Patents by Inventor Michael D. Bartkowicz
Michael D. Bartkowicz 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: 9359962Abstract: A system and method for controlling the quantity of compressed air that may enter into an engine cylinder during the intake stroke of a piston during an engine braking event. A control throttle may be positioned to restrict the quantity of compressed air that may enter into the cylinder during the intake stroke. The control throttle may also be positioned downstream of the engine and configured to adjustably restrict the quantity of exhaust gas that may be delivered to a turbine. By restricting the exhaust gas delivered to the turbine, the power generated by the turbine that is used by the compressor to compress intake air may also be reduced. Moreover, by controlling the power available to the compressor, the quantity of compressed intake air may be controlled, which allows for control of the quantity of compressed air that enters into the cylinder during the compression stroke.Type: GrantFiled: April 22, 2013Date of Patent: June 7, 2016Assignee: International Engine Intellectual Property Company, LLCInventors: Michael D. Bartkowicz, Paul Gottemoller, Luis Carlos Cattani
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Patent number: 9291091Abstract: In response to activation of a compression release brake when a motor vehicle having a turbocharged internal combustion engine is operating at some elevation above sea level and a turbocharger compressor is operating in a region of an operating map which is creating boost air in an engine intake manifold which would cause the compression release brake to decelerate the vehicle more slowly at that elevation than it would at sea level for the same operating conditions of the vehicle and engine other than altitude, the compression release brake decelerates the vehicle less slowly by causing an exhaust gas recirculation system to reduce at least one of a) mass of exhaust diverted to an intake system of the engine and b) cooling of the diverted exhaust.Type: GrantFiled: August 25, 2011Date of Patent: March 22, 2016Assignee: International Engine Intellectual Property Company, LLCInventors: Luis Carlos Cattani, John Zagone, Bashar Y. Melhem, Paul Gottemoller, Michael D. Bartkowicz
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Patent number: 9206732Abstract: An exhaust gas turbocharger housing (10) for an engine includes a main turbine housing portion (14) and a throat portion (12) defining an exhaust gas passageway (20) that is in upstream fluid communication with the main turbine housing. The exhaust passageway (20) communicates exhaust gases (EG) to the main turbine housing portion (14). A flow divider (22) generally bisects the exhaust gas passageway (20) forming a first inlet passageway (24A) and a second inlet passageway (24B). A flow hole (26) is disposed through the flow divider (22) for permitting the fluid communication of exhaust gas (EG) from the first inlet passageway (24A) to the second inlet passageway (24B).Type: GrantFiled: February 24, 2011Date of Patent: December 8, 2015Assignee: International Engine Intellectual Property Company, LLCInventors: Luis C Cattani, Michael D Bartkowicz, Jim Burke, Paul Gottemoller, John Zagone
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Publication number: 20150136077Abstract: An engine controller causes a propulsion engine of a motor vehicle to be fueled in a fueling mode of operation and not to be fueled in a non-fueling mode of operation. A controlled device, such as a clutch or regulator, controls operation of a pneumatic compressor which forces compressed air into a storage tank. The controlled device is controlled according to a strategy which distinguishes between the fueling mode and the non-fueling mode for improving overall vehicle fuel economy.Type: ApplicationFiled: June 8, 2012Publication date: May 21, 2015Applicant: International Engine Intellectual Property Company LLCInventors: Luis Carlos Cattani, Michael D. Bartkowicz, Jayakumar Kirshnaswami
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Publication number: 20150107553Abstract: A system and method for controlling the quantity of compressed air that may enter into an engine cylinder during the intake stroke of a piston during an engine braking event. A control throttle may be positioned to restrict the quantity of compressed air that may enter into the cylinder during the intake stroke. The control throttle may also be positioned downstream of the engine and configured to adjustably restrict the quantity of exhaust gas that may be delivered to a turbine. By restricting the exhaust gas delivered to the turbine, the power generated by the turbine that is used by the compressor to compress intake air may also be reduced. Moreover, by controlling the power available to the compressor, the quantity of compressed intake air may be controlled, which allows for control of the quantity of compressed air that enters into the cylinder during the compression stroke.Type: ApplicationFiled: April 22, 2013Publication date: April 23, 2015Applicant: International Engine Intellectual Property Company LLCInventors: Michael D. Bartkowicz, Paul Gottemoller, Luis Carlos Cattani
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Publication number: 20140216398Abstract: In response to activation of a compression release brake when a motor vehicle having a turbocharged internal combustion engine is operating at some elevation above sea level and a turbocharger compressor is operating in a region of an operating map which is creating boost air in an engine intake manifold which would cause the compression release brake to decelerate the vehicle more slowly at that elevation than it would at sea level for the same operating conditions of the vehicle and engine other than altitude, the compression release brake decelerates the vehicle less slowly by operating a valve mechanism to reduce flow through a charge air cooler and increase flow through a charge air cooler by-pass.Type: ApplicationFiled: August 25, 2011Publication date: August 7, 2014Applicant: International Engine Intellectual Property Company LLCInventors: Luis Carlos Cattani, John Zagone, Bashar Y. Melhem, Paul Gottemoller, Michael D. Bartkowicz
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Publication number: 20140208743Abstract: In response to activation of a compression release brake when a motor vehicle having a turbocharged internal combustion engine is operating at some elevation above sea level and a turbocharger compressor is operating in a region of an operating map which is creating boost air in an engine intake manifold which would cause the compression release brake to decelerate the vehicle more slowly at that elevation than it would at sea level for the same operating conditions of the vehicle and engine other than altitude, the compression release brake decelerates the vehicle less slowly by causing an exhaust gas recirculation system to reduce at least one of a) mass of exhaust diverted to an intake system of the engine and b) cooling of the diverted exhaust.Type: ApplicationFiled: August 25, 2011Publication date: July 31, 2014Applicant: International Engine Intellectual Property CompanyInventors: Luis Carlos Cattani, John Zagone, Bashar Y. Melhem, Paul Gottemoller, Michael D. Bartkowicz
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Publication number: 20130306039Abstract: A system is provided for boosting the pressure of air delivered to the intake manifold of an engine during a transient event. The system includes an air flow line that is configured to deliver air to an inlet of a low pressure compressor. The system also includes a high pressure compressor. The system further includes a bypass system having at least one bypass valve and a bypass line. The bypass system is configured to allow at least a portion of the air in the air flow line to bypass the low pressure compressor when the bypass valve is in an open position. The bypass valve may be actuated to an open position during transient events so as to increase the speed at which the pressure, and thus air flow mass, of air being supplied to an engine obtained desired levels.Type: ApplicationFiled: May 21, 2013Publication date: November 21, 2013Inventors: John R. Zagone, Luis Carlos Cattani, Michael D. Bartkowicz
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Publication number: 20130199176Abstract: A method for driving exhaust gas recirculation comprising the steps of restricting exhaust gas flow into the turbine inlet to create backpressure in the exhaust system under low engine operating conditions, and providing an unrestricted exhaust gas flow to the turbine under normal engine operating conditions. Restriction of exhaust gas flow is accomplished through the use of an exhaust gas throttle valve disposed upstream of the turbine inlet. The valves can be adjustable knife edge flap valves or D-shaped valves situated in each passageway of a divided exhaust manifold, which are closed to varying degrees to generate desired levels of backpressure while allowing exhaust gas to pass though open regions of the partially obstructed flow pathway to reach the engine turbocharger. This allows the turbine to continue to spin, while at the same time exhaust gas back pressure upstream of the turbocharger is used to drive exhaust gas recirculation.Type: ApplicationFiled: October 4, 2010Publication date: August 8, 2013Applicant: International Engine Intellectual Property Company LLCInventors: Luis Carlos Cattani, Michael D. Bartkowicz, Martin R. Zielke, John Zagone
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Publication number: 20130167527Abstract: An exhaust gas turbocharger housing (10) for an engine includes a main turbine housing portion (14) and a throat portion (12) defining an exhaust gas passageway (20) that is in upstream fluid communication with the main turbine housing. The exhaust passageway (20) communicates exhaust gases (EG) to the main turbine housing portion (14). A flow divider (22) generally bisects the exhaust gas passageway (20) forming a first inlet passageway (24A) and a second inlet passageway (24B). A flow hole (26) is disposed through the flow divider (22) for permitting the fluid communication of exhaust gas (EG) from the first inlet passageway (24A) to the second inlet passageway (24B).Type: ApplicationFiled: February 24, 2011Publication date: July 4, 2013Inventors: Luis Carlos Cattani, John Zagone, Paul Gottemoller, James P. Burke, Michael D. Bartkowicz
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Patent number: 8281587Abstract: A control system for engine braking for a vehicle powered by a turbocharged engine uses a supercharger to assist a turbocharger compressor to boost turbocharger air flow into the engine cylinders. An engine driven air pumping device draws ambient air, or alternately exhaust gas through the pump inlet, compresses the air, and delivers the compressed air through the pump outlet to the turbocharger compressor inlet or alternately the turbocharger compressor outlet. The increased air flow into the cylinders and out of the cylinder exhaust valves increases retarding power of the vehicle.Type: GrantFiled: August 13, 2009Date of Patent: October 9, 2012Assignee: International Engine Intellectual Property Company, LLCInventors: Qianfan Xin, Martin R. Zielke, Michael D. Bartkowicz, Luis Carlos Cattani, Steve Gravante, Timothy Prochnau, Antoun Y. Calash, John L. Cagney
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Publication number: 20120174887Abstract: In an engine braking system of the type wherein a cam lobe lifts a follower by direct contact, wherein the follower is at least partially contained in a brake housing containing oil. A slave piston is also at least partially contained in the brake housing, and during engine braking, movement of the follower causes the oil to move the slave piston outward. Movement of the slave piston opens an engine braking exhaust valve to open a flow path between an engine cylinder and an exhaust conduit. An oil passage through the follower is provided to lubricate an interface between a flat face of the follower and the cam lobe with oil from the brake housing. The oil passage has an outlet hole that is open on the flat face outside of the contact area between the flat face and the cam lobe.Type: ApplicationFiled: May 26, 2010Publication date: July 12, 2012Applicant: International Engine Intellectual Property Company, LLCInventors: Michael D. Bartkowicz, Qianfan Xin
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Publication number: 20110036088Abstract: A control system for engine braking for a vehicle powered by a turbocharged engine uses a supercharger to assist a turbocharger compressor to boost turbocharger air flow into the engine cylinders. An engine driven air pumping device draws ambient air, or alternately exhaust gas through the pump inlet, compresses the air, and delivers the compressed air through the pump outlet to the turbocharger compressor inlet or alternately the turbocharger compressor outlet. The increased air flow into the cylinders and out of the cylinder exhaust valves increases retarding power of the vehicle.Type: ApplicationFiled: August 13, 2009Publication date: February 17, 2011Applicant: International Engine Intellectual Property Company, LLCInventors: Qianfan Xin, Martin R. Zielke, Michael D. Bartkowicz, Luis Carlos Cattani, Steve Gravante, Timothy Prochnau, Antoun Y. Calash, John L. Cagney
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Patent number: 5092290Abstract: An internal combustion engine piston assembly is provided wherein the underside of the piston has planar load bearing surfaces disposed perpendicularly to the axis thereof and the ends of the piston pin are provided with mating planar surfaces for fastening the pin to the underside of the piston head. The piston pin further includes a cylindrical bearing surface disposed between the ends for connection to the connecting rod.Type: GrantFiled: September 13, 1990Date of Patent: March 3, 1992Assignee: Navistar International Transportation Corp.Inventor: Michael D. Bartkowicz