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    • 2. 发明授权
    • Automated flushing module
    • 自动冲洗模块
    • US5419347A
    • 1995-05-30
    • US144747
    • 1993-10-27
    • W. Layne Carruth
    • W. Layne Carruth
    • A61G7/02A61G9/02B08B9/02B08B9/08B08B3/02B08B9/00
    • B08B9/0325A61G7/02A61G9/02B08B9/0327B08B9/08
    • The system of the present invention is an all-automated and all hands-free, flushing module with the capability of performing an internal cleansing of internally soiled components of a patient support apparatus configured for one or more of the care, maintenance or treatment of a patient. The system is configured with at least one bay to receive a patient support apparatus to be cleaned. The system is designed so that additional bays can be used to clean two or three patient support apparatus at one time. The system includes hoses supplying liquid into the bed's internal surfaces that come into contact with substances associated with one or more of the care, maintenance and/or treatment of a patient on the patient support apparatus. The system automatically goes through a flush cycle, a wash cycle and a rinse cycle. The system has extra compartments for jug washing. The system takes predetermined amounts of bactericides or all of the cleansing agents, mixes them with tap water, uses the mixed liquids for washing or rinsing, and then the liquids used for washing or rinsing are disposed into the sewer system.
    • 本发明的系统是一种全自动化和全免手式的冲洗模块,其能够对被配置为一个或多个保养,维护或治疗的患者支撑装置的内部污染的部件进行内部清洁 患者。 该系统配置有至少一个托架以接收待清洁的患者支撑装置。 该系统的设计使得可以使用额外的托架来一次清洁两个或三个患者支撑装置。 该系统包括将液体供应到床的内表面中的软管,其与与患者支撑装置上的患者的一个或多个护理,维护和/或治疗相关联的物质接触。 系统自动进行冲洗循环,洗涤循环和冲洗循环。 该系统具有额外的洗碗槽。 系统取预定量的杀菌剂或全部清洁剂,将其与自来水混合,使用混合液进行洗涤或冲洗,然后将用于洗涤或冲洗的液体置于下水道系统中。
    • 4. 发明授权
    • Apparatus and method for decontamination of microspheres used in a
fluidized patient support system
    • 用于流化患者支持系统的微球去污的装置和方法
    • US5171545A
    • 1992-12-15
    • US861154
    • 1992-03-27
    • Alfred W. SimanRichard B. StacyW. Layne Carruth
    • Alfred W. SimanRichard B. StacyW. Layne Carruth
    • A61G7/057A61L2/06
    • A61L2/06A61G7/05746A61G2203/723
    • An apparatus and method for decontaminating contaminated microspheres of a patient support system employing a fluidizing medium to fluidize the microspheres to provide support for the patient, includes a tank for containing the microspheres. The tank includes a diffuser mounted inside the tank to form a plenum in the bottom of the tank. A rigid shell surrounds heat-insulating material around the outside of the tank. A recirculation channel is defined in the shell. A cover seals the tank. An air heater member and a gas blower provide hot air to fluidize the microspheres inside the tank. A valve permits a heating mode of operation, a cooling mode of operation, and a holding temperature mode of operation. The valve is switched between modes by action of a solenoid or a motor. A temperature probe monitors the temperature inside of the tank. A control circuit controls the air heater, the valve, and the gas blower according to a predetermined timed sequence of actuation. The monitored temperatures are recorded to provide a hard record of same.The method includes sieving the contaminated microspheres before placing them into the container and fluidizing them with heated air until a predetermined temperature is maintained for a predetermined time. The heated air is recirculated. The decontaminated microspheres are cooled by introducing ambient air into the tank and expelling the hot air from the tank. The heating of the gas is discontinued when the holding temperature is attained and resumed when the temperature falls below the holding temperature.
    • 使用流化介质使微球流化以提供对患者的支持的患者支撑系统的污染微球体去污染的装置和方法包括用于容纳微球体的罐。 该罐包括安装在罐内的扩散器,以在罐的底部形成增压室。 一个刚性外壳围绕储罐外部的绝热材料。 外壳中定义了再循环通道。 盖子封住油箱。 空气加热器构件和鼓风机提供热空气以使罐内的微球流体化。 阀允许加热操作模式,冷却操作模式和保持温度操作模式。 阀门通过螺线管或电机的作用在模式之间切换。 温度探头监测罐内的温度。 控制电路根据预定的定时驱动顺序控制空气加热器,阀和鼓风机。 记录监测的温度以提供相同的硬记录。 该方法包括筛选污染的微球,然后将其置于容器中并用加热的空气流化,直到预定温度保持预定时间。 加热的空气再循环。 通过将环境空气引入罐中并从罐中排出热空气来冷却净化的微球体。 当达到保持温度时,气体的加热停止,当温度降到保持温度以下时恢复。