopp, Bayden Filleul, Kurt Stalsberg, James Lynch, Norman Stevenson
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Publication number: 20230218888Abstract: Disclosed are systems, devices, and methods that employ a pump to assist or support blood flow. An apparatus for pumping blood may include a pump housing having an outer wall disposed about a longitudinal pump axis, and having an upstream end and a downstream end; a blood flow straightener having a plurality of fins and positioned in the upstream end of the pump housing and secured to the pump housing by the plurality of fins; a diffuser having a plurality of diffuser fins and positioned in the downstream end of the pump housing and secured to the pump housing by the plurality of diffuser fins; and an impeller positioned between the blood flow straightener and the diffuser, and including a plurality of impeller blades. The apparatus may further include a pump drive configured to impart a rotational motion to the impeller by applying a magnetic field.Type: ApplicationFiled: March 17, 2023Publication date: July 13, 2023Inventors: Gopal K. CHOPRA, William GRAHAM, Bryan LYNCH, Jeffrey A. LaROSE
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Patent number: 11628294Abstract: Disclosed are systems, devices, and methods that employ a pump to assist or support blood flow. An apparatus for pumping blood may include a pump housing having an outer wall disposed about a longitudinal pump axis, and having an upstream end and a downstream end; a blood flow straightener having a plurality of fins and positioned in the upstream end of the pump housing and secured to the pump housing by the plurality of fins; a diffuser having a plurality of diffuser fins and positioned in the downstream end of the pump housing and secured to the pump housing by the plurality of diffuser fins; and an impeller positioned between the blood flow straightener and the diffuser, and including a plurality of impeller blades. The apparatus may further include a pump drive configured to impart a rotational motion to the impeller by applying a magnetic field.Type: GrantFiled: June 29, 2022Date of Patent: April 18, 2023Assignee: CARDIODYME, INC.Inventors: Gopal K. Chopra, William Graham, Bryan Lynch, Jeffrey A. LaRose
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Publication number: 20220331579Abstract: Disclosed are systems, devices, and methods that employ a pump to assist or support blood flow. An apparatus for pumping blood may include a pump housing having an outer wall disposed about a longitudinal pump axis, and having an upstream end and a downstream end; a blood flow straightener having a plurality of fins and positioned in the upstream end of the pump housing and secured to the pump housing by the plurality of fins; a diffuser having a plurality of diffuser fins and positioned in the downstream end of the pump housing and secured to the pump housing by the plurality of diffuser fins; and an impeller positioned between the blood flow straightener and the diffuser, and including a plurality of impeller blades. The apparatus may further include a pump drive configured to impart a rotational motion to the impeller by applying a magnetic field.Type: ApplicationFiled: June 29, 2022Publication date: October 20, 2022Inventors: Gopal K. CHOPRA, William GRAHAM, Bryan LYNCH, Jeffrey A. LaROSE
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Patent number: 11400276Abstract: Disclosed are systems, devices, and methods that employ a pump to assist or support blood flow. An apparatus for pumping blood may include a pump housing having an outer wall disposed about a longitudinal pump axis, and having an upstream end and a downstream end; a blood flow straightener having a plurality of fins and positioned in the upstream end of the pump housing and secured to the pump housing by the plurality of fins; a diffuser having a plurality of diffuser fins and positioned in the downstream end of the pump housing and secured to the pump housing by the plurality of diffuser fins; and an impeller positioned between the blood flow straightener and the diffuser, and including a plurality of impeller blades. The apparatus may further include a pump drive configured to impart a rotational motion to the impeller by applying a magnetic field.Type: GrantFiled: September 17, 2021Date of Patent: August 2, 2022Assignee: CardioDyme, Inc.Inventors: Gopal K. Chopra, William Graham, Bryan Lynch, Jeffrey A. LaRose
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Publication number: 20220088369Abstract: Disclosed are systems, devices, and methods that employ a pump to assist or support blood flow. An apparatus for pumping blood may include a pump housing having an outer wall disposed about a longitudinal pump axis, and having an upstream end and a downstream end; a blood flow straightener having a plurality of fins and positioned in the upstream end of the pump housing and secured to the pump housing by the plurality of fins; a diffuser having a plurality of diffuser fins and positioned in the downstream end of the pump housing and secured to the pump housing by the plurality of diffuser fins; and an impeller positioned between the blood flow straightener and the diffuser, and including a plurality of impeller blades. The apparatus may further include a pump drive configured to impart a rotational motion to the impeller by applying a magnetic field.Type: ApplicationFiled: September 17, 2021Publication date: March 24, 2022Inventors: Gopal K. CHOPRA, William Graham, Bryan Lynch, Jeffrey A. LaRose
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Patent number: 8190390Abstract: A blood flow calibration system 500 including a computer 400 operable to determine and store calibration data for a flow meter 124, a test system 530 operable to simulate blood flow for the flow meter 124, thereby allowing the computer 400 to determine the calibration data, and a programmer 300 operable to transfer the calibration data from the computer 400 to the flow meter 124. The flow meter 124 preferably includes a power management circuit 348a,b operable to detect whether the flow meter 124 is powered. In the event that the flow meter 124 is unpowered, the power management circuit 348a,b is preferably able to supply power to a portion of the flow meter 124 in order to transfer the calibration data thereto.Type: GrantFiled: November 11, 2010Date of Patent: May 29, 2012Assignee: Micromed Technology, Inc.Inventors: Gino Morello, Bryan Lynch, Robert Benkowski
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Publication number: 20110093230Abstract: A blood flow calibration system 500 including a computer 400 operable to determine and store calibration data for a flow meter 124, a test system 530 operable to simulate blood flow for the flow meter 124, thereby allowing the computer 400 to determine the calibration data, and a programmer 300 operable to transfer the calibration data from the computer 400 to the flow meter 124. The flow meter 124 preferably includes a power management circuit 348a,b operable to detect whether the flow meter 124 is powered. In the event that the flow meter 124 is unpowered, the power management circuit 348a,b is preferably able to supply power to a portion of the flow meter 124 in order to transfer the calibration data thereto.Type: ApplicationFiled: November 11, 2010Publication date: April 21, 2011Applicant: MICROMED TECHNOLOGY, INC.Inventors: Gino MORELLO, Bryan LYNCH, Robert BENKOWSKI
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Patent number: 7856335Abstract: A blood flow calibration system 500 including a computer 400 operable to determine and store calibration data for a flow meter 124, a test system 530operable to simulate blood flow for the flow meter 124, thereby allowing the computer 400 to determine the calibration data, and a programmer 300 operable to transfer the calibration data from the computer 400 to the flow meter 124. The flow meter 124 preferably includes a power management circuit 348a,b operable to detect whether the flow meter 124 is powered. In the event that the flow meter 124 is unpowered, the power management circuit 348a,b is preferably able to supply power to a portion of the flow meter 124 in order to transfer the calibration data thereto.Type: GrantFiled: January 15, 2009Date of Patent: December 21, 2010Assignee: Micromed Technology, Inc.Inventors: Gino Morello, Bryan Lynch, Robert Benkowski
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Publication number: 20090192749Abstract: A blood flow calibration system 500 comprising a computer 400 operable to determine and store calibration data for a flow meter 124, a test system 530 operable to simulate blood flow for the flow meter 124, thereby allowing the computer 400 to determine the calibration data, and a programmer 300 operable to transfer the calibration data from the computer 400 to the flow meter 124. The flow meter 124 preferably includes a power management circuit 348a,b operable to detect whether the flow meter 124 is powered. In the event that the flow meter 124 is unpowered, the power management circuit 348a,b is preferably able to supply power to a portion of the flow meter 124 in order to transfer the calibration data thereto.Type: ApplicationFiled: January 15, 2009Publication date: July 30, 2009Applicant: MicroMed Technology, Inc.Inventors: Gino MORELLO, Bryan LYNCH, Robert BENKOWSKI
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Patent number: 5902539Abstract: Process for controlling the rate of change of intrinsic viscosity and transesterification during solid stating of a polyethylene terephthalate (PET) and polyethylene naphthalate (PEN) blend, with an effective amount of an ethylene glycol compound. The process enables the production of a copolymer based on predefined initial and final IV's and final transesterification level, by varying the solid-stating time and/or effective amount of ethylene glycol. In one embodiment, a relatively greater amount of post-consumer PET (e.g., 70%) having an IV of on the order of 0.72-0.73, is incorporated in the blend to provide a final IV on the order of 0.80-0.85, and a moderate, controlled level of transesterification; the blend is used to injection mold a sleeve layer of a preform. In another embodiment, a substantially transparent neck finish for a preform is made from a PEN/PET blend having an amount of ethylene glycol which enables substantial transesterification, without excessive increase in IV.Type: GrantFiled: December 6, 1996Date of Patent: May 11, 1999Assignee: Continental Pet Technologies, Inc.Inventors: Steven L. Schmidt, Bryan Lynch, Amit Suresh Agrawal
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Patent number: 4928496Abstract: A heat pump utilizing beds of hydride forming materials for absorption and desorption of hydrogen as a working fluid in a sealed system. A bed structure including alternate layers of heat conducting discs and powdered hydride former is disclosed, and the incorporation of the beds into a liquid type heat exchanger-reaction vessel is also set forth.Type: GrantFiled: April 14, 1989Date of Patent: May 29, 1990Assignee: Advanced Materials CorporationInventors: W. Edward Wallace, H. Kevin Smith, W. Bryan Lynch, Raymond S. Craig, Fiaz Pourarian