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    • 2. 发明申请
    • Peristaltic Syringe Filling Station
    • 蠕动注射器灌装站
    • US20110061765A1
    • 2011-03-17
    • US12720291
    • 2010-03-09
    • Steven HartmanAlan Cross-HansenClark GodfreyRobert C. Williams
    • Steven HartmanAlan Cross-HansenClark GodfreyRobert C. Williams
    • B65B3/12
    • B65B3/003A61M5/1782
    • The present invention is directed to a syringe filling station that can fill a syringe with a specified volume of fluid. In one embodiment, the syringe filling station comprises a reservoir attachment, a fluid delivery system, a syringe retaining guide, and a pump to move fluid from a reservoir to a syringe. The fluid delivery system may comprise a sterile consumable cartridge that is insertable into the filling station and defines a fluid pathway from a reservoir to a syringe. The syringe filling station may also include a user interface. An operator can input commands into the user interface to specify the amount of fluid to dispense into the syringe. The user interface may be connected to a processor that controls the rate of pumping and thereby can fill a syringe with a desired amount of fluid. The filling station may also include sensors that detect air in the tubing, depletion of the reservoir, among other things.
    • 本发明涉及一种能够以特定体积的流体填充注射器的注射器加注站。 在一个实施例中,注射器加注站包括储存器附件,流体输送系统,注射器保持引导件和用于将流体从储存器移动到注射器的泵。 流体输送系统可以包括无菌消耗性药筒,其可插入到加注站中并且限定从储存器到注射器的流体路径。 注射器加注站还可以包括用户界面。 操作员可以将命令输入到用户界面中,以指定注入注射器的流体量。 用户界面可以连接到控制泵送速率的处理器,从而可以用期望量的流体填充注射器。 加料站还可以包括检测管道中的空气,储存器的耗尽等的传感器。
    • 5. 发明授权
    • Interface device and protocol
    • 接口设备和协议
    • US08452380B2
    • 2013-05-28
    • US11568033
    • 2005-04-21
    • Robert WilliamsAlan Cross-HansenTito Tengco
    • Robert WilliamsAlan Cross-HansenTito Tengco
    • A61M5/00
    • A61M5/007A61B6/481A61B6/504A61B6/548A61B6/566A61M5/172A61M2205/3561G06F19/00G16H40/63
    • The invention is an interface device and system for establishing an operating interface between an injector device and diagnostic imaging equipment. In one embodiment, the interface device may permit an operator to concurrently operate and control the injector device and the imaging equipment. The interface device may permit the injector system and the imaging system to communicate information regarding their current and future operational status with each other. The interface device may be used to synchronize the operation of the imaging equipment and the injector device. In one embodiment, the injector device and the imaging equipment may be able to communicate with each other directly or through the interface device via a communications protocol comprising binary logic signals. The binary logic signals may comprise one or more of a low strength signal, a high strength signal, an oscillating signal that oscillates between low and high signal strength, and combinations thereof.
    • 本发明是用于在注射器装置和诊断成像设备之间建立操作界面的界面装置和系统。 在一个实施例中,接口装置可以允许操作者同时操作和控制注射器装置和成像设备。 接口装置可以允许注射器系统和成像系统将关于其当前和将来的操作状态的信息彼此传送。 接口装置可用于同步成像设备和注射器装置的操作。 在一个实施例中,注射器装置和成像设备可以能够通过包括二进制逻辑信号的通信协议直接或通过接口装置进行通信。 二进制逻辑信号可以包括低强度信号,高强度信号,在低信号强度和高信号强度之间振荡的振荡信号及其组合中的一个或多个。
    • 6. 发明授权
    • Peristaltic syringe filling station
    • 蠕动式注射器灌装站
    • US07703483B2
    • 2010-04-27
    • US10559298
    • 2004-06-04
    • Steven HartmanAlan Cross-HansenClark GodfreyRobert C. Williams
    • Steven HartmanAlan Cross-HansenClark GodfreyRobert C. Williams
    • B65B1/04
    • B65B3/003A61M5/1782
    • The present invention is directed to a syringe filling station that can fill a syringe with a specified volume of fluid. In one embodiment, the syringe filling station comprises a reservoir attachment, a fluid delivery system, a syringe retaining guide, and a pump to move fluid from a reservoir to a syringe. The fluid delivery system may comprise a sterile consumable cartridge that is insertable into the filling station and defines a fluid pathway from a reservoir to a syringe. The syringe filling station may also include a user interface. An operator can input commands into the user interface to specify the amount of fluid to dispense into the syringe. The user interface may be connected to a processor that controls the rate of pumping and thereby can fill a syringe with a desired amount of fluid. The filling station may also include sensors that detect air in the tubing, depletion of the reservoir, among other things.
    • 本发明涉及一种能够以特定体积的流体填充注射器的注射器加注站。 在一个实施例中,注射器加注站包括储存器附件,流体输送系统,注射器保持引导件和用于将流体从储存器移动到注射器的泵。 流体输送系统可以包括无菌消耗性药筒,其可插入到加注站中并且限定从储存器到注射器的流体路径。 注射器加注站还可以包括用户界面。 操作员可以将命令输入到用户界面中,以指定注入注射器的流体量。 用户界面可以连接到控制泵送速率的处理器,从而可以用期望量的流体填充注射器。 加料站还可以包括检测管道中的空气,储存器的耗尽等的传感器。
    • 7. 发明授权
    • High temperature vacuum furnace
    • 高温真空炉
    • US4702696A
    • 1987-10-27
    • US923844
    • 1986-10-28
    • Peter BunzaAlan Cross-Hansen
    • Peter BunzaAlan Cross-Hansen
    • B01J3/00B22F3/10F27B5/05F27B17/02F27D7/06F27B5/04
    • F27B17/02
    • A vacuum furnace for heating dental reconstructionproducts using sintered powder metal that includes a sealed vacuum tube made of a material having a relatively low thermal shock resistance characteristic. The vacuum tube is desirably relatively short. The vacuum tube chamber has a heating chamber and end seals for the vacuum tube have a maximum use temperature of less than 200.degree. C. Insulation is positioned around and connected to the tube proximate the ends of the tube, and heating elements are placed around the heating chamber in an annular insulation chamber formed in the insulation between the insulation and the vacuum tube. Opposed annular clearances extending to positions proximately spaced from the ends of the tube and opening to the central annular insulation chamber are formed between the insulation means and the vacuum tube. The insulation prevents heat from passing to the ends of the tube and overheating the seals there. The annular clearances controls the rate of heat emanating from the heating elements during the heatng process so that the heat generated by the heating elements is absorbed by the tube at a gradual controllable temperature gradient along the length of the tube that is less that the rate of heat gain that would be beyond the tolerance of the thermal shock resistance characteristic of the tube, so that cracking of the tube during heating is avoided.
    • 9. 发明授权
    • Peristaltic syringe filling station
    • 蠕动式注射器灌装站
    • US08220504B2
    • 2012-07-17
    • US12720291
    • 2010-03-09
    • Steven HartmanAlan Cross-HansenClark GodfreyRobert C. Williams
    • Steven HartmanAlan Cross-HansenClark GodfreyRobert C. Williams
    • B65B1/04
    • B65B3/003A61M5/1782
    • The present invention is directed to a syringe filling station that can fill a syringe with a specified volume of fluid. In one embodiment, the syringe filling station comprises a reservoir attachment, a fluid delivery system, a syringe retaining guide, and a pump to move fluid from a reservoir to a syringe. The fluid delivery system may comprise a sterile consumable cartridge that is insertable into the filling station and defines a fluid pathway from a reservoir to a syringe. The syringe filling station may also include a user interface. An operator can input commands into the user interface to specify the amount of fluid to dispense into the syringe. The user interface may be connected to a processor that controls the rate of pumping and thereby can fill a syringe with a desired amount of fluid. The filling station may also include sensors that detect air in the tubing, depletion of the reservoir, among other things.
    • 本发明涉及一种能够以特定体积的流体填充注射器的注射器加注站。 在一个实施例中,注射器加注站包括储存器附件,流体输送系统,注射器保持引导件和用于将流体从储存器移动到注射器的泵。 流体输送系统可以包括无菌消耗性药筒,其可插入到加注站中并且限定从储存器到注射器的流体路径。 注射器加注站还可以包括用户界面。 操作员可以将命令输入到用户界面中,以指定注入注射器的流体量。 用户界面可以连接到控制泵送速率的处理器,从而可以用期望量的流体填充注射器。 加料站还可以包括检测管道中的空气,储存器的耗尽等的传感器。
    • 10. 发明申请
    • Interface Device and Protocol
    • 接口设备和协议
    • US20090214094A1
    • 2009-08-27
    • US11568033
    • 2005-04-21
    • Robert WilliamsAlan Cross-HansenTito Tengco
    • Robert WilliamsAlan Cross-HansenTito Tengco
    • G06K9/00
    • A61M5/007A61B6/481A61B6/504A61B6/548A61B6/566A61M5/172A61M2205/3561G06F19/00G16H40/63
    • The invention is an interface device and system for establishing an operating interface between an injector device and diagnostic imaging equipment. In one embodiment, the interface device may permit an operator to concurrently operate and control the injector device and the imaging equipment. The interface device may permit the injector system and the imaging system to communicate information regarding their current and future operational status with each other. The interface device may be used to synchronize the operation of the imaging equipment and the injector device. In one embodiment, the injector device and the imaging equipment may be able to communicate with each other directly or through the interface device via a communications protocol comprising binary logic signals. The binary logic signals may comprise one or more of a low strength signal, a high strength signal, an oscillating signal that oscillates between low and high signal strength, and combinations thereof.
    • 本发明是用于在注射器装置和诊断成像设备之间建立操作界面的界面装置和系统。 在一个实施例中,接口装置可以允许操作者同时操作和控制注射器装置和成像设备。 接口装置可以允许注射器系统和成像系统将关于其当前和将来的操作状态的信息彼此传送。 接口装置可用于同步成像设备和注射器装置的操作。 在一个实施例中,注射器装置和成像设备可以能够通过包括二进制逻辑信号的通信协议直接或通过接口装置进行通信。 二进制逻辑信号可以包括低强度信号,高强度信号,在低信号强度和高信号强度之间振荡的振荡信号及其组合中的一个或多个。