| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | FOLDING FRAME MOTORIZED PRONE CART | US12134147 | 2008-06-05 | US20080301875A1 | 2008-12-11 | Pascal Malassigne; Jeffrey Harrow; Robert Jensen; John Erdman |
| A prone cart for carrying a patient has a frame, a pair of independently powered and suspended drive wheels located centrally off the frame and an articuable body support having relatively moveable tray, chest support, abdominal support and leg support sections connected end to end for carrying a patient prone between a lowered position where the patient lies in a horizontal orientation to a raised position where the patient's head and chest are elevated with respect to the patient's abdomen and legs. Linkage mechanisms move the sections between the raised and lowered positions. A pair of independently suspended drive wheels mounted centrally of the frame is controllable so that each may each rotate independently in clockwise or counterclockwise sense so that the cart may be maneuvered in confined spaces with a zero turning radius. | ||||||
| 22 | Folding Chair Cot for Use with Emergency Vehicles | US12117725 | 2008-05-08 | US20080272629A1 | 2008-11-06 | Nathan R. Walkingshaw; Tad Clark; Mark Wenzel |
| A collapsible emergency vehicle chair cot that includes a support system and a movement system is described. The movement system is coupled to the support system and utilizes rotational movement to assist in moving the chair cot over a surface. The support system and movement system are configured to be collapsible to facilitate using the chair cot with an emergency vehicle. The chair cot may include at least two removable platforms for supporting a patient in a seated position. Furthermore, the chair cot may include one or more options for transporting equipment, including an equipment transport basket that may take the place of the removable platforms. | ||||||
| 23 | Stretcher having pivotable and lockable patient support sections | US10359987 | 2003-02-06 | US06718580B2 | 2004-04-13 | 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. | ||||||
| 24 | Surgery stretcher | US10356041 | 2003-01-31 | US20030110569A1 | 2003-06-19 | 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. | ||||||
| 25 | Maneuverable self-propelled cart | US09440737 | 1999-11-16 | US06390213B1 | 2002-05-21 | Joel N. Bleicher |
| A maneuverable self-propelled cart having a drive assembly including independently suspended drive wheels for propelling the cart over rough or uneven surfaces. The drive assembly is comprised of a drive wheel carriage having at least two drive wheels. The drive wheel carriage may include a turntable or the like adapted to rotate the carriage about a substantially vertical axis relative to the frame of the cart. Each drive wheel may be independently suspended beneath the cart frame by a suspension apparatus so as to allow each drive wheel to individually engage a ground or floor surface. | ||||||
| 26 | STEUERUNG VON AN EINEM VERFAHRTEIL ANGEBRACHTEN ROLLEN | EP14795573.6 | 2014-10-24 | EP3071165A1 | 2016-09-28 | HEIN, Georg |
| The invention relates to a control and to a method for controling rollers (2) mounted on a movable part such as, for example, a hospital bed (1), wherein one, several or all of the rollers (2) have a brake mechanism which can be set to a brake position and a release position, further preferably also to a direction-setting position, wherein, further, all the rollers (2) can be actuated electrically and one or several or all of the rollers (2) can in addition be actuated manually, and wherein, furthermore, an additional roller (3) with a wheel having a travel drive is provided, which additional roller (3) is preferably movable between a lowered position and a raised position. In order to obtain an advantageous control of the rollers in combination with the additional roller and also to provide an advantageous control method for this purpose, it is proposed that the travel drive can be activated only when the rollers (2) are located in the release position or the direction-setting position. | ||||||
| 27 | POWERED PATIENT SUPPORT APPARATUS | EP13839462 | 2013-08-26 | EP2897566A4 | 2016-05-25 | DERENNE RICHARD A; DELUCA RICHARD THOMAS; NEWPORT II THOMAS JOSEPH; PATMORE KEVIN MARK |
| Powered patient support apparatuses—such as beds, cots, stretchers, or the like—include a plurality of user controls that allow a caregiver to control the steering and/or driving of one or more powered wheels from multiple different locations around the patient support apparatus (e.g. head end, foot end, and/or the sides). The control is carried out by force sensors that detect both an orientation of the applied forces and a magnitude of the applied forces. Translational and/or rotational movement is effectuated, depending upon the magnitude and direction of the forces, as well as the physical location of the applied force relative to a reference point on the support apparatus, such as the center. One or more object sensors may also be included in the support apparatus to assist in steering and/or navigating. | ||||||
| 28 | SPEED CONTROL FOR PATIENT HANDLING DEVICE | EP10823934 | 2010-10-12 | EP2470142A4 | 2014-12-03 | PATMORE KEVIN |
| 29 | Push handle with pivotable handle post | EP09250209.5 | 2009-01-27 | EP2085062B1 | 2012-03-28 | Zerhusen, Robert Mark; McCaig, Steven V. |
| 30 | Push handle with rotatable user interface | EP09250210.3 | 2009-01-27 | EP2085063A3 | 2010-04-28 | Zerhusen, Robert Mark; Hamberg, Stephen R.; Reinke, Christian H. |
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.
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| 31 | Push handle with pivotable handle post | EP09250209.5 | 2009-01-27 | EP2085062A3 | 2010-04-28 | Zerhusen, Robert Mark; McCaig, Steven V. |
A patient support apparatus comprises a frame, a patient support coupled to the frame, a push handle coupled to the frame and having a handle post, and at least one user input coupled to the handle post. The handle post is movable 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.
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| 32 | MANEUVERABLE DEVICE FOR TRANSPORTING LOADS OVER A SURFACE | EP04770631.2 | 2004-10-26 | EP1682064A2 | 2006-07-26 | ZIMBALISTA, Dov; ZIMBALISTA, Ran |
| A maneuverable device for transporting a load over a surface, which finds particular application in a hospital bed for the transportation of patients and in a wheelchair for transporting patients or passengers in an air terminal, for example. The device has a platform for supporting a load to be transported mounted on a base comprising a plurality of castors. One or more one auxiliary wheels are mounted for rotation about at least one fixed axis with respect to said base, and a power unit configured for providing motive power to the auxiliary wheels is provided. A driving unit is provided for steering the device, the driving unit operating independently of the auxiliary wheels. | ||||||
| 33 | STEUERUNG VON AN EINEM VERFAHRTEIL ANGEBRACHTEN ROLLEN | EP14795573.6 | 2014-10-24 | EP3071165B1 | 2017-05-10 | HEIN, Georg |
| 34 | POWERED PATIENT SUPPORT APPARATUS | EP13839462.2 | 2013-08-26 | EP2897566A1 | 2015-07-29 | DERENNE, Richard A.; DELUCA, Richard Thomas; NEWPORT II, Thomas Joseph; PATMORE, Kevin Mark |
| Powered patient support apparatuses—such as beds, cots, stretchers, or the like—include a plurality of user controls that allow a caregiver to control the steering and/or driving of one or more powered wheels from multiple different locations around the patient support apparatus (e.g. head end, foot end, and/or the sides). The control is carried out by force sensors that detect both an orientation of the applied forces and a magnitude of the applied forces. Translational and/or rotational movement is effectuated, depending upon the magnitude and direction of the forces, as well as the physical location of the applied force relative to a reference point on the support apparatus, such as the center. One or more object sensors may also be included in the support apparatus to assist in steering and/or navigating. | ||||||
| 35 | SPEED CONTROL FOR PATIENT HANDLING DEVICE | EP10823934.4 | 2010-10-12 | EP2470142A2 | 2012-07-04 | PATMORE, Kevin |
| A patient handling device, such as a bed, stretcher, cot, or the like, includes a motor for driving one or more wheels to assist in the movement of the device. At least one proximity sensor is positioned on the device in order to detect the presence of one or more objects that may lie in the path of the device when it moves. A controller on the device determines the distance between itself and the object and automatically controls the speed of the device in a manner designed to reduce the likelihood of a collision and/or to mitigate the impact of a collision. The automatic speed control of the device may follow one or more predetermined profiles that correlate certain parameters, such as a distance to the object or relative velocity, with a maximum acceptable speed of the device. | ||||||
| 36 | WHEELED PATIENT STRETCHER WITH ATTENDANT PLATFORMS | EP04821842.4 | 2004-03-16 | EP1725205A1 | 2006-11-29 | LAGASSEY, Paul |
| A wheeled patient support assembly (10) that allows a patient (60) and at least one medical attendant (65), to be moved while the medical attendant(s) administer medical treatment the patient comprising a patient support surface (18) rolling mechanisms (44) or other means for moving the assembly over the floor, at least one attendant support platform(s) (20, 22) 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 (30) to prevent the attendant(s) (65) 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. | ||||||
| 37 | SURGERY STRETCHER | EP01973410.2 | 2001-09-24 | EP1326568A2 | 2003-07-16 | HEIMBROCK, Richard, H.; MANLOVE, Scott, D.; TURNER, Jonathan, D. |
| An illustrative eye surgery stretcher (30) includes a head rest (88) configured to support a patient's head, a head frame (86) configured to support a patient's shoulders, a back frame (82) configured to support a patient's back, and a seat frame (80) configured to support a patient's seat. The head rest (88) is adjustably movable relative to the head frame (86). The head frame (86) is adjustably movable relative to the back frame (82). The back frame (82) is adjustably movable relative to the seat frame (80). | ||||||
| 38 | Patient support apparatus | US14965020 | 2015-12-10 | US10004651B2 | 2018-06-26 | Richard Thomas DeLuca; Richard A. Derenne |
| Patient support apparatuses—such as beds, cots, stretchers, or the like—include a plurality of user controls that allow a caregiver to control the steering and/or driving of one or more wheels from multiple different locations around the patient support apparatus (e.g. head end, foot end, and/or the sides). The control is carried out by force sensors that detect both an orientation of the applied forces and a magnitude of the applied forces. Translational and/or rotational movement is effectuated, depending upon the magnitude and direction of the forces, as well as the physical location of the applied force relative to a reference point on the support apparatus, such as the center. One or more object sensors may also be included in the support apparatus to assist in steering and/or navigating. | ||||||
| 39 | PATIENT SUPPORT APPARATUSES WITH NAVIGATION AND GUIDANCE SYSTEMS | US15185067 | 2016-06-17 | US20160367415A1 | 2016-12-22 | Michael Joseph Hayes; Krishna Sandeep Bhimavarapu; Daniel Vincent Brosnan; Aaron Douglas Furman; Jonathan David Campbell; Thomas Alan Puvogel; James K. Galer; Jason A. Vanderplas |
| Patient support apparatuses, such as beds, cots, stretchers, recliners, or the like, include control systems with one or more image, radar, and/or laser sensors to detect objects and determine if a likelihood of collision exists. If so, the control system controls the speed and steering of the patient support apparatus in order to reduce the likelihood of collision. The control system may be adapted to autonomously drive the patient support apparatus, to transmit a message to a remote device indicating whether it is occupied by a patient or not, and/or to transmit its route to the remote device. The remote device may determine an estimate of a time of arrival of the patient support apparatus at a particular destination and/or determine a distance of the patient support apparatus from the particular destination. | ||||||
| 40 | Automated systems, devices, and methods for transporting and supporting patients | US13630412 | 2012-09-28 | US09220651B2 | 2015-12-29 | 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. | ||||||
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