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    LOADING PLATFORM ALIGNMENT SYSTEM AND LOADING/UNLOADING METHOD THEREOF
    2.
    发明公开
    LOADING PLATFORM ALIGNMENT SYSTEM AND LOADING/UNLOADING METHOD THEREOF 有权
    AUSRICHTUNGSSYSTEMFÜRLADEPLATTFORM UND LADE- / ENTLADEVERFAHRENDAFÜR

    公开(公告)号:EP3134050A1

    公开(公告)日:2017-03-01

    申请号:EP15722299.3

    申请日:2015-04-15

    申请人: Ferno-Washington, Inc.

    发明人: CARLETTI, Enrico

    IPC分类号: A61G3/02

    CPC分类号: A61G3/029 A61G1/0262 A61G1/06 A61G3/0227 A61G3/0236 A61G3/0245 A61G3/0272 A61G2203/10 A61G2205/40 B60P1/4442 B60P1/4471 B60R1/00 B60Y2200/49

    摘要: A method and an alignment system which auto-levels and/or auto-centers a loading platform (104) to load and unload a wheeled stretcher (106) to and from an emergency transport vehicle (100) are disclosed. A controller (114) of the alignment system receives a command to extend the loading platform from the emergency vehicle and extends the loading platform under power from the emergency transport vehicle. The controller recognizes an approaching wheeled stretcher, and aligns automatically the loading platform with a leading edge of the approaching wheeled stretcher to compensate automatically for any alignment issues between the loading platform and loading wheels (130) of the wheeled stretcher.

    摘要翻译: 公开了一种方法和对准系统,其将加载平台(104)自动调平和/或自动对中以将紧急运输车辆(100)上的轮式担架(106)卸载和卸载。 对准系统的控制器(114)接收从紧急车辆延伸装载平台的命令,并且在紧急运输车辆的动力下延伸装载平台。 控制器识别接近的轮式担架,并将加载平台与接近的轮式担架的前缘自动对准,以自动补偿装载平台和轮式担架的装载轮(130)之间的任何对准问题。

    PATIENT TRANSPORT DEVICES
    4.
    发明公开
    PATIENT TRANSPORT DEVICES 有权
    运送病人DEVICES

    公开(公告)号:EP2744462A1

    公开(公告)日:2014-06-25

    申请号:EP12750961.0

    申请日:2012-08-15

    申请人: Ferno-Washington, Inc.

    发明人: CARLETTI, Enrico

    IPC分类号: A61G5/06 A61G5/10 A61G5/04

    CPC分类号: A61G5/04 A61G5/061 A61G5/066 A61G5/10 A61G5/1032 A61G2200/325 A61G2200/34 A61G2203/34 A61G2203/36

    摘要: Embodiments of a patient transport device comprise a rigid structural member; a patient support member coupled to the rigid structural member, a propulsion assembly coupled to the rigid structural member, wherein the rigid structural member comprises a motor operable to oscillate between frontward rotation and backward rotation, first and second continuous tracks responsive to the motor and rotatably coupled to the rigid structural member, and a power source configured to energize the motor and exchange electrical energy with the motor, and at least one controller communicatively coupled with the power source and programmed to execute machine readable instructions to oscillate the motor between frontward rotation and backward rotation, the oscillation of the motor being operable to cause the first continuous track and the second continuous track to stop.