| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Zusammenfaltbarer Leichensack und forensisches System | EP10016133.0 | 2010-12-28 | EP2340801A3 | 2012-09-19 | Berg, Michael |
Die Erfindung betrifft einen zusammenfaltbaren Leichensack (1) mit einer Deckseite (2) und einer Bodenseite (3), der im auseinandergefalteten Zustand einen Aufnahmeraum bildet, wobei zwischen Deckseite (2) und Bodenseite (3) liegende Seiten- (41, 42) und Kopfwandbereiche (5) vorgesehen sind, wobei die Seiten- (41, 42) und Kopfwandbereiche (5) so geformt sind, dass diese insbesondere bei leerem Zustand des Leichensacks (1) unter Bildung einer Seitenwandfalte (43) und einer Kopfwandfalte (51) ein- bzw. ausgeschlagen sind, die sich diese in etwa in der Mitte (M) der Seiten- (41, 42) und Kopfwandbereiche (5) über deren Verlauf parallel zu den durch die Deckseite (21) und/oder die Bodenseite (31) definierten Ebenen erstrecken.
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| 142 | Sensor system, sensor array and cover member | EP10152351.2 | 2010-02-02 | EP2351521A1 | 2011-08-03 | Bruekers, Alphons, A.M.L.; Breebaart, Dirk, J; Boughorbel, Sabri |
A sensor system (100) is disclosed, comprising a sensor array (110), the sensor array (110) comprising a substrate layer (120, 150) and a plurality of individual sensor elements (130) for measuring a desired parameter arranged on said substrate layer (120, 150), the sensor elements (130) defining a sensor plane (140). The system comprises a control unit (170), a cover member (160) that is removably positionable over at least said substrate layer (120, 150), so as to cover said sensor plane (140), and a combination of at least one detector (200) and at least one data carrier (210, 211) that carries identification data relating to the cover member (210).
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| 143 | Zusammenfaltbarer Leichensack und forensisches System | EP10016133.0 | 2010-12-28 | EP2340801A2 | 2011-07-06 | Berg, Michael |
Die Erfindung betrifft einen zusammenfaltbaren Leichensack (1) mit einer Deckseite (2) und einer Bodenseite (3), der im auseinandergefalteten Zustand einen Aufnahmeraum bildet, wobei zwischen Deckseite (2) und Bodenseite (3) liegende Seiten- (41, 42) und Kopfwandbereiche (5) vorgesehen sind, wobei die Seiten- (41, 42) und Kopfwandbereiche (5) so geformt sind, dass diese insbesondere bei leerem Zustand des Leichensacks (1) unter Bildung einer Seitenwandfalte (43) und einer Kopfwandfalte (51) ein- bzw. ausgeschlagen sind, die sich diese in etwa in der Mitte (M) der Seiten- (41, 42) und Kopfwandbereiche (5) über deren Verlauf parallel zu den durch die Deckseite (21) und/oder die Bodenseite (31) definierten Ebenen erstrecken.
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| 144 | SUPPORT PANEL, BED ASSEMBLY AND MOUNTING METHOD | US16099681 | 2017-05-12 | US20190183251A1 | 2019-06-20 | Haymo NIEDERKOFLER; Walter KOCH |
| A support panel (16) is provided comprising a base member (11), the base member (11) being the mechanically stabilizing component of the support panel (11), at least one mechanical coupler (18) on the base member (11), an identifier which can electronically be read out through the at least one second electrical connector (28), at least one second electrical connector (28) located on the base member (11), and at least one functional module (34) selected from a sensor, an actuator, a control unit, an electrical link, and a power supply, wherein the at least one mechanical coupler (18) and the at least one second electrical connector (28) are designed for reversible mechanical and electrical connection to a bed frame assembly (30), and wherein a top surface (17) of the support panel (16), opposite to the bottom surface (15), is designed to be applied with a mattress (20). | ||||||
| 145 | SYSTEM, APPARATUS AND METHOD FOR SUPPORTING AND/OR POSITIONING A PATIENT BEFORE, DURING, OR AFTER A MEDICAL PROCEDURE | US15610486 | 2017-05-31 | US20180344559A1 | 2018-12-06 | Stephen Hoel; Peter E. Wagner; Gregory F. Hirth; Charles S. Ladd |
| A system for supporting or positioning a patient before, during, or after a medical procedure can include a platform configured to support at least a portion of a patient. A support column can be positioned beneath the platform. A base can be positioned beneath the support column and configured to support the support column. The base can include at least one drive wheel configured to contact a ground surface and move the platform with respect to the ground surface. A drive assist user interface module can be operatively connected to the at least one drive wheel. The drive assist user interface module can be configured to permit an operator of the system to selectively control movement of the at least one drive wheel. The drive assist user interface module can be part of or be attached to an attachment that includes a plate having a top surface. In one configuration, the top surface of the plate can be configured to extend parallel with a top surface of the platform when the attachment is attached to the platform. | ||||||
| 146 | Medical pad and a wetness reporting system with such a medical pad | US14875809 | 2015-10-06 | US10134489B2 | 2018-11-20 | Kin Yue Albert Lai; Cheuk Kuen Kenny Chan; Man Wai Law; Kwok Wah Sit; Ngai Yin Chan; Siu Chong Tin; Wai Kin Chan; Tak Leung Siu; Yick Ming Yeung; Jerry Garrett |
| A medical pad includes a piece of substrate with a major surface and an electric circuit on the major surface, a sensor connected with the electric circuit for measuring the electrical resistance of the electric circuit, and a wireless data transceiver or a radio frequency identification (RFID) tag electrically connected with the sensor for receiving results of the measuring from the sensor for subsequent transmission. The system carries out real time self-calibration to adaptively monitor the condition of a medical pad even in the face of changing environment and changing material properties. | ||||||
| 147 | INCONTINENCE DETECTION PAD VALIDATION APPARATUS AND METHOD | US16040816 | 2018-07-20 | US20180325744A1 | 2018-11-15 | Bryan Weidman; Gavin M. Monson; John D. Christie; James D. Voll |
| An incontinence detection pad has an RFID tag in which an authentication code, such as an electronic product code (EPC), is stored. A reader in wireless communication with the RFID tag of the incontinence detection pad verifies that the incontinence detection pad is an authorized detection pad. Thus, unauthorized incontinence detection pads that do not have the proper authentication code are not able to be used in an incontinence detection system. | ||||||
| 148 | Methods and systems for automatically articulating cots | US15300427 | 2015-04-03 | US10117794B2 | 2018-11-06 | Joseph G. Bourgraf; Brian Michael Magill |
| A power ambulance cot having a cot control system operably connected to a cot actuation system to control independent raising and lowering of front and back legs thereof, and which detects a presence of a signal requesting a change in elevation of a support frame thereof and causes the cot actuation system to raising or the lowering of the front and/or back legs automatically upon detecting a condition during loading/unloading a patient from an emergency vehicle or transporting the patient up or down an esculator and methods thereafter are disclosed. | ||||||
| 149 | Location-based incontinence detection | US15490109 | 2017-04-18 | US10115291B2 | 2018-10-30 | Dan R. Tallent; Gavin M. Monson; James D. Voll; Victor Potter |
| The present disclosure include devices, systems, and methods for location-based incontinence detection and monitoring including a communication device receiving incontinence event indicators occurrence and location indicators. | ||||||
| 150 | METHOD OF PATIENT CARE DEVICE INTEGRATION WITH A HOSPITAL BED | US16010764 | 2018-06-18 | US20180296413A1 | 2018-10-18 | David L. Ribble; Nicholas A. Mann; Brian L. Lawrence; Kristen M. Emmons; Eric D. Agdeppa; Michael S. Hood; Robert M. Zerhusen; Joshua P. Lingenfelser; Steven A. Dixon; Ryan S. Severns |
| Catheter monitor integration with patient support systems, such as patient beds, and with other healthcare communication systems including hand hygiene systems is provided. A patient bed that transmits bed data and catheter monitor data is disclosed. When catheter tubing is connected to a catheter monitor integrated into a patient bed, the bed automatically implements a falls prevention protocol. A countdown timer pertaining to removal of catheter tubing from a patient is displayed on one or more display devices. Monitoring for caregiver handwashing compliance in connection with use of a catheter monitor or a catheter kit is also provided. | ||||||
| 151 | Apparatus for Wireless Power Transmission Between an External Power Source and an Electric Mobility Vehicle | US15993586 | 2018-05-30 | US20180278079A1 | 2018-09-27 | Brian Maxfield; Andrew Walker; James Lester; Wing Ming Lam |
| Disclosed is an apparatus for wireless power transmission between an external power source and an electric mobility vehicle. | ||||||
| 152 | Modular and fully traceable delivery system | US15374436 | 2016-12-09 | US10045899B2 | 2018-08-14 | Maro Sciacchitano; Aubrey Jones; Chris Miller; Rody Hardy |
| The exemplary embodiments herein provide a medical cart having a drawer with a post which extends upwardly from a bottom surface of the drawer. The cart further includes a removable medication delivery module having four sidewalls and a bottom wall as well as a plurality of individually-lockable bins placed above the bottom wall and within the four sidewalls. A lock may be positioned above the bottom wall and below the plurality of individually-lockable bins with an aperture on the lock which engages with the post and a hole in the bottom wall sized to accept the post. | ||||||
| 153 | Modular Monitoring Smart Bed | US15883428 | 2018-01-30 | US20180214091A1 | 2018-08-02 | Steven D. Baker; Rachel Williamson; Samuel Lai; Kristen L. Stebbins; Philippe Kaikenger; Catherine King; Leigh Scott Coleman II; Alisa Robinson Salibra; Todd Ventrola; Dan R. Tallent |
| A patient monitoring system includes sensors, a patient support assembly, and a gateway device and/or control module. Example sensors include physiological sensors and patient status devices. The sensors acquire patient-related data. Patient related action is determined based on the patient-related data. | ||||||
| 154 | Reconfigurable Patient Support Device and Patient Support System | US15453980 | 2017-03-09 | US20180185228A1 | 2018-07-05 | Anthony V. Catacchio; Andrew D. Clark; Phillip B. Dolliver; Jesse S. Drake; Christopher B. Dubois; Zachary B. Konsin; Michael C. Pierce |
| A patient support device includes an alternate support top, a head support unit partially supporting the alternate support top, a foot support unit longitudinally spaced from the head support unit and an adaptor associated with the foot support unit. The adaptor is securable to the foot support unit so that the adaptor and foot support unit cooperate to partially support the alternate support top so that the alternate support top extends footwardly beyond the foot support unit. The roles of the head and foot suppport units may be reversed. A related patient support system includes a baseline set of support tops and a set of alternate support tops. | ||||||
| 155 | ELECTRIC WHEELCHAIR, CONTROL METHOD THEREOF AND CONTROL SYSTEM THEREOF | US15388348 | 2016-12-22 | US20180072161A1 | 2018-03-15 | Li-Zen Lin; Pin-Yung Chen; Yi-Ling Lin; Chin-Chang Chen |
| An electric wheelchair, a control method thereof and a control system thereof are provided. The control method includes the following steps. Firstly, a control signal is outputted to the electric wheelchair by way of wireless according to a posture of a handheld controller. Then, the electric wheelchair performs a corresponding motion according to the control signal. | ||||||
| 156 | INCONTINENCE DETECTION APPARATUS | US15708589 | 2017-09-19 | US20180021184A1 | 2018-01-25 | Gavin M. Monson; Todd P. O'Neal; David L. Ribble; Dan R. Tallent; John D. Christie; Kirsten M. Emmons; Yongji Fu; Michael S. Hood; Douglas A. Seim; Ryan S. Severns; James D. Voll; Gregory Wiley; Steven A. Dixon; Bryan Weidman; Eric D. Benz; Brett Knittle; Marwan Nusair; Neal Wiggermann; John V. Harmeyer |
| An incontinence detection system monitors an area for moisture events and wirelessly transmits moisture-related information to one or more notification devices. The system has a pad that includes a substrate and one or more sensors supported by the substrate. The sensor(s) emit wireless signals indicative of the moisture-related information. A sensor event communication system forwards the sensor signals to another device, such as a notification device. Portions of the system are included in a patient support apparatus, such as a bed. | ||||||
| 157 | Patient support apparatus communication systems | US14559458 | 2014-12-03 | US09838836B2 | 2017-12-05 | Michael Joseph Hayes; Anuj K. Sidhu; Jonathan Mark Greenbank; Aaron Douglas Furman; Richard C. Mayoras, Jr.; David Terrance Becker |
| A location detection system for person support apparatuses includes multiple network wireless access points that communicate with a plurality of mobile transceivers positioned on board the person support apparatuses. Based upon signal strength data (e.g. RSSI or RCPI) of messages from the access points to the transceivers, the locations of the person support apparatuses are determined. In some embodiments, the person support apparatuses include an additional location detection system that utilizes fixed locators having short range transceivers to generate a second location determination of the person support apparatuses. In still other embodiments, the person support apparatuses utilize the second location detection system to determine the location of the wireless access points. The person support apparatuses may also broadcast their location to other devices that then utilize the received signal strengths of those messages to determine their own location. | ||||||
| 158 | Lifting apparatus and associated methods | US14123366 | 2012-05-31 | US09814643B2 | 2017-11-14 | Joshua Nicholas George Reid |
| A lifting apparatus and associated methods for raising a user in a body of water. The lifting apparatus includes a platform configured to receive a wheelchair. The apparatus is reconfigurable between a raised configuration; a lowered configuration; and a storage configuration. The apparatus is configured to maintain the platform in a substantially horizontal orientation in the raised, lowered and storage configurations. | ||||||
| 159 | PATIENT CARE DEVICE INTEGRATION WITH A HOSPITAL BED | US15498919 | 2017-04-27 | US20170224561A1 | 2017-08-10 | David L. Ribble; Nicholas A. Mann; Brian L. Lawrence; Kristen M. Emmons; Eric D. Agdeppa; Michael S. Hood; Robert M. Zerhusen; Joshua P. Lingenfelser; Steven A. Dixon; Ryan S. Severns |
| Catheter monitor integration with patient support systems, such as patient beds, and with other healthcare communication systems including hand hygiene systems is provided. A patient bed that transmits bed data and catheter monitor data is disclosed. When catheter tubing is connected to a catheter monitor integrated into a patient bed, the bed automatically implements a falls prevention protocol. A countdown timer pertaining to removal of catheter tubing from a patient is displayed on one or more display devices. Monitoring for caregiver handwashing compliance in connection with use of a catheter monitor or a catheter kit is also provided. | ||||||
| 160 | POLIFUNCTIONAL BED | US15039185 | 2014-11-25 | US20170135492A1 | 2017-05-18 | Roberto Biancofiore |
| A multi-functional bed (1) includes a base (2) and a frame supported by the aforesaid base (2). The frame (4) is configured for receiving a user (U) and includes an end region (H) where, when a user (U) is lying on the bed (1), the head (HE) of the user (U) is received, The bed (1) includes a first diffusion module and a second diffusion module (28, 30; 28′, 30′; 280, 300) located in the end region (H) and configured for diffusion of at least one from among an active agent, a sound signal; and a visual signal. Each of the diffusion modules (28, 30; 28′, 30′; 280, 300) is mobile between a resting position and a working position, where, in the working position, the diffusion modules (28, 30; 28′, 30′; 280, 300) are oriented towards the head (HE) of the user (U). | ||||||
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