| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | AUTOMATED SYSTEMS, DEVICES, AND METHODS FOR TRANSPORTING AND SUPPORTING PATIENTS | US14815337 | 2015-07-31 | US20150342806A1 | 2015-12-03 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 42 | Automated systems, devices, and methods for transporting and supporting patients | US14088103 | 2013-11-22 | US09052718B2 | 2015-06-09 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 43 | AUTOMATED SYSTEMS, DEVICES, AND METHODS FOR TRANSPORTING AND SUPPORTING PATIENTS | US14525480 | 2014-10-28 | US20150051784A1 | 2015-02-19 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 44 | Automated systems, devices, and methods for transporting and supporting patients | US13630531 | 2012-09-28 | US08886383B2 | 2014-11-11 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 45 | User interface for power drive system of a patient support apparatus | US13932364 | 2013-07-01 | US08756726B2 | 2014-06-24 | Stephen R. Hamberg; Robert M. Zerhusen; Christian H. Reinke |
| A patient support apparatus includes a frame, a patient support coupled to the frame, a plurality of casters and a wheel coupled to the frame, a motor coupled to the wheel and operable to rotate the wheel to propel the patient support apparatus along a floor, and an electrical system comprising a controller configured to signal operation of the motor to rotate the wheel to propel the patient support apparatus along the floor. The electrical system further includes user inputs adjacent at least one end of the frame and adjacent at least one side of the frame. The user inputs including forward and reverse switches that are engaged to determine whether the patient support apparatus is propelled in a forward direction or a rearward direction, respectively. | ||||||
| 46 | AUTOMATED SYSTEMS, DEVICES, AND METHODS FOR TRANSPORTING AND SUPPORTING PATIENTS | US14088103 | 2013-11-22 | US20140095011A1 | 2014-04-03 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 47 | Automated Systems, Devices, and Methods for Transporting and Supporting Patients | US13630412 | 2012-09-28 | US20140094990A1 | 2014-04-03 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 48 | Automated Systems, Devices, and Methods for Transporting and Supporting Patients | US13630531 | 2012-09-28 | US20140090172A1 | 2014-04-03 | Roderick A. Hyde; Stephen L. Malaska |
| Systems, devices, and methods are described for moving a patient to and from various locations, care units, etc., within a care facility. For example a transport and support vehicle includes a body structure including a plurality of rotatable members operable to frictionally interface the vehicle to a travel path and to move the vehicle along the travel path, and a surface structured and dimensioned to support an individual subject. A transport and support vehicle can include, for example, an imager operably coupled to one or more of a power source, a steering assembly, one or more of the plurality of rotatable members, etc., and having one or more modules operable to control the power source, steering assembly, one or more of the plurality of rotatable members, etc., so as to maintain an authorized operator in the image zone. | ||||||
| 49 | User interface for power drive system of a patient support apparatus | US13024617 | 2011-02-10 | US08474073B2 | 2013-07-02 | Stephen R. Hamberg; Robert M. Zerhusen; Christian H. Reinke |
| A patient support apparatus includes a frame, a patient support coupled to the frame, a plurality of casters and a wheel coupled to the frame, a motor coupled to the wheel and operable to rotate the wheel to propel the patient support apparatus along a floor, and an electrical system comprising a controller configured to signal operation of the motor to rotate the wheel to propel the patient support apparatus along the floor. The electrical system further includes user inputs adjacent at least one end of the frame and adjacent at least one side of the frame. The user inputs including forward and reverse switches that are engaged to determine whether the patient support apparatus is propelled in a forward direction or a rearward direction, respectively. | ||||||
| 50 | Collapsible Wheeled Stretcher | US13258524 | 2010-04-27 | US20120007340A1 | 2012-01-12 | Ilan Bar Noy; Hava Bar Noy |
| The present invention discloses a foldable collapsible wheeled stretcher on wheels, having handles for pulling and steering. The device is provided with dependent suspensions allowing mobility in rough and bumpy terrain while maintaining the stability of stretcher surface, reducing tilt and vibration that reach the wounded person being transported upon the stretcher. It is provided with folding or telescopic means allowing it to be carried upon the back or stowed in a small volume. The device enables rescue of injured people in an improved manner from (for example) regions which are not passable by vehicles, and may be pulled by a single rescuer instead of being carried by two to four. The device may be further used to transport material. | ||||||
| 51 | USER INTERFACE FOR POWER DRIVE SYSTEM OF A PATIENT SUPPORT APPARATUS | US13024617 | 2011-02-10 | US20110126354A1 | 2011-06-02 | Stephen R. Hamberg; Robert M. Zerhusen; Christian H. Reinke |
| A patient support apparatus includes a frame, a patient support coupled to the frame, a plurality of casters and a wheel coupled to the frame, a motor coupled to the wheel and operable to rotate the wheel to propel the patient support apparatus along a floor, and an electrical system comprising a controller configured to signal operation of the motor to rotate the wheel to propel the patient support apparatus along the floor. The electrical system further includes user inputs adjacent at least one end of the frame and adjacent at least one side of the frame. The user inputs including forward and reverse switches that are engaged to determine whether the patient support apparatus is propelled in a forward direction or a rearward direction, respectively. | ||||||
| 52 | PUSH HANDLE WITH ROTATABLE USER INTERFACE | US12021346 | 2008-01-29 | US20080141459A1 | 2008-06-19 | Stephen R. Hamberg; Robert M. Zerhusen; Christian H. Reinke |
| A patient support apparatus includes a frame, a patient support coupled to the frame, a push handle coupled to the frame and having a handle post, and a user interface coupled to the handle post and having at least one user input. The user interface is rotatable about an axis defined by the handle post between a first position presenting the at least one user input to a caregiver standing at an end of the frame and a second position presenting the at least one user input to a caregiver standing alongside the frame. | ||||||
| 53 | Towable collapsible patient supporting carrier | US11378848 | 2006-03-16 | US20070216118A1 | 2007-09-20 | Mark Jackson; Marc Segal |
| A collapsible patient supporting carrier configured as either a backboard or a stretcher for being pulled or towed behind a person, animal or vehicle, such as a bicycle, motorcycle, snow mobile or jet ski. The carrier comprises a plurality of support sections interconnected by connecting mechanisms that are configured to selectively place the carrier in a collapsed condition having a support surface for carrying medical supplies or an extended condition for transporting an injured person. Each support section is made up of a frame and one or more support members, such as a rigid plate or a somewhat flexible material, attached to the frame. The forward end of the carrier has a tow connector member to connect to a tow member for towing. Transport members, such as wheels, skis or a floatation member, are operatively connected near the second end of the carrier to facilitate movement over a surface. | ||||||
| 54 | Folding Chair Cot For Use With Emergency Vehicles | US11734229 | 2007-04-11 | US20070182220A1 | 2007-08-09 | Nathan Walkinshaw; Tad Clark; Mark Wenzel |
| The present invention relates to a collapsible emergency vehicle chair cot that includes a support system and a movement system. The support system is a retractable system disposed on the bottom of the cot to support the chair cot during transportation. For example, one embodiment of a support system includes a track that extends from the bottom for the chair cot. The track supports the chair cot thereby minimizing the need for an emergency worker to manually support the chair cot during transportation. The movement system is coupled to the support system and utilizes rotational movement to assist in moving the chair cot over a surface. For example, one embodiment of a movement system includes coupling a motor system and a brake system to the support system to provide motorized movement. The support system and movement system are configured to be collapsible to facilitate using the chair cot with an emergency vehicle. The chair cot further includes at least two platforms for supporting a patient in a seated position. | ||||||
| 55 | Self propelled gurney and related structure confidential and proprietary document | US10735779 | 2003-12-16 | US07191854B2 | 2007-03-20 | Thomas E. Lenkman |
| A modular drive unit for a gurney including a control/handle module, a cord reel/charger module, a drive module, and a chassis assembly, plus all needed electrical wiring harnesses and pneumatic tubing to connect them. The modules mount to any existing gurney and to each other without making permanent modifications to the gurney. The gurney is controlled by a handle assembly containing all necessary controls and indicators to allow the operator to select forward or reverse direction, increase or reduce speed of travel, observe the state of battery charge, and energize or deenergize power from the various modules. In addition, the handle may be swung down through 180 degrees to facilitate loading and unloading the gurney. | ||||||
| 56 | Wheeled patient stretcher with attendant platforms | US10375862 | 2003-02-27 | US06766547B1 | 2004-07-27 | Paul J. Lagassey |
| A wheeled patient support assembly that allows a patient and at least one medical attendant to be moved while the medical attendant(s) administer medical treatment to the patient comprising a patient support surface, rolling mechanisms or other means for moving the assembly over the floor, at least one attendant support platform(s) built into or connected with the assembly and constructed to support the weight of one or more attendant(s) and being positioned so the attendant(s) can safely stand on the platform section(s) and treat the patient while the assembly is being moved, and including safety railings to prevent the attendant(s) from falling off the assembly. Further, the assembly is designed and constructed to be stable to prevent it from tipping, leaning or becoming unstable while in use. The object of the invention is to allow a patient to be moved simultaneously while emergency medical care is administered. | ||||||
| 57 | Pneumatic cot for use with emergency vehicles | US10342992 | 2003-01-14 | US20040133981A1 | 2004-07-15 | Nathan R. Walkingshaw |
| An ambulance cot is provided having a wheeled carriage, a frame for mounting the wheels, a horizontally oriented patient litter supported from the wheeled carriage and variable, pneumatically powered height scissors frame. The pneumatic actuator is designed to give a patient air-ride transportation and an adjustable height litter for lifting a patient from the ground. The patient litter has a pivoting hinge for transporting a patient down stairs. This pivot will allow the stretcher to pivot to a horizontal angle while going down stairs, for patient support and ease of transportation for said operator below. One embodiment has tracks attached over the wheels to provide a more stable and smooth ride as the cot is moved down stairs. Another embodiment comprises a translational trolley configuration. A hand brake is mounted on the patient litter for braking the tank-like motion of the tracks. | ||||||
| 58 | Stretcher having pivotable and lockable patient support sections | US10359987 | 2003-02-06 | US20030115674A1 | 2003-06-26 | Richard H. Heimbrock; Jonathan D. Turner; D. Scott Manlove |
| An illustrative patient support apparatus includes a first section adapted to support a first portion of a patient, a second section adapted to support a second portion of the patient and pivotably movable relative to the first section about a first pivot axis, a third section adapted to support a third portion of the patient and pivotably movable relative to the second section about a second pivot axis that is parallel with the first pivot axis, a first locking mechanism that, when locked, prevents the second section from pivoting relative to the first section, a first lever that is movable to unlock the first locking mechanism to allow the second section to pivot relative to the first section, a second locking mechanism that, when locked, prevents the third section from pivoting relative to the second section, and a second lever that is movable to unlock the second locking mechanism to allow the third section to pivot relative to the second section. | ||||||
| 59 | Surgery stretcher | US09675911 | 2000-09-29 | US06578215B1 | 2003-06-17 | Richard H. Heimbrock; Jonathan D. Turner; D. Scott Manlove |
| An illustrative eye surgery stretcher includes a head rest configured to support a patient's head, a head frame configured to support a patient's shoulders, a back frame configured to support a patient's back, and a seat frame configured to support a patient's seat. The head rest is adjustably movable relative to the head frame. The head frame is adjustably movable relative to the back frame. The back frame is adjustably movable relative to the seat frame. | ||||||
| 60 | Techniques for Dynamic Mapping of a Facility Using Patient Transport Apparatuses | US15910507 | 2018-03-02 | US20180252535A1 | 2018-09-06 | Krishna S. Bhimavarapu; Darren G. Schaaf |
| Techniques for generating a virtual map of a facility are disclosed. A server is coupled over a network to sensors equipped on patient transport apparatuses being located in the facility. The sensors produce readings as the patient transport apparatuses move in the facility. The server is configured to receive the readings over the network and to generate the virtual map of the facility based on analysis of the readings. | ||||||
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