| 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 | System and method for registering the temperature of a person | US10544351 | 2004-02-02 | US20060139165A1 | 2006-06-29 | Gaby Bader |
| A system and method for registering the temperature of a person, wherein a textile product, intended to abut against the person during use, is provided with a number of temperature sensors and a registration unit for registering measurement values from the sensors. The system may be used for monitoring the state of a person, wherein a predetermined threshold condition is monitored, and an alarm signal is emitted to activate an alarm unit when the condition is fulfilled. The system may also be used for controlling physical characteristics of a foundation, such as temperature and/or hardness, based on the state of a person being present thereon. | ||||||
| 142 | Patient support | US11324520 | 2006-01-03 | US20060112489A1 | 2006-06-01 | John Bobey; Gregory Branson; Colin Clarke; Rachel Hopkins; David Lokhorst; Eric Meyer; Jonathan Mueller; Todd O'Neal; Robert Petrosenko; Stephen Schulte; Andrew Skinner; Michael Sleva; Sohrab Soltani; Richard Stacy; Daniel Stevens; Mayur Yermaneni |
| This disclosure describes certain exemplary embodiments of a patient support having a plurality of vertically-oriented on substantially can-shaped inflatable bladders. In one embodiment, the patient support includes a plurality of pressure sensors positioned underneath the bladders. In another embodiment, the patient support includes a support layer positioned above the vertical bladders. In still another embodiment, the patient support includes one or more filler portions that are selectable so that the patient support may conform to bed frames having different deck configurations. | ||||||
| 143 | Air mattress | US11210509 | 2005-08-23 | US20060053558A1 | 2006-03-16 | Yongfeng Ye |
| An air mattress includes a mattress envelope having a compartment and comprising a thermos functional layer and an outer layer overlapped thereon and an air cushion including a plurality of individual air chambers evenly disposed in the compartment of the mattress envelope and an air supplying tube communicatively interconnecting the air chamber with each other. A thermos control arrangement includes a liquid supplying tube spirally extending at the thermos functional layer of the mattress envelope for guiding a flow of thermos liquid and a thermos energy generator arranged to regulate a temperature of the thermos liquid such that when the thermos liquid passes through the liquid supplying tube, the thermos liquid thermo-communicating with the thermos functional layer of the mattress envelope towards the outer layer so as to regulate a temperature of the mattress envelope. | ||||||
| 144 | Modular medical-bed mattress with underlying bed pan | US09989573 | 2001-11-23 | US06523198B1 | 2003-02-25 | Barbara E. Temple |
| A mattress system includes a mattress unit having a plurality of self-contained mattress modules supported on a frame unit that is accommodated on an electric bed unit. The mattress modules are interchangeable, removable and replaceable whereby a bed can be customized for the particular needs of a patient and can also be changed as required for patient care and comfort. Also included in the mattress system is a bedpan, located beneath the central mattress modules. The bedpan can be utilized by removing the center mattress module. | ||||||
| 145 | Medical equipment controller | US10083197 | 2002-02-26 | US20020111701A1 | 2002-08-15 | Richard L. Borders |
| A patient support system comprises an articulated frame having a plurality of segments, a frame controller coupled to the frame to move at least one of the segments, a mattress having at least one chamber, a mattress controller coupled to the mattress to control an amount of fluid in the at least one chamber, and a user interface controller configured to send control signals to the frame controller and to the mattress controller. | ||||||
| 146 | Medical equipment controller | US09187825 | 1998-11-06 | US06351678B1 | 2002-02-26 | Richard L. Borders |
| A patient support apparatus comprises a base, a frame coupled to the base, and a mattress located on the frame to support a patient. The apparatus also includes a display and a controller coupled to the display. The controller is configured to provide a menu on the display of a plurality of predefined configurations of the frame and mattress, and the processor is configured to command the frame and mattress to move to a selected one of the plurality of predefined configurations based on a user input. | ||||||
| 147 | Body temperature responsive transport warming blanket | US521410 | 1990-05-10 | US5008515A | 1991-04-16 | William C. McCormack |
| An infant warming blanket is servo controlled by a temperature probe being taped to the abdominal skin of the infant. Through use of the blanket it is possible to maintain a constant body temperature. Access to localized areas of the body is possible by removal of blanket strips to expose the area requiring attention. The blanket has a first solid section to which a second section of individual strips having varying widths are integrally attached. The electrical heating elements run through both sections. | ||||||
| 148 | 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). | ||||||
| 149 | Patient contact compensating wheelchair | US13827971 | 2013-03-14 | US10130533B2 | 2018-11-20 | David Kurt Schneider |
| This patent pertains to patient contact compensating wheelchairs. One implementation includes a motorized base that includes a battery and a seat positioned above the base. In one instance, the seat can include a moisture permeable structure configured to support a patient and a fan configured to move air below the moisture permeable structure to carry moisture from the patient away from the moisture permeable structure. Another implementation includes a set of patient contact objects configured to alternatively contact first and then second portions of an underside of the moisture permeable structure so that at a first time more of the patient's weight is supported at the first portion than at the second portion and at a second time more of the patient's weight is supported at the second portion than at the first portion, to relieve contact pressure of the patient. | ||||||
| 150 | Patient support with air bladder control sensitive to an orientation angle sensor | US14302740 | 2014-06-12 | US10098798B2 | 2018-10-16 | Richard B. Stacy; Daniel K. Stevens; Karen Janoff; Jonathan H. Mueller; John Alan Bobey; Dennis Flessate; Reza Hakamiun; Charles A. Lachenbruch; Sohrab Soltani; Gregory W. Branson; Kenith W. Chambers; Rebecca Anne Ginther; Stephen L. Douglas; Eric R. Meyer; Christopher R. O'Keefe; Bradley T. Wilson; Darrell Borgman; Rachel Hopkins King |
| A patient support includes a cover defining an interior region, an air permeable first layer located in the interior region within the cover, a first air supply coupled to the first layer to provide air flow through the first layer, air bladders including a head zone and a seat zone located beneath the first layer, a first sensing assembly located beneath the head zone, a second air supply coupled to the air bladders to selectively inflate and deflate the air bladders, and a controller. The controller is coupled to the first and second air supplies to control inflation and deflation of the air bladders and to control air flow through the permeable layer. The controller also receives a signal from the first sensing assembly, determines whether the patient support is occupied, and adjusts air flow through the first layer based on the signal from the first sensing assembly. | ||||||
| 151 | Autonomous wheelchair | US15446371 | 2017-03-01 | US10052246B2 | 2018-08-21 | Michael Lozano; Marc Arceo |
| The present teachings provide for wheelchair including a control module, manual drive controls, a camera, biometric sensors, and an antenna. The control module includes an autonomous drive module configured to autonomously pilot the wheelchair. The biometric sensors are configured to measure biometric information of a user of the wheelchair. | ||||||
| 152 | THERMOELECTRIC TEMPERATURE CONTROLLED COOLER FOR BIOMEDICAL APPLICATIONS | US15715395 | 2017-09-26 | US20180098903A1 | 2018-04-12 | Julio L. Vergara; Andrew Padula; Lucas Restrepo |
| A heat exchanger module (HEM) and system uses a flexible substrate with one or more open channels, to which a substrate cover is bonded, thereby forming closed channels in the flexible substrate. Thermoelectric coolers (TECs) are attached to optional thermally diffusing copper squares atop the substrate cover. An interface cover is attached to the TEC tops, with a compliant thermally conductive material opposite the TECs and ultimately in contact with a patient. A liquid is passed through the closed channels, which act as thermal references for the TECs. Current is supplied by a controller to the TECs to induce TEC cooling or heating relative to the liquid. One or more temperature sensors detect the temperature of the interface cover, which are used as inputs to the control of the TEC supply current. The HEM may be used for heating, cooling, or cycling between heating and cooling for various medical uses. | ||||||
| 153 | MICROCLIMATE MANAGEMENT SYSTEM WITH WIRELESS SENSORS | US15392762 | 2016-12-28 | US20180000633A1 | 2018-01-04 | Leigh Scott Coleman, II; Philippe Kaikenger; Catherine King; Samuel Lai; Alisa Robinson Salibra; Kristen L. Stebbins; Dan R. Tallent; Todd Ventrola; Rachel Williamson |
| A method for monitoring an environment for a patient on a patient support device can include: receiving a temperature reading from a wireless sensor coupled to a body of the patient; comparing the temperature reading to air flowing through an airflow system associated with the patient support device; and modifying the air flowing through the airflow system. | ||||||
| 154 | Backrest, method for adjusting a backrest and (wheel) chair provided with a backrest | US14113687 | 2012-04-26 | US09827155B2 | 2017-11-28 | Alouisius Gerhardus Huttenhuis; Tijn Pieter Lodewijk Huttenhuis |
| The invention relates to a backrest for supporting the back of a seated person, the backrest comprising mounting means for mounting the backrest on a frame of a seating device; comprising: —a first back part for supporting at least a part of the back of the person at a determined angle, which first back part has a stiffness such that during use the part of the back shapes itself substantially to the first back part, and wherein the backrest comprises adjusting means for adjusting the angle and/or the position of the first back part relative to the frame; and —a second back part which has a flexibility such that during use the second back part shapes itself substantially continuously to another part of the back of the person. The invention further relates to a method for adjusting such a backrest and a (wheel) chair provided with such a backrest. | ||||||
| 155 | PATIENT SUPPORT APPARATUS HAVING AN INTEGRATED LIMB COMPRESSION DEVICE | US15432991 | 2017-02-15 | US20170239131A1 | 2017-08-24 | David J. BRZENCHEK; Richard J. SCHUMAN, SR.; Jonathan D. TURNER; James L. WALKE; Richard H. HEIMBROCK; Robert M. ZERHUSEN; Thomas M. GILLIS |
| A patient support apparatus includes a frame having a patient support deck. A footboard is removably coupled to the frame. A compression therapy module is located inside the footboard or is mounted to a foot section of the frame. A sleeve port is pneumatically coupled to the compression therapy module and is located on the foot section. The sleeve port is configured for attachment to at least one tube extending from a compression sleeve worn on a limb of a patient. Control circuitry is coupled to the frame and is operable to control functions of the patient support apparatus and to control the compression therapy module. A graphical display screen is coupled to the control circuitry and displays user inputs that are selected to control functions of the patient support apparatus and the compression therapy module. | ||||||
| 156 | System for cooling a hyperbaric chamber | US13923467 | 2013-06-21 | US09664202B2 | 2017-05-30 | Bruce Elgin McKeeman |
| A system for cooling a hyperbaric chamber includes a compressor, a first hose, a cooling unit, a second hose, and a hyperbaric chamber. The first hose fluidly connects the compressor to the cooling unit, and the second hose fluidly connects the cooling units to the hyperbaric chamber. Compressed air from the compressor travels through a first pressure relief fitting and a second pressure relief fitting, where the compressed air is depressurized according to the system requirements. During the depressurization, the compressed air cools down because of the depressurization and creates a comfortable environment within the hyperbaric chamber. | ||||||
| 157 | THERAPEUTIC BED OR GURNEY FOR THERMAL DIAGNOSIS AND TREATMENT OF A HUMAN | US15332738 | 2016-10-24 | US20170112660A1 | 2017-04-27 | Marcio Marc ABREU |
| The described apparatuses, devices, and mechanisms are configured to measure the temperature of one or more Abreu brain thermal tunnel (ABTT) terminuses. In addition, some embodiments are configured to provide treatment for the diagnosed conditions and diseases. | ||||||
| 158 | Patient Support with an Air Permeable Layer and with Air Flow Through the Air Permeable Layer Controlled as a Function of Pressure Sensed at a Pressure Sensing Layer | US15234244 | 2016-08-11 | US20170014289A1 | 2017-01-19 | Richard B. Stacy; Daniel K. Stevens; Karen Janoff; Jonathan H. Mueller; John Alan Bobey; Dennis Flessate; Reza Hakamiun; Charles A. Lachenbruch; Sohrab Soltani; Gregory W. Branson; Kenith W. Chambers; Rebecca Anne Ginther; Stephen L. Douglas; Eric R. Meyer; Christopher R. O'Keefe; Bradley T. Wilson; Darrell Borgman; Rachel Hopkins King |
| A patient support includes a cover defining an interior region, an air permeable first layer located in the interior region, at least one air supply coupled to the first layer to provide air flow through the first layer, a support layer located beneath the air permeable first layer, a pressure sensing layer located underneath the support layer, and a controller coupled to the air supply and to the pressure sensing layer. The controller controls air flow through the first layer in response to a signal from the pressure sensing layer. | ||||||
| 159 | Person support systems | US14508690 | 2014-10-07 | US09526348B2 | 2016-12-27 | Sandy M. Richards; Sam M. Alsaeede; Andrew Kerr; Stephen C. Flint; Christopher R. O'Keefe; Charles A. Lachenbruch |
| A person-support surface comprises a non powered mattress and a coverlet positionable on the non powered mattress. The coverlet includes an entry positioned at a first end of the coverlet, an exit positioned at a second end of the coverlet opposite the entry, an upper air impermeable layer, and a lower air impermeable layer coupled to the upper air impermeable layer to form an air flow path along the coverlet between the entry and the exit. The upper air impermeable layer is a vapor permeable and the lower air impermeable layer is a vapor permeable. | ||||||
| 160 | ZONE HEATING FOR RESPIRATORY CIRCUITS | US14442688 | 2013-11-14 | US20160354573A1 | 2016-12-08 | Matthew Liam Buswell; Helen Cuddy; Thomas James Edwards; Gavin Walsh Millar; Helgard Oosthuysen; Andre van Schalkwyk; Ian Lee Wai Kwan; Ping Si; Sinaa Alnashi; Kieran Michael Orchard; Ibrahim Al-Tiay; Elmo Benson Stoks; Charles Christopher North; Matthew Robert Wilson; Paul James Tonkin |
| Some embodiments provide for an inspiratory limb for a breathing circuit that includes a first segment that comprises a first heater wire circuit and a second segment that comprises a second heater wire circuit. The inspiratory limb can include an intermediate connector that includes a connection circuit that electrically couples the first heater wire circuit to the second heater wire circuit. The inspiratory limb can be configured to operate in two modes wherein, in a first mode, electrical power passes through the first electrical connection to provide power to the first heater wire circuit without providing power to the second heater wire circuit, and in a second mode, electrical power pass through the first electrical connection to provide power to both the first heater wire circuit and the second heater wire circuit. | ||||||
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