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    • 3. 发明申请
    • SECURITY INSPECTION DOOR
    • 安全检查门
    • US20090321638A1
    • 2009-12-31
    • US12468194
    • 2009-05-19
    • Haifeng HuZhiqiang ChenYuanjing LiJin LinJinyu ZhangHua PengQingjun ZhangZhongxia ZhangYangtian ZhangXiaoti YinLiwei Song
    • Haifeng HuZhiqiang ChenYuanjing LiJin LinJinyu ZhangHua PengQingjun ZhangZhongxia ZhangYangtian ZhangXiaoti YinLiwei Song
    • G01N23/00G01T1/00G01R19/00
    • G01V11/00G01N1/02G01N2001/022
    • The present invention discloses a security inspection door comprising a narcotic drug/explosive detecting subsystem, a radioactive substance detecting subsystem and a metal detecting subsystem which are provided in a tank body, wherein electromagnetic radiation shields are respectively provided around the three detecting subsystems, so that the narcotic drug/explosive detecting subsystem, the radioactive substance detecting subsystem and the metal detecting subsystem are isolated from one another and are not interfered with one another. In the present invention, the narcotic drug/explosive detecting subsystem, the radioactive substance detecting subsystem and the metal detecting subsystem are combined together for the first time to form a novel security inspection door, so the narcotic drugs/the explosives, the radioactive substances and the dangerous metal articles can be detected at the same time. Further, in the present invention, electromagnetic radiation shields are respectively provided around the three detecting subsystems, so that the three detecting subsystems are isolated from one another and are not interfered with one another, and thus, the inspection reliability and the inspection accuracy are improved.
    • 本发明公开了一种安全检查门,其包括设在罐体内的麻醉药物/爆炸物检测子系统,放射性物质检测子系统和金属检测子系统,其中分别在三个检测子系统周围设置电磁辐射屏蔽,使得 麻醉药品/爆炸物检测子系统,放射性物质检测子系统和金属检测子系统彼此隔离,不会相互干扰。 在本发明中,麻醉药物/爆炸物检测子系统,放射性物质检测子系统和金属检测子系统首次组合形成新型安全检查门,麻醉药品/爆炸物,放射性物质和 可以同时检测危险的金属制品。 此外,在本发明中,在三个检测子系统周围分别设置有电磁辐射屏蔽,使得三个检测子系统彼此隔离并且不彼此干扰,从而提高了检查可靠性和检查精度 。
    • 4. 发明授权
    • Ion gate for dual ion mobility spectrometer and method thereof
    • 双离子迁移谱仪的离子门及其方法
    • US08013297B2
    • 2011-09-06
    • US12579719
    • 2009-10-15
    • Hua PengQingjun ZhangJin LinYuanjing LiZhiqiang ChenShaoji MaoZhude DaiDai Hua, legal representativeShiping CaoZhongxia ZhangYangtian ZhangDexu LinQinghua Wang
    • Hua PengQingjun ZhangJin LinYuanjing LiZhiqiang ChenShaoji MaoZhude DaiShiping CaoZhongxia ZhangYangtian ZhangDexu LinQinghua Wang
    • G01N27/64H01J49/06
    • H01J3/04H01J49/004H01J49/061
    • Disclosed is an ion gate for a dual IMS and method. The ion gate includes an ion source, a first gate electrode placed on one side of the ion source, a second gate electrode placed on the other side of the ion source, a third gate electrode placed on the side of the first gate electrode away from the ion source, a fourth gate electrode placed on the side of the second gate electrode away from the ion source, wherein during the ion storage, the potential at the position on the tube axis of the ion gate corresponding to the first gate electrode is different from the potentials at the positions on the tube axis corresponding to the ion source and the third gate electrode, and the potential at the position on the tube axis corresponding to the second gate electrode is different from the potentials at the positions on the tube axis corresponding to the ion source and the fourth gate electrode. According to the present invention, after sample gas enters the ion gates, charge exchange with reaction ions occurs between the first gate electrode and the second electrode, and positive and negative ions are continuously stored into the storage regions for the positive and negative ions. This leads to an improvement of utility rate of ions. Then, the ions are educed in a step-wise manner from the storage regions for the positive and negative ions by a simple control of a combination of the electrodes.
    • 公开了一种用于双重IMS和方法的离子门。 离子浇口包括离子源,位于离子源一侧的第一栅电极,位于离子源另一侧的第二栅电极,位于第一栅电极侧的第三栅电极, 离子源,第四栅极放置在远离离子源的第二栅电极侧,其中在离子存储期间,对应于第一栅电极的离子门的管轴上的位置的电位不同 从对应于离子源和第三栅电极的管轴上的位置的电位和对应于第二栅电极的管轴上的位置的电位与管轴对应的位置的电位不同 到离子源和第四栅电极。 根据本发明,在样品气体进入离子浇口之后,在第一栅电极和第二电极之间产生与反应离子的电荷交换,正离子和负离子被连续地存储在正离子和负离子的存储区中。 这导致了离子的利用率的提高。 然后,通过简单地控制电极的组合,从正离子和负离子的存储区域逐步地排出离子。
    • 5. 发明授权
    • Ion mobility spectrometer
    • 离子迁移谱仪
    • US08405024B2
    • 2013-03-26
    • US13000337
    • 2009-07-06
    • Yuanjing LiQingjun ZhangHua PengYangtian Zhang
    • Yuanjing LiQingjun ZhangHua PengYangtian Zhang
    • H01J49/40
    • G01N27/622
    • Disclosed is an ion mobility spectrometer. The ion mobility spectrometer comprises a sample injector (14), a semipermeable membrane (15), an ionization region (16), a terminal electrode (18), an ion storage region, a drift region and a Faraday plate (22), which are arranged along a drift tube in turn, wherein one or more air inlets (29) connected with a needle valve (30) and a first filtering device (31) are arranged in one side near the semipermeable membrane (15) of the ionization region (16), there is at least one opening in the terminal electrode (18), whose diameter is smaller than the diameter of the air inlets (29), an air outlet (28) connected with an air extracting pump (27) is arranged near the terminal electrode (18) in the ionization region (16), the drift region is separated from the ionization region (16) by a micropore structure of the ion storage region, another air outlet (25) connected with another air extracting pump (26) is arranged at one side near the Faraday plate (22) of the terminal electrode (18).
    • 公开了一种离子迁移谱仪。 离子迁移谱仪包括样品注射器(14),半透膜(15),电离区域(16),端子电极(18),离子存储区域,漂移区域和法拉第板(22) 依次沿漂移管布置,其中与针阀(30)连接的一个或多个空气入口(29)和第一过滤装置(31)布置在电离区域的半透膜(15)附近的一侧 (16)中,在端子电极(18)中至少有一个开口,其直径小于空气入口(29)的直径,与空气抽取泵(27)连接的空气出口(28) 在离子化区域(16)中的端子电极(18)附近,通过离子存储区域的微孔结构将漂移区域与电离区域(16)分离,另一个空气出口(25)与另一空气抽取泵 26)布置在靠近端子电极(18)的法拉第板(22)的一侧。
    • 7. 发明申请
    • ION MOBILITY SPECTROMETER
    • 离子移动光谱仪
    • US20110114837A1
    • 2011-05-19
    • US13000337
    • 2009-07-06
    • Yuanjing LiQingjun ZhangHua PengYangtian Zhang
    • Yuanjing LiQingjun ZhangHua PengYangtian Zhang
    • H01J49/40
    • G01N27/622
    • Disclosed is an ion mobility spectrometer. The ion mobility spectrometer comprises a sample injector (14), a semipermeable membrane (15), an ionization region (16), a terminal electrode (18), an ion storage region, a drift region and a Faraday plate (22), which are arranged along a drift tube in turn, wherein one or more air inlets (29) connected with a needle valve (30) and a first filtering device (31) are arranged in one side near the semipermeable membrane (15) of the ionization region (16), there is at least one opening in the terminal electrode (18), whose diameter is smaller than the diameter of the air inlets (29), an air outlet (28) connected with an air extracting pump (27) is arranged near the terminal electrode (18) in the ionization region (16), the drift region is separated from the ionization region (16) by a micropore structure of the ion storage region, another air outlet (25) connected with another air extracting pump (26) is arranged at one side near the Faraday plate (22) of the terminal electrode (18).
    • 公开了一种离子迁移谱仪。 离子迁移谱仪包括样品注射器(14),半透膜(15),电离区域(16),端子电极(18),离子存储区域,漂移区域和法拉第板(22) 依次沿漂移管布置,其中与针阀(30)连接的一个或多个空气入口(29)和第一过滤装置(31)布置在电离区域的半透膜(15)附近的一侧 (16)中,在端子电极(18)中至少有一个开口,其直径小于空气入口(29)的直径,与空气抽取泵(27)连接的空气出口(28) 在离子化区域(16)中的端子电极(18)附近,通过离子存储区域的微孔结构将漂移区域与电离区域(16)分离,另一个空气出口(25)与另一空气抽取泵 26)布置在靠近端子电极(18)的法拉第板(22)的一侧。
    • 8. 发明申请
    • ION GATE FOR DUAL ION MOBILITY SPECTROMETER AND METHOD THEREOF
    • 用于双离子移动光谱仪的离子通道及其方法
    • US20100102219A1
    • 2010-04-29
    • US12579719
    • 2009-10-15
    • Hua PengQingjun ZhangJin LinYuanjing LiZhiqiang ChenShaoji MaoZhude DaiShiping CaoZhongxia ZhangYangtian ZhangDexu LinQinghua WangZhang Qing Jun
    • Hua PengQingjun ZhangJin LinYuanjing LiZhiqiang ChenShaoji MaoZhude DaiShiping CaoZhongxia ZhangYangtian ZhangDexu LinQinghua WangZhang Qing Jun
    • H01J49/02B01D59/44
    • H01J3/04H01J49/004H01J49/061
    • Disclosed is an ion gate for a dual IMS and method. The ion gate includes an ion source, a first gate electrode placed on one side of the ion source, a second gate electrode placed on the other side of the ion source, a third gate electrode placed on the side of the first gate electrode away from the ion source, a fourth gate electrode placed on the side of the second gate electrode away from the ion source, wherein during the ion storage, the potential at the position on the tube axis of the ion gate corresponding to the first gate electrode is different from the potentials at the positions on the tube axis corresponding to the ion source and the third gate electrode, and the potential at the position on the tube axis corresponding to the second gate electrode is different from the potentials at the positions on the tube axis corresponding to the ion source and the fourth gate electrode. According to the present invention, after sample gas enters the ion gates, charge exchange with reaction ions occurs between the first gate electrode and the second electrode, and positive and negative ions are continuously stored into the storage regions for the positive and negative ions. This leads to an improvement of utility rate of ions. Then, the ions are educed in a step-wise manner from the storage regions for the positive and negative ions by a simple control of a combination of the electrodes.
    • 公开了一种用于双重IMS和方法的离子门。 离子浇口包括离子源,位于离子源一侧的第一栅电极,位于离子源另一侧的第二栅电极,位于第一栅电极侧的第三栅电极, 离子源,第四栅极放置在远离离子源的第二栅电极侧,其中在离子存储期间,对应于第一栅电极的离子门的管轴上的位置的电位不同 从对应于离子源和第三栅电极的管轴上的位置的电位和对应于第二栅电极的管轴上的位置的电位与管轴对应的位置的电位不同 到离子源和第四栅电极。 根据本发明,在样品气体进入离子浇口之后,在第一栅电极和第二电极之间产生与反应离子的电荷交换,正离子和负离子被连续地存储在正离子和负离子的存储区中。 这导致了离子的利用率的提高。 然后,通过简单地控制电极的组合,从正离子和负离子的存储区域逐步地排出离子。