| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | EMERGENCY VEHICLE PATIENT TRANSPORT SYSTEMS | US14085883 | 2013-11-21 | US20140062118A1 | 2014-03-06 | Joseph G. Bourgraf; Timothy Robert Wells; Timothy Paul Schroeder |
| Emergency vehicle patient transport systems are disclosed. In one embodiment, an emergency vehicle patient transport system includes: a loading passage providing access to an interior of an emergency vehicle; one or more tracks coupled to a floor of the emergency vehicle, a ceiling of the emergency vehicle, a wall of the emergency vehicle or combinations thereof wherein, a travel path is delineated by the one or more tracks; and a chair slidingly engaged with the one or more tracks, and vertically positioned between the floor and the ceiling. The chair locks in one or more set positions. And, the one or more set positions are selected from a group consisting of an airway care position, an extended airway care position, a procedural care position, a responder position, a patient care position, and a patient load position. | ||||||
| 82 | Mobile Treatment, Diagnostic and Minor Surgery Facility | US13681454 | 2012-11-20 | US20130154296A1 | 2013-06-20 | Thomas H. Blackwell; Timothy J. Masud; Jeffrey D. Fischer |
| The invention is directed to a mobile medical facility capable of treating, diagnosing and performing minor surgery on multiple patients at one time. In general, the facility includes a health care area which is interchangeable between a first transportable configuration and a second, operational configuration. In the operational configuration, the health care area is expanded and capable of providing general care or diagnostic facilities to multiple patients as well as registration, counseling and triage to at least one patient. Preferable a row of patient treatment bays are provided with intake, counseling and triage cubicles and storage areas. | ||||||
| 83 | Mobile multiple modality containment suite | US12675429 | 2008-08-26 | US08412305B2 | 2013-04-02 | Michael G. Ambrosia; Dennis K. Everett |
| There are occasions when a medical facility has the need to image subject that have been contaminated with a hazardous or communicable chemical or biological agent. Occurrences of such conditions are often too remote to justify having diagnostic scanners dedicated to such imaging. A contaminated or “hot” chamber (20) interfaces with one or more uncontaminated imaging suites or “cold” chambers (22). The hot chamber (20) includes barrier walls (16) with selectively deployable containment tubes (14) that when deployed, are sealed with the barrier wall (16) and extend from the barrier wall into the gantry of the cold chamber scanners. The tubes (14) extend the hot chamber (20) can be extended into the cold chambers (22) for imaging while remaining sealed, isolating the hot subjects from the cold imaging equipment. The imagers can thus be used for both normal clinical scanning and hot patient scanning. | ||||||
| 84 | Transportable emergency response station for treatment or transportation of persons on stretchers | US13357672 | 2012-01-25 | US08366167B2 | 2013-02-05 | Edward Lewis Sartin; Edward Austin Sartin |
| The invention relates to a vehicle used in transporting or treating large numbers of victims or patients from a mass-casualty incident to or from a hospital in an evacuation situation. The typical vehicle contains a stacked stretcher system, a loading ramp system, and an oxygen system. This vehicle must have an independent energy source or must be capable of being powered by an outside energy source. The vehicle can be flexible enough to provide facilities for treatment of victims either at the site of a disaster, in route from the disaster, at any remote site, or near a healthcare facility. A variation of the vehicle contains refrigeration or freezer units and is capable of transporting or maintaining casualties until mortuary services can be obtained. Variations of the equipment include trays made of stainless steel, stretchers that can be easily cleaned and that allow for easy drainage of liquids. | ||||||
| 85 | Bracket for retaining cylindrical tank vertically upright | US13385261 | 2012-02-10 | US20120286120A1 | 2012-11-15 | Michael P. Ziaylek; W. Brian McGinty |
| A bracket construction for fixedly securing a cylindrical tank such as the oxygen tank of an emergency vehicle in a vertically upright position wherein the tank is easily releasable which accommodates various sizes and configurations of upper neck sections having a backing plate with a lower surrounding member for receiving and retaining the tank bottom therewithin and an upper surrounding member including a U-shaped channel for receiving the tank neck therewithin. Two uniquely shaped bracket cams are pivotally mounted relative to the upper surrounding member and resiliently biased with respect thereto such that they can be manually manipulated or directly contacted by the arcuate neck of a tank to move to the opened position to allow exiting or entry of the tank. A lower auxiliary floor surface is pivotally secured relative to the lower surrounding member for varying the vertical dimension for accommodating tanks of various lengths and shapes. | ||||||
| 86 | Patient transport vehicle | US12655721 | 2010-01-06 | US08303011B2 | 2012-11-06 | Mark E. Benden; Eric K. Wilke |
| The present invention provides an emergency medical transportation vehicle comprising a two or three-wheeled motorcycle having a structural frame that encompasses a platform horizontally disposed along the wheel-base, where the platform has a front flat surface, and two rear surfaces extending from the front flat surface on either side of the rear wheel. The rear surfaces have sides extending vertically therefrom. The motorcycle carries the load of driver and patient, provides a safe, stable patient transportation, where passenger and rider are in one plane with the rider below and in complete view of the driver. The vehicle has a movable seat for the driver and chambers for placement of emergency medical equipment and supplies. | ||||||
| 87 | MOBILE IMAGING UNIT WITH ENVIRONMENTAL CONTAINMENT | US13322577 | 2010-05-12 | US20120136196A1 | 2012-05-31 | David L. Foxall; Daniel Lamb |
| A system comprises: an isolation tube (42, 82) extending into a clean area (14), the isolation tube having a closed end (44) and an opposite open end (46) that is open to a contamination area (12) adjacent the clean area in order to receive an imaging subject from the contamination area; and an imaging apparatus (40, 80) disposed in the clean area and movable along the isolation tube in order to image a subject in the isolation tube at a plurality of different positions along the isolation tube. In some more specific embodiments, the system further includes a vehicle (10) having an interior including the contamination area (12) and the adjacent clean area (14) wherein the system is a mobile imaging unit. | ||||||
| 88 | Mobile radiation therapy | US12454109 | 2009-05-12 | US08177274B2 | 2012-05-15 | Mark Elliot Pomper |
| The invention provides techniques for diagnosing medical conditions and providing appropriate treatment at a patient's home residence. A mobile x-ray team can be dispatched to the patient's home residence. A technical team reviews patient data to determine a proper therapy plan. A mobile radiation therapy apparatus is dispatched to the patient's home as required by the therapy plan. The mobile radiation therapy apparatus includes a radiation source and shielding, and is capable of superficial radiation therapy and/or High Dose Rate (HDR) implant therapy. For HDR therapy, the mobile radiation therapy apparatus itself is a specialized radiation vault which the patient will enter. The technical team adjusts the therapy plan based on the additional analysis, and the mobile radiation therapy apparatus is dispatched in accordance with adjusted therapy plan. | ||||||
| 89 | MOBILE RADIATION THERAPY | US13249551 | 2011-09-30 | US20120069961A1 | 2012-03-22 | Mark Elliot Pomper; Aleksander Jocic |
| The invention provides techniques for diagnosing medical conditions and providing appropriate treatment at a patient's home residence. A mobile x-ray team can be dispatched to the patient's home residence. A technical team reviews patient data to determine a proper therapy plan. A mobile radiation therapy apparatus is dispatched to the patient's home as required by the therapy plan. The mobile radiation therapy apparatus includes a radiation source and shielding, and is capable of superficial radiation therapy and/or High Dose Rate (HDR), Low Dose Rate (LDR), and Medium Dose Rate (MDR) implant therapy and/or particle thereapy. For HDR, LDR and MDR therapy, the mobile radiation therapy apparatus itself is a specialized radiation vault which the patient will enter. The technical team adjusts the therapy plan based on the additional analysis, and the mobile radiation therapy apparatus is dispatched in accordance with adjusted therapy plan. | ||||||
| 90 | MOBILE CONTAINERISED AUTOPSY FACILITY | US13212701 | 2011-08-18 | US20120032464A1 | 2012-02-09 | Peng Sun Paul Chui; Weng Tim Chong; Weng Kai Chong |
| The present invention relates to a containerised autopsy facility with standard hygienic procedures and precautions applied to normal medical operations within a conventional health care centre and the like, hereinafter also known as BSL2, comprises a permanent or semi-permanent structure into which therein is provided all necessary autopsy (instruments/equipment) facilities. | ||||||
| 91 | All terrain retrieval vehicle for medical emergencies | US10324630 | 2002-12-20 | US08025325B1 | 2011-09-27 | Brian E. Carrier; Anthony Wiles |
| A vehicle for fighting fires, retrieving hazardous materials, performing rescues and providing emergency medical services in remote areas comprises an all terrain vehicle suitably equipped for the task it is intended to carry out. As a vehicle for retrieving hazardous materials, it is equipped with a crane (202) to lift a container (204) of waste onto its deck (206). For emergency medical services and searches and rescues, it has a full length protective wire mesh (252) over driver and occupants and a stretcher (254) elevated on cabinetry (258) so that the stretcher extends over the seat back to fit within the confines of the mesh. | ||||||
| 92 | Mobile medical facility | US10552135 | 2005-05-09 | US07794001B2 | 2010-09-14 | Thomas H. Blackwell; Kevin T. Staley |
| A mobile medical facility capable of treating a plurality of patients and being transported over the roadways without requiring extensive transporting means. In general the mobile medical facility includes a trailer. The trailer defines a floor area and has at least a first and second configuration. In the first configuration, the floor area is reduced to allow for transporting of the trailer over the public highways. In the second configuration, the floor area of the trailer is expanded and large enough to support a plurality of beds for treating patients. In some embodiments, the floor area in the second configuration may be at least twice as large as the floor area in the first configuration. | ||||||
| 93 | MEDICAL BLOCK FOR THE CABIN OF AN AIRCRAFT, ASSOCIATED WITH A COUCHETTE | US11917356 | 2006-06-09 | US20090302156A1 | 2009-12-10 | Bruno Saint-Jalmes; Andre Rezag; Jason Zaneboni |
| The invention relates to a medical block associated with a couchette (2) for a patient to lie on, said block comprising: a water supply; a power supply; a stop region for at least one trolley (12); at least one trolley (12) located in the stop region and comprising drawers containing medical equipment; and an access flap corresponding to each trolley (12), provided with locking means and enabling the drawers of the trolley to be accessed. | ||||||
| 94 | Mobile radiation therapy | US11687225 | 2007-03-16 | US07530616B2 | 2009-05-12 | Mark Elliot Pomper |
| The invention provide techniques for diagnosing medical conditions and providing appropriate treatment at a patient's home residence. A mobile x-ray team can be dispatched to the patient's home residence. A technical team reviews patient data to determine a proper therapy plan. A mobile radiation therapy apparatus is dispatched to the patient's home as required by the therapy plan. The mobile radiation therapy apparatus includes a radiation source and shielding, and is capable of superficial radiation therapy and/or High Dose Rate (HDR) implant therapy. For HDR therapy, the mobile radiation therapy apparatus itself is a specialized radiation vault which the patient will enter. The technical team adjusts the therapy plan based on the additional analysis, and the mobile radiation therapy apparatus is dispatched in accordance with adjusted therapy plan. | ||||||
| 95 | Mobile Radiation Therapy | US11687225 | 2007-03-16 | US20070269008A1 | 2007-11-22 | Mark Elliot Pomper |
| The invention provide techniques for diagnosing medical conditions and providing appropriate treatment at a patient's home residence. A mobile x-ray team can be dispatched to the patient's home residence. A technical team reviews patient data to determine a proper therapy plan. A mobile radiation therapy apparatus is dispatched to the patient's home as required by the therapy plan. The mobile radiation therapy apparatus includes a radiation source and shielding, and is capable of superficial radiation therapy and/or High Dose Rate (HDR) implant therapy. For HDR therapy, the mobile radiation therapy apparatus itself is a specialized radiation vault which the patient will enter. The technical team adjusts the therapy plan based on the additional analysis, and the mobile radiation therapy apparatus is dispatched in accordance with adjusted therapy plan. | ||||||
| 96 | Mobile medical facility | US10552135 | 2005-05-09 | US20070102946A1 | 2007-05-10 | Thomas Blackwell; Kevin Staley |
| A mobile medical facility capable of treating a plurality of patients and being transported over the roadways without requiring extensive transporting means. In general the mobile medical facility includes a trailer. The trailer defines a floor area and has at least a first and second configuration. In the first configuration, the floor area is reduced to allow for transporting of the trailer over the public highways. In the second configuration, the floor area of the trailer is expanded and large enough to support a plurality of beds for treating patients. In some embodiments, the floor area in the second configuration may be at least twice as large as the floor area in the first configuration. | ||||||
| 97 | Cart for inflatable beds | US10409035 | 2003-04-08 | US20040201204A1 | 2004-10-14 | A. Ralph Haire |
| There is provided a cart for transporting inflatable or foldable mattresses and a vehicle with a storage compartment for storing the cart. The cart includes a top tray, a bottom tray, wheels, and a support frame. The top tray includes extendable portions mounted to a stationary portion so that the top tray can be converted from a contracted configuration to an extended configuration having a length longer than the length of the contracted configuration. The cart provides transport for folded mattresses in the contracted configuration and provides support for unfolded mattresses in the extended configuration. The support frame connects the top tray to the bottom tray and wheels and allows the top tray to be lowered from an operable position substantially above the bottom tray and wheels to a storage position where the top tray is proximate the bottom tray and wheels. The storage compartment on the vehicle advantageously is located on the vehicle between the passenger cabin and the rear wheel well and includes a shelf which extends outward and supports the cart in the storage position, so that the cart may be inserted into the storage compartment. | ||||||
| 98 | Telemedical method and system | US09790308 | 2001-02-22 | US20030060808A1 | 2003-03-27 | Peter J. Wilk |
| Using a mobile medical facility such as a surgical operating room, a physician may perform various diagnostic and surgical instruments on a patient located at a distance from the physician. The mobile medical facility is carried on a vehicle such as a truck, a ship or and aircraft. Generally, it is contemplated that the vehicle is stationary during the performance of a medical procedure. However, it is possible to conduct an examination or treatment even when the medical facility is in motion. Control signals and feedback signals are transmitted redundantly, over multiple communications pathways. | ||||||
| 99 | Vehicle incorporating gas storage vessel comprising a polymeric container system for pressurized fluids | US09707986 | 2000-11-08 | US06527075B1 | 2003-03-04 | John I. Izuchukwu; Stan A. Sanders |
| A vehicle includes a storage pack for storing gas under pressure for providing an onboard supply of the pressurized gas. The pressurized gas may be used as a medicinal gas, e.g. oxygen, on emergency medical vehicles, or the gas may be used as a fuel source for a motorized vehicle having a motor that runs on combustible gas. The gas storage pack includes a pressure vessel formed from a plurality of hollow chambers, which have either an ellipsoidal or spherical shape, interconnected by a plurality of relatively narrow conduit sections disposed between consecutive ones of the chambers. The pressure vessel includes a reinforcing filament wrapped around the interconnected chambers and interconnecting conduit sections to limit radial expansion of the chambers and conduit sections when filled with a fluid under pressure. The gas storage pack further includes a gas transfer control system attached to the pressure vessel for controlling gas flow into and out of the pressure vessel. | ||||||
| 100 | Emergency vehicle with medical image scanner and teleradiology system and method of operation | US09628656 | 2000-07-28 | US06481887B1 | 2002-11-19 | Paul J. Mirabella |
| A mobile medical image scanner and teleradiology system are incorporated into an ambulance or other vehicle to permit a patient to be diagnosed while en route to a treatment facility such as a trauma center. The system obtains medical image data while the patient is being transported in the vehicle and transmits the medical image data to a receiver at a location which is remote from the vehicle. At the remote location, the transmitted medical image data is displayed in a humanly discernable manner and interpreted by a qualified physician, who then communicates diagnostic information to the technicians in the vehicle and/or to the treating physicians at the treatment facility. By providing diagnostic information back to the treating physicians prior to the patient's arrival at the treatment facility, the patient can be routed directly to the operating room, or the intensive care unit as necessary, thereby saving valuable time. The patient can even receive some care in the vehicle based on the diagnoses before he or she reaches the treatment facility. Patient survival rates are substantially improved due to the reduction in the diagnostic time required after the patient arrives at the trauma center. | ||||||
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