| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | EMERGENCY VEHICLE PATIENT TRANSPORT SYSTEMS | US13741870 | 2013-01-15 | US20130119692A1 | 2013-05-16 | 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. | ||||||
| 162 | MULTIFUNCTION UTILITY CART | US13584267 | 2012-08-13 | US20130119640A1 | 2013-05-16 | ZAFER J.S. AL-OSAIMI |
| The multifunction utility cart is a compact versatile self-propelled vehicle adapted particularly for use by security and/or emergency medical personnel. The cart includes an extendable wheelbase and rear body portion for the carriage of additional personnel and/or one or more injured persons on board, yet forms a very compact vehicle when the wheelbase and bodywork are retracted. A stretcher may be deployed from one side of the cart when extended, the extended rearward portion providing for the carriage of additional personnel or a wheelchair due to a drop-down floor at the rear of the cart. Additional storage space is provided in a forward trunk and one rear fender opposite the stretcher storage area for the carriage of a fire extinguisher, medical supplies, and/or other equipment. The standing operator station may be selectively elevated to provide the operator with a better view in crowded environments. | ||||||
| 163 | Emergency vehicle patient transport systems | US12767555 | 2010-04-26 | US08382181B2 | 2013-02-26 | 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. | ||||||
| 164 | Transportable Emergency Response Station for Treatment or Transportation of Persons on Stretchers | US13357672 | 2012-01-25 | US20120181807A1 | 2012-07-19 | 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. | ||||||
| 165 | Emergency treatment station and stretcher system | US12514525 | 2007-11-06 | US08104814B2 | 2012-01-31 | 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. | ||||||
| 166 | Digital EKG machine & portable wireless printer | US12660327 | 2010-02-25 | US20110208074A1 | 2011-08-25 | Pamela Ann Anderson |
| The digital EKG machine is used to provide an accurate reading of the voltage between pairs of these electrodes, and the muscle activity that they measure from different directions. The main components of the digital EKG machine are the info red laser lens, which is the reading source for the EKG machine. It will track each parts of the body as it glad slowly to different area of accurate testing.The extended lens is used to make sure each section is properly recording on the miniature CD. The main components of the portable printer are the CD slot, which will hold the miniature CD. The alpha keyboard is used to record the patient name and date of birth or accuracy. The display monitor will allow the doctors and nurses to ensure accurate results. | ||||||
| 167 | Medical imaging trailer with thermal and mechanical isolation | US11606787 | 2006-11-30 | US07954882B2 | 2011-06-07 | Anthony D. Brummel; Daniel W. Rozendal |
| A trailer for use with a mobile medical diagnostic imaging system includes a first shell having an exterior skin and at least one thermal insulation layer, a second shell within the first shell, the second shell having a first shielding layer, and an air gap between at least a portion of the first shell and the second shell to effectively isolate the first shell from the second shell. | ||||||
| 168 | Ambulette Insert | US12948912 | 2010-11-18 | US20110115245A1 | 2011-05-19 | Roy Frank Engelbrecht; Russell Floyd Rugg; Terry Kyle Olson; Michael Allen Campeau |
| An ambulette insert is provided. The ambulette insert includes a floor plate adapted to mount to the existing mounting holes of the floor of a vehicle. The floor plate includes a gurney latching system for locking a gurney carried by the vehicle to the floor plate. An equipment console extends between the interior sidewalls of the vehicle and includes a plurality of medical equipment and storage. The ambulette insert also includes a light unit extending away from the equipment console that is designed to provide variable intensity lighting. The light unit is supported by a support conduit that has a hollow core for the routing of various electrical cables and hoses to the equipment console and light unit. The ambulette insert is designed to mount with the existing mounting features of the vehicle so that no additional machining of the vehicle is required. | ||||||
| 169 | Compact system for lifting and moving a pressurized tank | US12509194 | 2009-07-24 | US07824144B2 | 2010-11-02 | Michael R. Wilson |
| A hoist with a cradle for coupling with a pressurized tank. A primary means of restraining the tank on the cradle is provided along with a backup means should the primary means fail for any reason. A linear actuator assembly raises the cradle up to 27 inches from the floor surface. An onboard battery with an integrated battery charger provides power to the linear actuator. A compact base with swivel casters allows a raised tank to be safely lifted and transported by a single operator. The compact size of the hoist allows it to operate in confined spaces. | ||||||
| 170 | Compact system for lifting and moving a pressurized tank | US11744749 | 2007-05-04 | US07789611B2 | 2010-09-07 | Michael Wilson |
| A hoist with a cradle for coupling with a pressurized tank. A linear actuator assembly raises the cradle above the floor surface. A base with casters allows a raised tank to be safely lifted and transported by a single operator. The cradle can be rotated and locked in a vertical or horizontal position for cylinder insertion and removal in EMS vehicles with either a vertical or a horizontal stowage compartment. When handling a horizontal cylinder stowage situation, an embodiment of the cradle features a retractable foot to allow the cylinder to be slid from the cradle into the compartment bottom first. Another embodiment has a fixed foot and allows the cylinder to be slid from the cradle into the compartment top first. Safety interlocks are provided to prevent rotation of the cradle if the foot is in the wrong position with respect to the horizontal orientation of the cradle. | ||||||
| 171 | MOBILE MULTIPLE MODALITY CONTAINMENT SUITE | US12675429 | 2008-08-26 | US20100217066A1 | 2010-08-26 | 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. | ||||||
| 172 | Patient transport vehicle | US12655721 | 2010-01-06 | US20100213731A1 | 2010-08-26 | 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, wherein said platform has a front flat surface, and two rear surfaces extending from said front flat surface on either side of the rear wheel, said rear surfaces bracketed by sides extending vertically. The motorcycle carries the load of driver and patient, provides a safe, stable means of patient transportation, wherein passenger and rider are in one plane with said 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. | ||||||
| 173 | Off-road mobile services self-powered trailer with redundant power supply | US12462684 | 2009-08-08 | US20100096845A1 | 2010-04-22 | Charles H. Leahy |
| A mobile trailer unit including an integrated self-contained, independent power systems and each unit being constructed and configured with a reinforced frame and all-terrain mobility suspension and traction systems, further including a superior insulated envelope construction for providing interior temperature management, including effective cooling or heating capabilities even in extreme temperature conditions. | ||||||
| 174 | Mobile containerized autopsy facility | US10576984 | 2003-10-23 | US07644970B2 | 2010-01-12 | Peng Sun Paul Chui; Weng Tim Chong; Weng Kai Chong |
| A mobile containerized autopsy facility for use in distant contamination zones, comprising at least one enclosure which includes at least one seamless and sealable compartment, which compartment meets biohazard safety level 3 and 4 requirements. The facility consists of enclosures that are most commonly a conversion of at least one standard 40×8×9.5 foot refrigerated cargo container that may be easily transported by trailers or by air to remote sites and be operational without the dependence on local infrastructure. | ||||||
| 175 | Mobile emergency hospital | US11628021 | 2005-05-31 | US07540546B2 | 2009-06-02 | Julie A. Kern; Kenneth L. Kramer; Richard W. Chance; Nathan I. Carver; Frederic Le Roy; Dennis Paul LaLoge |
| A mobile emergency hospital comprises a first wheeled trailer and a second wheeled trailer parked alongside the first trailer such that adjacent side walls of the first and second trailers are arranged to confront each other. The first and second trailers have patient care equipment associated with first and second portions of the emergency hospital, respectively. The adjacent side walls of the two trailers have openings which are generally aligned with each other to form one or more passageways through which caregivers pass between the two trailers. The first trailer may include a plurality of wall units arranged along a non-adjacent side wall of the first trailer. Each such wall unit may include a plurality of service connectors and a foldout bed. The trailers may include expandable sections to provide additional floor space. | ||||||
| 176 | Mobile Containerised Autopsy Facility | US12161107 | 2006-01-16 | US20090001742A1 | 2009-01-01 | 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. | ||||||
| 177 | Mobile Telemedicine Vehicle | US12067547 | 2007-09-07 | US20080264708A1 | 2008-10-30 | Jeff T. Grange; Stephen W. Corbett |
| A mobile telemedicine device for use in disasters and emergency response comprising four or more wheels connected to a drive train and a main compartment. The main compartment comprises an interior portion and an exterior portion and a supplemental compartment connected to the main compartment. Communications ports are connected to the exterior, and the supplemental compartment. Patient care tables are located in the main compartment. A method for using an all terrain mobile telemedicine vehicle, first driving the mobile telemedicine device to a disaster or emergency location and lowering and deploying a vehicle from the storage compartment to search for patients in need of medical services. | ||||||
| 178 | Systems and methods for use in mobile medical training | US10394625 | 2003-03-21 | US07347472B2 | 2008-03-25 | Hank F. Pellegrin, Jr. |
| An enclosure is provided that is adapted for mobile transport to a training site. In one embodiment, the enclosure includes a laboratory section equipped with medical equipment and instrumentation. In another embodiment, a supply of non-living anatomic material is provided for conducting one or more training activities in the laboratory section to provide training to medical personnel. A supply relationship may be established with an anatomic material supplier to satisfy training activity requirements. In yet another embodiment, the enclosure includes a conference section sized to accommodate a group of medical personnel and equipped with audio/visual equipment and/or other training aids. The conference section and the laboratory section may be linked by an electronic communication system. A satellite communication system may be included to provide visual communication between the training site and a remote site. The conference and laboratory sections may include one or more expandable side portions to selectively enlarge the enclosure. | ||||||
| 179 | Compact System for Lifting and Moving a Pressurized Tank | US11744749 | 2007-05-04 | US20070292247A1 | 2007-12-20 | Michael Wilson |
| A hoist with a cradle for coupling with a pressurized tank. A linear actuator assembly raises the cradle above the floor surface. A base with casters allows a raised tank to be safely lifted and transported by a single operator. The cradle can be rotated and locked in a vertical or horizontal position for cylinder insertion and removal in EMS vehicles with either a vertical or a horizontal stowage compartment. When handling a horizontal cylinder stowage situation, an embodiment of the cradle features a retractable foot to allow the cylinder to be slid from the cradle into the compartment bottom first. Another embodiment has a fixed foot and allows the cylinder to be slid from the cradle into the compartment top first. Safety interlocks are provided to prevent rotation of the cradle if the foot is in the wrong position with respect to the horizontal orientation of the cradle. | ||||||
| 180 | Mobile containerized autopsy facility | US10576984 | 2003-10-23 | US20070132262A1 | 2007-06-14 | Paul Chui Peng Sun; Tim Weng; Kai Weng |
| A mobile containerized autopsy facility for use in distant contamination zones, comprising at least one enclosure which includes at least one seamless and sealable compartment, which compartment meets biohazard safety level 3 and 4 requirements. The facility consists of enclosures that are most commonly a conversion of at least one standard 40×8×9.5 foot refrigerated cargo container that may be easily transported by trailers or by air to remote sites and be operational without the dependence on local infrastructure. | ||||||
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