Patents by Inventor Daniel J. Shepard
Daniel J. Shepard 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).
-
Patent number: 10859153Abstract: A vehicle thermal management system includes a radiator receiving a liquid coolant in a coolant supply line and discharging the coolant into a coolant pump supply line. A coolant pump receives the coolant from the coolant pump supply line and discharges the coolant into multiple engine components. A transmission oil heat exchanger defining a first transmission oil heat exchanger receives the coolant after being discharged from the multiple engine components. An air-to-coolant sub-cooling heat exchanger defines a second transmission oil heat exchanger. The sub-cooling heat exchanger receives a portion of the coolant bypassing the multiple engine components.Type: GrantFiled: February 19, 2019Date of Patent: December 8, 2020Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Eugene V. Gonze, John W. Myers, Daniel J. Shepard, Michael J. Paratore, Jr., Richard J. Lopez
-
Patent number: 10844772Abstract: A vehicle propulsion system includes an engine having a coolant inlet and a coolant outlet, a coolant pump having an outlet in communication with the engine coolant inlet, a pressure sensor in fluid communication with the engine coolant outlet and that generates a pressure signal indicative of a pressure in the engine coolant outlet, and a controller in communication with the pressure sensor and the coolant pump. The controller is programmed to control a flow of coolant through the engine from the coolant pump based upon the pressure signal.Type: GrantFiled: March 15, 2018Date of Patent: November 24, 2020Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Eugene V. Gonze, Daniel J. Shepard, Lawrence P. Ziehr
-
Publication number: 20200263783Abstract: A vehicle thermal management system includes a radiator receiving a liquid coolant in a coolant supply line and discharging the coolant into a coolant pump supply line. A coolant pump receives the coolant from the coolant pump supply line and discharges the coolant into multiple engine components. A transmission oil heat exchanger defining a first transmission oil heat exchanger receives the coolant after being discharged from the multiple engine components. An air-to-coolant sub-cooling heat exchanger defines a second transmission oil heat exchanger. The sub-cooling heat exchanger receives a portion of the coolant bypassing the multiple engine components.Type: ApplicationFiled: February 19, 2019Publication date: August 20, 2020Inventors: Eugene V. Gonze, John W. Myers, Daniel J. Shepard, Michael J. Paratore, JR., Richard J. Lopez
-
Patent number: 10578008Abstract: A method for coolant pump flow rationalization using coolant pump parameters includes calculating a first pump coolant flow based on a coolant input pressure sensor signal and the coolant pump speed. Further, the method includes calculating a second pump coolant flow based on coolant pump current and coolant pump speed when the first pump coolant flow is greater than a predetermined threshold; and comparing the first pump coolant flow with the second pump coolant flow to rationalize the coolant pressure sensor signal.Type: GrantFiled: March 5, 2018Date of Patent: March 3, 2020Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Eugene V. Gonze, Michael J. Paratore, Jr., Daniel J. Shepard
-
Patent number: 10495012Abstract: An automotive vehicle includes an internal combustion engine that outputs exhaust gas from a cylinder, and an active thermal management system. The active thermal management system flows coolant around the cylinder thereby varying an exhaust temperature of the exhaust gas. An electronic engine controller controls the internal combustion engine and the active thermal management system. The engine controller generates a control signal to selectively operate the active thermal management system in a normal mode, a thermal increase mode, and a thermal decrease mode. The normal mode flows the coolant at a first coolant temperature. The thermal increase mode flows the coolant at a second coolant temperature greater than the first coolant temperature thereby increasing the exhaust temperature of the exhaust gas. The thermal decrease mode flows the coolant at a third coolant temperature less than the first coolant temperature thereby decreasing the exhaust temperature of the exhaust gas.Type: GrantFiled: May 3, 2017Date of Patent: December 3, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Sami Ahmed, Michael A. Smith, Michelangelo Ardanese, Daniel J. Shepard
-
Patent number: 10473023Abstract: A vehicle thermal management system includes an engine, a coolant pump, a first heat exchanger, a first valve in communication with the first heat exchanger, a second valve having a plurality of outlets, a second heat exchanger in communication with a first of the plurality of outlets, a third heat exchanger in communication with a second of the plurality of outlets, a bypass fluid conduit in communication with a third of the plurality of outlets, and a controller that determines a first potential benefit based upon a loss function of the second heat exchanger, determines a second potential benefit based upon a loss function of the third heat exchanger, compares the first potential to the second potential, and proportionally distributes flow between the first heat exchanger, the second heat exchanger, the third heat exchanger, and the bypass fluid conduit based upon the comparison.Type: GrantFiled: January 30, 2018Date of Patent: November 12, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Eugene V. Gonze, Daniel J. Shepard, Michael J. Paratore, Jr.
-
Publication number: 20190284986Abstract: A vehicle propulsion system includes an engine having a coolant inlet and a coolant outlet, a coolant pump having an outlet in communication with the engine coolant inlet, a pressure sensor in fluid communication with the engine coolant outlet and that generates a pressure signal indicative of a pressure in the engine coolant outlet, and a controller in communication with the pressure sensor and the coolant pump. The controller is programmed to control a flow of coolant through the engine from the coolant pump based upon the pressure signal.Type: ApplicationFiled: March 15, 2018Publication date: September 19, 2019Inventors: Eugene V. Gonze, Daniel J. Shepard, Lawrence P. Ziehr
-
Patent number: 10415452Abstract: An automobile vehicle exhaust gas heat recovery system includes an engine having a turbocharger. A cooling pump provides coolant flow to the engine and the turbocharger. A combined coolant discharge header receives coolant discharged from the engine and the turbocharger. A main rotary valve receives coolant discharged from the combined coolant discharge header. The main rotary valve includes multiple rotary valves selectively distributing all of the coolant in the combined coolant discharge header to at least one of an engine heater, a heater core and a transmission oil heater during a cold start operation. An exhaust gas heat recovery (EGHR) device is positioned to receive the coolant discharged from any one, any two or all of the engine heater, the heater core and the transmission oil heater and in a path to return the coolant to the cooling pump during the cold start operation of the engine.Type: GrantFiled: March 1, 2018Date of Patent: September 17, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Daniel J. Shepard, Eugene V. Gonze, Douglas Dickson
-
Patent number: 10415689Abstract: A method of using a thermoelectric generator for warming a transmission on a vehicle having an internal combustion engine is provided. The method includes starting the internal combustion engine, thereby generating a hot exhaust gas; circulating coolant through a heating loop in fluid communication with the internal combustion engine and the thermoelectric generator; passing the hot exhaust gas through a hot-side of the thermoelectric generator and circulating the coolant through the cold-side of the thermoelectric generator, thereby transferring heat from the hot exhaust gas to the coolant and generating an electric current; and selectively powering an electric heating element with the electric current. The electric heating element is in thermal communication with a transmission fluid of the transmission.Type: GrantFiled: August 29, 2018Date of Patent: September 17, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Douglas Dickson, Lawrence P. Ziehr, James R. Salvador, Daniel J. Shepard
-
Publication number: 20190277182Abstract: A thermal management system for a vehicle propulsion system includes an engine having a coolant inlet and a coolant outlet, a coolant pump having an outlet in communication with the engine coolant inlet, a coolant valve that controls coolant flow from the engine coolant outlet to a transmission heat exchanger, and a coolant valve controller that selectively actuates the coolant valve during an initial transmission warm up condition, wherein the coolant valve controller selectively closes the coolant valve after a transmission temperature exceeds a target transmission temperature.Type: ApplicationFiled: March 12, 2018Publication date: September 12, 2019Inventors: Daniel J. Shepard, Eugene V. Gonze, Michael J. Paratore, JR.
-
Publication number: 20190271260Abstract: A method for coolant pump flow rationalization using coolant pump parameters includes calculating a first pump coolant flow based on a coolant input pressure sensor signal and the coolant pump speed. Further, the method includes calculating a second pump coolant flow based on coolant pump current and coolant pump speed when the first pump coolant flow is greater than a predetermined threshold; and comparing the first pump coolant flow with the second pump coolant flow to rationalize the coolant pressure sensor signal.Type: ApplicationFiled: March 5, 2018Publication date: September 5, 2019Inventors: Eugene V. Gonze, Michael J. Paratore, JR., Daniel J. Shepard
-
Publication number: 20190271252Abstract: An automobile vehicle exhaust gas heat recovery system includes an engine having a turbocharger. A cooling pump provides coolant flow to the engine and the turbocharger. A combined coolant discharge header receives coolant discharged from the engine and the turbocharger. A main rotary valve receives coolant discharged from the combined coolant discharge header. The main rotary valve includes multiple rotary valves selectively distributing all of the coolant in the combined coolant discharge header to at least one of an engine heater, a heater core and a transmission oil heater during a cold start operation. An exhaust gas heat recovery (EGHR) device is positioned to receive the coolant discharged from any one, any two or all of the engine heater, the heater core and the transmission oil heater and in a path to return the coolant to the cooling pump during the cold start operation of the engine.Type: ApplicationFiled: March 1, 2018Publication date: September 5, 2019Inventors: Daniel J. Shepard, Eugene V. Gonze, Douglas Dickson
-
Publication number: 20190234292Abstract: A vehicle thermal management system includes an engine, a coolant pump, a first heat exchanger, a first valve in communication with the first heat exchanger, a second valve having a plurality of outlets, a second heat exchanger in communication with a first of the plurality of outlets, a third heat exchanger in communication with a second of the plurality of outlets, a bypass fluid conduit in communication with a third of the plurality of outlets, and a controller that determines a first potential benefit based upon a loss function of the second heat exchanger, determines a second potential benefit based upon a loss function of the third heat exchanger, compares the first potential to the second potential, and proportionally distributes flow between the first heat exchanger, the second heat exchanger, the third heat exchanger, and the bypass fluid conduit based upon the comparison.Type: ApplicationFiled: January 30, 2018Publication date: August 1, 2019Inventors: Eugene V. Gonze, Daniel J. Shepard, Michael J. Paratore, JR.
-
Publication number: 20180363760Abstract: A method of using a thermoelectric generator for warming a transmission on a vehicle having an internal combustion engine is provided. The method includes starting the internal combustion engine, thereby generating a hot exhaust gas; circulating coolant through a heating loop in fluid communication with the internal combustion engine and the thermoelectric generator; passing the hot exhaust gas through a hot-side of the thermoelectric generator and circulating the coolant through the cold-side of the thermoelectric generator, thereby transferring heat from the hot exhaust gas to the coolant and generating an electric current; and selectively powering an electric heating element with the electric current. The electric heating element is in thermal communication with a transmission fluid of the transmission.Type: ApplicationFiled: August 29, 2018Publication date: December 20, 2018Inventors: Douglas Dickson, Lawrence P. Ziehr, James R. Salvador, Daniel J. Shepard
-
Publication number: 20180320617Abstract: An automotive vehicle includes an internal combustion engine that outputs exhaust gas from a cylinder, and an active thermal management system. The active thermal management system flows coolant around the cylinder thereby varying an exhaust temperature of the exhaust gas. An electronic engine controller controls the internal combustion engine and the active thermal management system. The engine controller generates a control signal to selectively operate the active thermal management system in a normal mode, a thermal increase mode, and a thermal decrease mode. The normal mode flows the coolant at a first coolant temperature. The thermal increase mode flows the coolant at a second coolant temperature greater than the first coolant temperature thereby increasing the exhaust temperature of the exhaust gas. The thermal decrease mode flows the coolant at a third coolant temperature less than the first coolant temperature thereby decreasing the exhaust temperature of the exhaust gas.Type: ApplicationFiled: May 3, 2017Publication date: November 8, 2018Inventors: Sami Ahmed, Michael A. Smith, Michelangelo Ardanese, Daniel J. Shepard
-
Patent number: 10094464Abstract: A vehicle, system, and method of warming the transmission fluid with a thermoelectric generator is also provided. Disclosed is vehicle having an internal combustion engine, a transmission containing a transmission fluid, a coolant circuit configured to remove heat from the engine, and a thermoelectric generator. The thermoelectric generator is in non-contact thermal communication with the hot exhaust gas produced by the engine and the relatively cooler coolant circulating through the coolant circuit. The thermoelectric generator produces a current from the temperature gradient between the exhaust gas relative and coolant and transfers heat from the exhaust gas to the coolant. The heat coolant is conveyed to a transmission heat exchanger to heat the transmission fluid. A heating element is disposed in thermal contact with the transmission fluid and the heating element is powered by the electric current produced by the thermoelectric generator.Type: GrantFiled: August 4, 2016Date of Patent: October 9, 2018Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Douglas Dickson, Lawrence P. Ziehr, James R. Salvador, Daniel J. Shepard
-
Publication number: 20180194196Abstract: Thermal management systems for a vehicle powered by internal combustion engines (ICEs) are provided. Systems include a coolant circuit configured to circulate a coolant and transfer heat between the coolant and a heat consumer appurtenant to the vehicle, and a refrigerant circuit configured to circulate a refrigerant such that the refrigerant is capable of extracting heat from exhaust gas generated by the ICE and subsequently transferring heat to the coolant. The refrigerant circuit can include one or more of an exhaust gas heat exchanger, a compressor, a coolant heat exchanger, a condenser, and an evaporator. Heat transferred to the coolant via the coolant heat exchanger can be transferred to one or more heat consumers, including the ICE, a turbocharger, an oil heater, a heater core, an exhaust gas recirculation cooler, an axle, a differential, an exhaust gas treatment device, and a reductant reservoir for an SCR or SCRF device.Type: ApplicationFiled: January 6, 2017Publication date: July 12, 2018Inventors: Daniel J. Shepard, Lawrence P. Ziehr, Eugene V. Gonze
-
Publication number: 20180038473Abstract: A vehicle, system, and method of warming the transmission fluid with a thermoelectric generator is also provided. Disclosed is vehicle having an internal combustion engine, a transmission containing a transmission fluid, a coolant circuit configured to remove heat from the engine, and a thermoelectric generator. The thermoelectric generator is in non-contact thermal communication with the hot exhaust gas produced by the engine and the relatively cooler coolant circulating through the coolant circuit. The thermoelectric generator produces a current from the temperature gradient between the exhaust gas relative and coolant and transfers heat from the exhaust gas to the coolant. The heat coolant is conveyed to a transmission heat exchanger to heat the transmission fluid. A heating element is disposed in thermal contact with the transmission fluid and the heating element is powered by the electric current produced by the thermoelectric generator.Type: ApplicationFiled: August 4, 2016Publication date: February 8, 2018Inventors: Douglas Dickson, Lawrence P. Ziehr, James R. Salvador, Daniel J. Shepard