Patents by Inventor Edward J. Koors
Edward J. Koors 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: 11950987Abstract: A method of manufacturing incontinence detection pads that have wireless communication capability includes readying an RFID tag applicator to place RFID tags on backsheet material fed between a pair of nip rollers. The backsheet material has a series of electrode traces thereon. The method also includes operating a nip roller motor to feed the backsheet material between the pair of nip rollers and toward the RFID tag applicator, operating the RFID tag applicator to place each RFID tag across regions of a respective electrode trace of the series of electrode traces, and operating RFID tag test equipment to energize each RFID tag a first time and a second time using wireless emissions and receiving return signals from each RFID tag in response to the wireless emissions.Type: GrantFiled: April 23, 2020Date of Patent: April 9, 2024Assignee: Hill-Rom Services, Inc.Inventors: Brett A. Knittle, Ryan S. Severns, James D. Voll, Nicholas Comparone, Edward J. Koors
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Patent number: 11896406Abstract: A patient support apparatus includes a sensor capable of detecting vital signs, setting acceptable limits for the vital signs, and includes structures for monitoring the vital signs and providing local and/or remote indications to caregivers if the vital signs fall outside of acceptable limits.Type: GrantFiled: November 15, 2021Date of Patent: February 13, 2024Assignee: Hill-Rom Services, Inc.Inventors: Robert M. Zerhusen, Dan R. Tallent, Brandon P. Fisk, Aziz A. Bhai, Eric D. Benz, Robert D. Weitz, John Goewert, Frank Sauser, Nicholas C. Batta, Edward J. Koors, Jonathan D. Turner, Richard H. Heimbrock, John G. Byers, Nicholas A. Mann, Daniel McCoy
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Patent number: 11764831Abstract: Patient care equipment includes a wireless coupler that transfers power and/or data between an architectural unit and the patient care equipment. The patient care equipment may also include additional wireless couplers that transfer power and/or data between first and second components of the equipment. The second component may be movable relative to the first component. A structure or hot swapping batteries is also disclosed, the swapped battery being charged on an inductive charging mat.Type: GrantFiled: February 23, 2021Date of Patent: September 19, 2023Assignee: Hill-Rom Services, Inc.Inventors: Charles A. Howell, William G. Pittenger, Michael S. Hood, Edward J. Koors, Steven A. Dixon, Richard J. Schuman, Matthew D. Morgan, Laurie Lee Gutzwiller, Kelly F. Walton
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Patent number: 11707388Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay. After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: GrantFiled: July 15, 2022Date of Patent: July 25, 2023Assignee: Hill-Rom Services, Inc.Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch, Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Publication number: 20220362067Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay. After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: ApplicationFiled: July 15, 2022Publication date: November 17, 2022Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch (Deceased), Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Patent number: 11478383Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay. After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: GrantFiled: April 28, 2021Date of Patent: October 25, 2022Assignee: Hill-Rom Services, Inc.Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch, Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Publication number: 20220071571Abstract: A patient support apparatus includes a sensor capable of detecting vital signs, setting acceptable limits for the vital signs, and includes structures for monitoring the vital signs and providing local and/or remote indications to caregivers if the vital signs fall outside of acceptable limits.Type: ApplicationFiled: November 15, 2021Publication date: March 10, 2022Inventors: Robert M. ZERHUSEN, Dan R. TALLENT, Brandon P. FISK, Aziz A. BHAI, Eric D. BENZ, Robert D. WEITZ, John GOEWERT, Frank SAUSER, Nicholas C. BATTA, Edward J. KOORS, Jonathan D. TURNER, Richard H. HEIMBROCK, John G. BYERS, Nicholas A. MANN, Daniel MCCOY
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Publication number: 20220015972Abstract: A person lift system includes a motor and a sling bar coupled to the motor. The sling bar includes a first attachment hook at a first end region of the sling bar and a second attachment hook at a second end region of the sling bar. A patient-lift sling includes a sling body and a plurality of attachment straps coupled to the sling body. Each of the plurality of attachment straps is configured to attach to one of the plurality of attachment hooks.Type: ApplicationFiled: July 15, 2021Publication date: January 20, 2022Inventors: Alejandro Noe CONEJO CASTANO, Michael BUCCIERI, Morgan DREYER, Elin K. DOVERVIK, Jennifer D. SLAVIN, Edward J. KOORS
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Patent number: 11172892Abstract: A patient support apparatus includes a sensor capable of detecting vital signs, setting acceptable limits for the vital signs, and includes structures for monitoring the vital signs and providing local and/or remote indications to caregivers if the vital signs fall outside of acceptable limits.Type: GrantFiled: July 26, 2017Date of Patent: November 16, 2021Assignee: Hill-Rom Services, Inc.Inventors: Robert M. Zerhusen, Dan R. Tallent, Brandon P. Fisk, Aziz A. Bhai, Eric D. Benz, Robert D. Weitz, John Goewert, Frank Sauser, Nicholas C. Batta, Edward J. Koors, Jonathan D. Turner, Richard H. Heimbrock, John G. Byers, Nicholas A. Mann, Daniel McCoy
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Publication number: 20210244575Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay. After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: ApplicationFiled: April 28, 2021Publication date: August 12, 2021Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch (Deceased), Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Publication number: 20210184729Abstract: Patient care equipment includes a wireless coupler that transfers power and/or data between an architectural unit and the patient care equipment. The patient care equipment may also include additional wireless couplers that transfer power and/or data between first and second components of the equipment. The second component may be movable relative to the first component. A structure or hot swapping batteries is also disclosed, the swapped battery being charged on an inductive charging mat.Type: ApplicationFiled: February 23, 2021Publication date: June 17, 2021Inventors: Charles A. HOWELL, William G. PITTENGER, Michael S. HOOD, Edward J. KOORS, Steven A. DIXON, Richard J. SCHUMAN, Matthew D. MORGAN, Laurie Lee GUTZWILLER, Kelly F. WALTON
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Patent number: 11020284Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay, After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: GrantFiled: June 2, 2020Date of Patent: June 1, 2021Assignee: Hill-Rom Services, Inc.Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch, Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Patent number: 10938446Abstract: Patient care equipment includes a wireless coupler that transfers power and/or data between an architectural unit and the patient care equipment. The patient care equipment may also include additional wireless couplers that transfer power and/or data between first and second components of the equipment. The second component may be movable relative to the first component. A structure or hot swapping batteries is also disclosed, the swapped battery being charged on an inductive charging mat.Type: GrantFiled: September 5, 2018Date of Patent: March 2, 2021Assignee: Hill-Rom Services, Inc.Inventors: Charles A. Howell, William G. Pittenger, Michael S. Hood, Edward J. Koors, Steven Alan Dixon, Richard Joseph Schuman, Matthew D. Morgan, Laurie Lee Gutzwiller, Kelly F. Walton
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Publication number: 20200368076Abstract: A method of manufacturing incontinence detection pads that have wireless communication capability includes readying an RFID tag applicator to place RFID tags on backsheet material fed between a pair of nip rollers. The backsheet material has a series of electrode traces thereon. The method also includes operating a nip roller motor to feed the backsheet material between the pair of nip rollers and toward the RFID tag applicator, operating the RFID tag applicator to place each RFID tag across regions of a respective electrode trace of the series of electrode traces, and operating RFID tag test equipment to energize each RFID tag a first time and a second time using wireless emissions and receiving return signals from each RFID tag in response to the wireless emissions.Type: ApplicationFiled: April 23, 2020Publication date: November 26, 2020Inventors: Brett A. Knittle, Ryan S. Severns, James D. Voll, Nicholas Comparone, Edward J. Koors
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Publication number: 20200289338Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay, After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: ApplicationFiled: June 2, 2020Publication date: September 17, 2020Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch, Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Patent number: 10716715Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay. After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: GrantFiled: August 23, 2018Date of Patent: July 21, 2020Assignee: Hill-Rom Services, Inc.Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch, Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Publication number: 20190060137Abstract: An absorbent article has one or more fluid filter layers to inhibit electrode traces from being exposed to low volumes of fluid to reduce the number of false positives that are indicated by an RFID tag of the incontinence detection pad. An antenna inlay has a sacrificial trace portion to permit testing for proper operation of an RFID chip electrically coupled to the antenna inlay. After testing, the sacrificial trace portion is severed. A fluid barrier layer blocks fluid from reaching portions of electrode traces that are located on a backsheet outside a periphery of an absorbent core of an incontinence detection pad. The power at which an antenna transmits to wirelessly energize a passive RFID tag of an incontinence detection pad is controlled to reduce the number of false positives indicated by the RFID tag.Type: ApplicationFiled: August 23, 2018Publication date: February 28, 2019Inventors: Ryan S. Severns, James D. Voll, Brett A. Knittle, Gavin M. Monson, John V. Harmeyer, Charles A. Lachenbruch, Frank E. Sauser, Joseph T. Canter, Yongji Fu, Kirsten M. Emmons, David L. Ribble, Neal Wiggermann, John D. Christie, Dan R. Tallent, Marwan Nusair, Edward J. Koors
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Publication number: 20190007102Abstract: Patient care equipment includes a wireless coupler that transfers power and/or data between an architectural unit and the patient care equipment. The patient care equipment may also include additional wireless couplers that transfer power and/or data between first and second components of the equipment. The second component may be movable relative to the first component. A structure or hot swapping batteries is also disclosed, the swapped battery being charged on an inductive charging mat.Type: ApplicationFiled: September 5, 2018Publication date: January 3, 2019Inventors: Charles A. Howell, William G. Pittenger, Michael S. Hood, Edward J. Koors, Steven Alan Dixon, Richard Joseph Schuman, Matthew D. Morgan, Laurie Lee Gutzwiller, Kelly F. Walton
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Patent number: 10075214Abstract: Patient care equipment includes a wireless coupler that transfers power and/or data between an architectural unit and the patient care equipment. The patient care equipment may also include additional wireless couplers that transfer power and/or data between first and second components of the equipment. The second component may be movable relative to the first component. A structure or hot swapping batteries is also disclosed, the swapped battery being charged on an inductive charging mat.Type: GrantFiled: March 7, 2014Date of Patent: September 11, 2018Assignee: Hill-Rom Services, Inc.Inventors: Charles A. Howell, William G. Pittenger, Michael S. Hood, Edward J. Koors, Steven Alan Dixon, Richard Joseph Schuman, Matthew D. Morgan, Laurie Lee Gutzwiller, Kelly F. Walton
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Publication number: 20180184984Abstract: A patient support apparatus includes a sensor capable of detecting vital signs, setting acceptable limits for the vital signs, and includes structures for monitoring the vital signs and providing local and/or remote indications to caregivers if the vital signs fall outside of acceptable limits.Type: ApplicationFiled: July 26, 2017Publication date: July 5, 2018Inventors: Robert M. ZERHUSEN, Dan R. TALLENT, Brandon P. FISK, Aziz A. BHAI, Eric D. BENZ, Robert D. WEITZ, John GOEWERT, Frank SAUSER, Nicholas C. BATTA, Edward J. KOORS, Jonathan D. TURNER, Richard H. HEIMBROCK, John G. BYERS, Nicholas A. MANN, Daniel MCCOY