Patents by Inventor Daniel J. Clarius
Daniel J. Clarius 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: 11529503Abstract: A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.Type: GrantFiled: March 11, 2019Date of Patent: December 20, 2022Assignee: ELECTROCHEMICAL OXYGEN CONCEPTS, INC.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Niederauer, James P. Daley
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Patent number: 10632018Abstract: A wound treatment system includes a housing that defines an oxygen outlet. An oxygen production subsystem is included in the housing and coupled to the oxygen outlet. A control subsystem is coupled to the oxygen production subsystem and configured to receive pressure information that is indicative of a pressure in a restricted airflow enclosure that is coupled to the oxygen outlet. The control subsystem then uses the pressure information to control power provided to the oxygen production subsystem in order to control an oxygen flow that is created by the oxygen production subsystem and provided through the oxygen outlet to the restricted airflow enclosure.Type: GrantFiled: July 6, 2017Date of Patent: April 28, 2020Assignee: ELECTROCHEMICAL OXYGEN CONCEPTS, INC.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Q. Niederauer, James P. Daley
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Publication number: 20190201672Abstract: A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.Type: ApplicationFiled: March 11, 2019Publication date: July 4, 2019Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Niederauer, James P. Daley
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Patent number: 10226610Abstract: A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.Type: GrantFiled: December 7, 2015Date of Patent: March 12, 2019Assignee: ELECTROCHEMICAL OXYGEN CONCEPTS, INC.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Niederauer, James P. Daley
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Patent number: 10084267Abstract: An electric circuit is provided with a single jack for connection to either a first remote powered device via a first plug or a second remote unpowered device via a second plug. A power requirement detection circuit is provided for generating a control signal representing whether the connected plug is the first plug or the second plug. A normally deactivated switch is connected between the power source and the jack and is operable to supply power to the jack when activated. A switch activation circuit is responsive to the control signal for actuating the switch when the first plug is connected.Type: GrantFiled: September 28, 2015Date of Patent: September 25, 2018Assignee: Sunrise Medical (US) LLCInventor: Daniel J. Clarius
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Publication number: 20170296392Abstract: A wound treatment system includes a housing that defines an oxygen outlet. An oxygen production subsystem is included in the housing and coupled to the oxygen outlet. A control subsystem is coupled to the oxygen production subsystem and configured to receive pressure information that is indicative of a pressure in a restricted airflow enclosure that is coupled to the oxygen outlet. The control subsystem then uses the pressure information to control power provided to the oxygen production subsystem in order to control an oxygen flow that is created by the oxygen production subsystem and provided through the oxygen outlet to the restricted airflow enclosure.Type: ApplicationFiled: July 6, 2017Publication date: October 19, 2017Applicant: ELECTROCHEMICAL OXYGEN CONCEPTS, INC.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Q. Niederauer, James P. Daley
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Patent number: 9730838Abstract: A non-invasive tissue oxygenation system for accelerating the healing of damaged tissue and to promote tissue viability is disclosed herein. The system is comprised of a lightweight portable electrochemical oxygen concentrator, a power management system, microprocessors, memory, a pressure sensing system, an optional temperature monitoring system, oxygen flow rate/oxygen partial pressure monitoring and control system, a display screen and key pad navigation controls as a means of providing continuous variably controlled low dosages of oxygen to a wound site and monitoring the healing process. A kink resistant oxygen delivery tubing, whereby the proximal end is removably connected to the device and the distal end with holes or a flexible, flat, oxygen-permeable tape is positioned at or near the wound bed as a means of applying near 100% pure oxygen to the wound site.Type: GrantFiled: April 23, 2009Date of Patent: August 15, 2017Assignee: Electrochemical Oxygen Concepts, Inc.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Niederauer
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Publication number: 20160093989Abstract: An electric circuit is provided with a single jack for connection to either a first remote powered device via a first plug or a second remote unpowered device via a second plug. A power requirement detection circuit is provided for generating a control signal representing whether the connected plug is the first plug or the second plug. A normally deactivated switch is connected between the power source and the jack and is operable to supply power to the jack when activated. A switch activation circuit is responsive to the control signal for actuating the switch when the first plug is connected.Type: ApplicationFiled: September 28, 2015Publication date: March 31, 2016Applicant: SUNRISE MEDICAL (US), LLCInventor: Daniel J. Clarius
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Publication number: 20160082238Abstract: A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.Type: ApplicationFiled: December 7, 2015Publication date: March 24, 2016Applicant: ELECTROCHEMICAL OXYGEN CONCEPTS, INC.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Niederauer, James P. Daly
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Patent number: 8287506Abstract: A non-invasive tissue oxygenation system for accelerating the healing of damaged tissue and to promote tissue viability is disclosed herein. The system is comprised of a lightweight portable electrochemical oxygen concentrator, a power management system, microprocessors, memory, a pressure sensing system, a temperature monitoring system, oxygen flow rate monitoring and control system, a display screen and key pad navigation controls as a means of providing continuous variably controlled low dosages of oxygen to a wound site and monitoring the healing process. A kink resistant oxygen delivery tubing, whereby the proximal end is removably connected to the device and the distal end with holes or a flexible, flat, oxygen-permeable tape is positioned on the wound bed as a means of applying oxygen to the wound site. The distal end of the tube is in communication with the electrochemical oxygen concentrator and wound monitoring system to communicate temperature and oxygen partial pressure information.Type: GrantFiled: October 24, 2008Date of Patent: October 16, 2012Assignee: Electrochemical Oxygen Concepts, Inc.Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods
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Publication number: 20110054388Abstract: A non-invasive tissue oxygenation system for accelerating the healing of damaged tissue and to promote tissue viability is disclosed herein. The system is comprised of a lightweight portable electrochemical oxygen concentrator, a power management system, microprocessors, memory, a pressure sensing system, an optional temperature monitoring system, oxygen flow rate/oxygen partial pressure monitoring and control system, a display screen and key pad navigation controls as a means of providing continuous variably controlled low dosages of oxygen to a wound site and monitoring the healing process. A kink resistant oxygen delivery tubing, whereby the proximal end is removably connected to the device and the distal end with holes or a flexible, flat, oxygen-permeable tape is positioned at or near the wound bed as a means of applying near 100% pure oxygen to the wound site.Type: ApplicationFiled: April 23, 2009Publication date: March 3, 2011Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods, Mark Niederauer
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Publication number: 20090112170Abstract: A non-invasive tissue oxygenation system for accelerating the healing of damaged tissue and to promote tissue viability is disclosed herein. The system is comprised of a lightweight portable electrochemical oxygen concentrator, a power management system, microprocessors, memory, a pressure sensing system, a temperature monitoring system, oxygen flow rate monitoring and control system, a display screen and key pad navigation controls as a means of providing continuous variably controlled low dosages of oxygen to a wound site and monitoring the healing process. A kink resistant oxygen delivery tubing, whereby the proximal end is removably connected to the device and the distal end with holes or a flexible, flat, oxygen-permeable tape is positioned on the wound bed as a means of applying oxygen to the wound site. The distal end of the tube is in communication with the electrochemical oxygen concentrator and wound monitoring system to communicate temperature and oxygen partial pressure information.Type: ApplicationFiled: October 24, 2008Publication date: April 30, 2009Inventors: Michael C. Wells, Mark Parker, Daniel J. Clarius, Andrew Parker, Faraidoon Pundole, Tom Woods