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公开(公告)号:US09448188B2
公开(公告)日:2016-09-20
申请号:US14412516
申请日:2013-07-02
发明人: Jianmin Li , Yinong Liu , Yulan Li , Chunguang Zong , Hui Gong , Qingping Huang , Weifeng Yu
CPC分类号: G01N23/10 , G01N23/04 , G01N2223/301 , G01N2223/308 , G01V5/0016 , G01V5/0066
摘要: The present invention discloses a vehicular radiation inspection system comprising a mobile vehicle body, a detection arm, a radiation source and a detector. The vehicular radiation inspection system further comprises a following mechanism separated from the detection arm. The following mechanism contains radiation protection material, and the following mechanism follows the detection arm to move in a non-contact manner during inspection of the inspected object, so as to prevent radiation leakage. In the present invention, it does not need to infuse radiation protection material having a high density, such as lead, into the detection arm. Therefore, it can effectively decrease the weight of the detection arm, and it does not need to provide a balance counterweight on the mobile vehicle body on which the detection arm is carried, thereby effectively solving the problem that the vehicular radiation inspection system has an excessively large mass. Meanwhile, in the present invention, the moving process of the following mechanism is accurately controlled, so as to prevent the following mechanism from hitting the detection arm.
摘要翻译: 本发明公开了一种包括移动车身,检测臂,辐射源和检测器的车辆辐射检查系统。 车辆辐射检查系统还包括与检测臂分离的跟随机构。 以下机构包含辐射防护材料,并且在检查被检查物体的检查期间,跟随检测臂的机构以非接触的方式移动,以防止辐射泄漏。 在本发明中,不需要将诸如铅的高密度的辐射防护材料注入到检测臂中。 因此,能够有效地降低检测臂的重量,并且不需要在携带检测臂的移动体上提供平衡配重,从而有效地解决了车辆用辐射检查系统过度的问题 大量。 同时,在本发明中,精确地控制以下机构的移动过程,以防止以下机构撞击检测臂。
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公开(公告)号:US09915751B2
公开(公告)日:2018-03-13
申请号:US14769308
申请日:2014-07-22
发明人: Kejun Kang , Jianmin Li , Yuanjing Li , Yulan Li , Jingyu Gu , Weizhen Wang , Quanwei Song , Qingjun Zhang , Shenjin Ming , Xuewu Wang , Hui Gong , Tao Xue
IPC分类号: G01V5/00
CPC分类号: G01V5/0016 , G01V5/0075
摘要: The present application discloses a detector module, which is arranged on a detector arm, comprising one or a plurality of detector units arranged in a scattered configuration, wherein each of the detector units in the detector module is installed aiming at a beam center of a ray source, thus improving imaging quality and reducing the size of a detector frame drastically.
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公开(公告)号:US20150192531A1
公开(公告)日:2015-07-09
申请号:US14412516
申请日:2013-07-02
发明人: Jianmin Li , Yinong Liu , Yulan Li , Chunguang Zong , Hui Gong , Qingping Huang , Weifeng Yu
CPC分类号: G01N23/10 , G01N23/04 , G01N2223/301 , G01N2223/308 , G01V5/0016 , G01V5/0066
摘要: The present invention discloses a vehicular radiation inspection system comprising a mobile vehicle body, a detection arm, a radiation source and a detector. The vehicular radiation inspection system further comprises a following mechanism separated from the detection arm. The following mechanism contains radiation protection material, and the following mechanism follows the detection arm to move in a non-contact manner during inspection of the inspected object, so as to prevent radiation leakage. In the present invention, it does not need to infuse radiation protection material having a high density, such as lead, into the detection arm. Therefore, it can effectively decrease the weight of the detection arm, and it does not need to provide a balance counterweight on the mobile vehicle body on which the detection arm is carried, thereby effectively solving the problem that the vehicular radiation inspection system has an excessively large mass. Meanwhile, in the present invention, the moving process of the following mechanism is accurately controlled, so as to prevent the following mechanism from hitting the detection arm.
摘要翻译: 本发明公开了一种包括移动车身,检测臂,辐射源和检测器的车辆辐射检查系统。 车辆辐射检查系统还包括与检测臂分离的跟随机构。 以下机构包含辐射防护材料,并且在检查被检查物体的检查期间,跟随检测臂的机构以非接触的方式移动,以防止辐射泄漏。 在本发明中,不需要将诸如铅的高密度的辐射防护材料注入到检测臂中。 因此,能够有效地降低检测臂的重量,并且不需要在携带检测臂的移动体上提供平衡配重,从而有效地解决了车辆用辐射检查系统过度的问题 大量。 同时,在本发明中,精确地控制以下机构的移动过程,以防止以下机构撞击检测臂。
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公开(公告)号:US20160170073A1
公开(公告)日:2016-06-16
申请号:US14965122
申请日:2015-12-10
发明人: Jianmin LI , Yulan LI , Jingyu GU , Yuanjing LI , Quanwei SONG , Weizhen WANG , Dongyu WANG , Zhiqiang CHEN , Chaunxiang TANG , Yinong LIU , Junli LI , Tao XUE , Hui Gong , Xuewu WANG
CPC分类号: G01V5/0016 , B60R11/00 , B60R2011/004
摘要: A vehicle mounted mobile container or vehicle inspection system, including: a radiation source, a movable vehicle for carrying the inspection system, and a detector arm rack which has a horizontal arm and a vertical arm, a first end of the horizontal arm is connected to the vehicle and a second end thereof is connected to an end of the vertical arm. The horizontal arm and the vertical arm are connected by a pivotal connecting device such that the vertical arm may pivot in a vertical plane, and the horizontal arm and the vertical arm may be retracted in a same horizontal plane. The novel arm rack construction may reduce the space occupied by it on top of the scanning vehicle after the arm rack is stowed so as to reduce the eight of the scanning vehicle under running condition.
摘要翻译: 一种车载移动容器或车辆检查系统,包括:辐射源,用于携带检查系统的移动车辆和具有水平臂和垂直臂的检测器臂架,水平臂的第一端连接到 车辆及其第二端连接到垂直臂的一端。 水平臂和垂直臂通过枢转连接装置连接,使得垂直臂可以在垂直平面中枢转,并且水平臂和垂直臂可以在相同的水平面中缩回。 新型臂架结构可以在搁架臂架之后减小扫描车辆顶部占据的空间,以便在运行状态下减少扫描车辆的八个。
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公开(公告)号:US09823382B2
公开(公告)日:2017-11-21
申请号:US14965122
申请日:2015-12-10
发明人: Jianmin Li , Yulan Li , Jingyu Gu , Yuanjing Li , Quanwei Song , Weizhen Wang , Dongyu Wang , Zhiqiang Chen , Chaunxiang Tang , Yinong Liu , Junli Li , Tao Xue , Hui Gong , Xuewu Wang
CPC分类号: G01V5/0016 , B60R11/00 , B60R2011/004
摘要: A vehicle mounted mobile container or vehicle inspection system, including: a radiation source, a movable vehicle for carrying the inspection system, and a detector arm rack which has a horizontal arm and a vertical arm, a first end of the horizontal arm is connected to the vehicle and a second end thereof is connected to an end of the vertical arm. The horizontal arm and the vertical arm are connected by a pivotal connecting device such that the vertical arm may pivot in a vertical plane, and the horizontal arm and the vertical arm may be retracted in a same horizontal plane. The novel arm rack construction may reduce the space occupied by it on top of the scanning vehicle after the arm rack is stowed so as to reduce the eight of the scanning vehicle under running condition.
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