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    • 1. 发明授权
    • Endoscope
    • 内窥镜
    • US09398838B2
    • 2016-07-26
    • US13485959
    • 2012-06-01
    • Gang LongLei SongZhiqiang ChenYaohui WuPing Xia
    • Gang LongLei SongZhiqiang ChenYaohui WuPing Xia
    • A61B1/00A61B1/005A61B1/307A61B1/303A61B1/313
    • A61B1/00066A61B1/00082A61B1/0052A61B1/303A61B1/307A61B1/313
    • An endoscope including a catheter, a steering handle for controlling the bending of the catheter, and a pipe connector. The catheter includes an outer tube and an inner tube. The outer tube is sleeved outside the inner tube. The steering handle includes a handle sleeve and a handle cover. The handle sleeve is sleeved outside the handle cover. An axial guide rail and a sliding block are arranged between the handle sleeve and the handle cover. The guide rail and the sliding block are fixed on the handle sleeve or the handle cover respectively. The outer tube is fixedly connected with the handle sleeve. The inner tube penetrates a through hole in the center of the handle sleeve, is connected with a port of the pipe connector and fixed therein. The pipe connector is positioned in the handle cover and fixedly connected therewith.
    • 一种内窥镜,包括导管,用于控制导管弯曲的转向手柄和管连接器。 导管包括外管和内管。 外管套在内管外面。 转向手柄包括手柄套和手柄盖。 手柄套筒套在手柄盖外面。 在手柄套和手柄盖之间设有轴向导轨和滑块。 导轨和滑块分别固定在手柄套或手柄盖上。 外管与手柄套筒固定连接。 内管穿过手柄套筒中心的通孔,与管连接器的端口连接并固定在其中。 管连接器定位在手柄盖中并与之固定连接。
    • 3. 发明授权
    • Scanning device and method for back-scatter imaging with a radiation beam
    • 用辐射束进行背散射成像的扫描装置和方法
    • US08983033B2
    • 2015-03-17
    • US13142668
    • 2011-04-28
    • Zhiqiang ChenYuanjing LiZiran ZhaoYinong LiuWanlong WuLi ZhangChao TuLe TangYingkang JinShuo CaoGuangwei Ding
    • Zhiqiang ChenYuanjing LiZiran ZhaoYinong LiuWanlong WuLi ZhangChao TuLe TangYingkang JinShuo CaoGuangwei Ding
    • G01N23/203
    • G01N23/203
    • The present invention discloses a scanning device of back-scatter imaging with a radiation beam, comprising: a radiation source; a fixed shield plate and a rotatable shield body disposed between the radiation source and a object to be scanned respectively, wherein the fixed shield plate is stationary with respect to the radiation source and the rotatable shield body is rotatable with respect to the fixed shield plate. The fixed shield plate is provided with a ray passing-through region thereon, which allows for a radiation beam from the radiation source to pass through the fixed shield plate, a ray incidence region and a ray emergence region are arranged on the rotatable shield body respectively, during the rotatable scanning of the rotatable shield body, the ray passing-through region of the fixed shield plate continuously intersects with the ray incidence region and the ray emergence region of the rotatable shield body to generate collimated holes for scanning. The ray passing-through region of the fixed shield plate is a rectilinear slit, the rotatable shield body is a cylinder, and the ray incidence and emergence regions are configured to be a series of small discrete holes disposed along a spiral line respectively. In addition, the present invention discloses a scanning method for back-scatter imaging with a radiation beam.
    • 本发明公开了一种具有辐射束的背散射成像的扫描装置,包括:辐射源; 固定屏蔽板和设置在辐射源和待扫描物体之间的可旋转屏蔽体,其中固定屏蔽板相对于辐射源是静止的,并且可旋转屏蔽体相对于固定屏蔽板可旋转。 固定屏蔽板在其上设有射线通过区域,其允许来自辐射源的辐射束穿过固定屏蔽板,射线入射区域和射线出射区域分别布置在可旋转屏蔽体上 在可旋转的屏蔽体的可旋转扫描期间,固定屏蔽板的光线通过区域与可旋转屏蔽体的射线入射区域和射线出射区域连续相交,以产生用于扫描的准直孔。 固定屏蔽板的光线通过区域是直线狭缝,可旋转的屏蔽体是圆柱体,射线入射区域和出射区域分别被配置成沿着螺旋线设置的一系列小的分立孔。 此外,本发明公开了一种利用辐射束进行背散射成像的扫描方法。
    • 4. 发明申请
    • STORAGE AND DISTRIBUTION DEVICE AND METHOD BASED ON ARRANGEMENT WHEREBY LARGEST SIDES OF BOXED PRODUCTS ARE IN CONTACT WITH ONE ANOTHER
    • 存储和分配设备和方法基于安装在最大的盒子产品的边缘与一个其他的联系
    • US20140255132A1
    • 2014-09-11
    • US14352403
    • 2012-04-20
    • Zhonglin GongZhiqiang Chen
    • Zhonglin GongZhiqiang Chen
    • B65G1/137
    • B65G1/137B65G1/0435B65G1/1376G07F11/62
    • A storage and distribution device and method based on an arrangement whereby the largest sides of boxed products are in contact with one another are disclosed. The device includes a storage device, a blind door and a restocking manipulator. The blind door is disposed at the front of the storage device, and the restocking manipulator is disposed at the rear of the storage device. The storage device includes a plurality of storage units. Each of the storage units includes a matrix storage rack provided with a plurality of storage passages in a matrix arrangement. Each of the storage passages includes two baffle plates having brushes and a bottom plate. A discharge control device is disposed at the front of a discharge end of each storage passage. A spiral spring driver is further disposed on each storage passage. The driver is driven by a spiral spring energy-storage device to move stored items towards the discharge end of the passage. The restocking manipulator automatically restocks according to instructions from a computer. The system of the present invention is highly automatic, and has large storage capacity and short feeding time, thereby substantially increasing space utilization rate and operating efficiency.
    • 公开了一种基于盒装产品的最大边彼此接触的布置的存储和分配装置和方法。 该装置包括存储装置,盲门和补充操纵器。 盲门设置在存储装置的前部,并且补充操纵器设置在存储装置的后部。 存储装置包括多个存储单元。 每个存储单元包括设置有矩阵布置的多个存储通道的矩阵存储架。 每个储存通道包括具有刷子和底板的两个挡板。 排放控制装置设置在每个存储通道的排出端的前部。 进一步设置在每个存储通道上的螺旋弹簧驱动器。 驱动器由螺旋弹簧储能装置驱动,以将存储的物品移向通道的排放端。 补充操作器根据计算机的说明自动重新储存。 本发明的系统是高度自动化的,具有大的存储容量和短的馈送时间,从而大大提高了空间利用率和操作效率。
    • 5. 发明申请
    • CONCEALED DANGEROUS ARTICLES DETECTION METHOD AND DEVICE
    • 隐含危险品检测方法和装置
    • US20140231649A1
    • 2014-08-21
    • US14008903
    • 2012-04-13
    • Ziran ZhaoYingxin WangZhiqiang ChenWanlong Wu
    • Ziran ZhaoYingxin WangZhiqiang ChenWanlong Wu
    • G01N21/35G01J3/02
    • G01N21/3581G01J3/0237G01N21/3563G01V8/005
    • A method and an apparatus for detecting hidden hazardous substance including the steps of: performing terahertz imaging for a detected object; judging whether there is a suspicious area containing the hidden hazardous substance in a terahertz image of the detected object obtained by the terahertz imaging; performing a multi-wavelength spectroscopy measurement to the suspicious area, determining whether the hazardous substance is contained in the suspicious area according to results of multi-wavelength spectroscopy measurement; and outputting the image of the detected object and hazardous substance detecting result. Also disclosed is an apparatus for implementing the method for detecting the hidden hazardous substance according to the present invention. Determination of the hidden hazardous substance can be performed from the perspectives of shape features and substance composition, thus the accuracy of detection is greatly increased.
    • 一种用于检测隐藏的有害物质的方法和装置,包括以下步骤:对检测到的物体执行太赫兹成像; 判断在通过太赫兹成像获得的检测对象的太赫兹图像中是否存在含有隐藏的有害物质的可疑区域; 对可疑区域进行多波长光谱测量,根据多波长光谱测量结果确定有害物质是否包含在可疑区域; 并输出检测对象的图像和有害物质检测结果。 还公开了根据本发明的用于实施隐藏的有害物质检测方法的装置。 可以从形状特征和物质组成的角度来确定隐藏的有害物质,从而大大提高了检测的准确性。
    • 8. 发明授权
    • Sample feeding device for ion mobility spectrometer, method of using the same and ion mobility spectrometer
    • 离子迁移谱仪的采样装置,使用方法和离子迁移谱仪
    • US08362422B2
    • 2013-01-29
    • US13142500
    • 2011-04-27
    • Qingjun ZhangZhiqiang ChenShiping CaoYuanjing LiZiran ZhaoYinong LiuYan ZhengShaoji MaoXiang ZouJianping Chang
    • Qingjun ZhangZhiqiang ChenShiping CaoYuanjing LiZiran ZhaoYinong LiuYan ZhengShaoji MaoXiang ZouJianping Chang
    • H01J49/40H01J49/14G01N27/64
    • G01N27/622
    • The present invention discloses a sample feeding device for an ion mobility spectrometer, which is adapted to guide a sample to be detected into an inlet of a drift tube of the ion mobility spectrometer. The sample feeding device comprises a solid sample feeding component; a sample inlet component; a attachment component, wherein the solid sample feeding component has an internal cavity defined therein, one end of the solid sample feeding component is communicated with the sample inlet component through the internal cavity, while the other end is communicated with the inlet of the ion drift tube through the attachment component; and a gaseous sample feeding component, comprising a body and an external attachment component, the body has a gas channel therein, and the external attachment component includes an inlet hole which is communicated with the gas channel, wherein when the external attachment component is fitted with the sample inlet component, the body is inserted into the internal cavity, so that a channel of the solid sample feeding component is closed, and only the gas channel of the gaseous sample feeding component is communicated with the inlet of the drift tube of the ion mobility spectrometer.
    • 本发明公开了一种用于离子迁移谱仪的样品供给装置,其适于将待检测样品引导到离子迁移谱仪的漂移管的入口中。 样品供给装置包括固体样品供给部件; 样品入口组件; 附着部件,其中固体样品进料部件具有限定在其中的内部空腔,固体样品供给部件的一端通过内部空腔与样品入口部件连通,而另一端与离子漂移入口连通 管穿过附件; 以及气体样品供给部件,其包括主体和外部附接部件,所述主体在其中具有气体通道,并且所述外部附接部件包括与所述气体通道连通的入口孔,其中当所述外部附接部件装配有 样品入口部件,主体插入到内腔中,使得固体样品供给部件的通道关闭,并且仅气态样品供给部件的气体通道与离子的漂移管的入口连通 移动光谱仪。
    • 9. 发明授权
    • Method and apparatus for substance identification
    • 物质识别方法和装置
    • US08290230B2
    • 2012-10-16
    • US12270908
    • 2008-11-14
    • Zhiqiang ChenLi ZhangKejun KangXuewu WangQingping HuangYuanjing LiYinong LiuZiran ZhaoYongshun Xiao
    • Zhiqiang ChenLi ZhangKejun KangXuewu WangQingping HuangYuanjing LiYinong LiuZiran ZhaoYongshun Xiao
    • G06K9/00
    • G01N23/04G01N23/087G01N2223/423
    • A method for substance identification and an apparatus thereof are disclosed. The method comprises comprising steps of: transmitting an object under inspection using high-energy rays and low-energy rays, so as to obtain a high-energy transmission image and a low-energy transmission image for the object, wherein a value of each pixel in the high-energy image indicates a high-energy transparency of the high-energy rays with respect to corresponding parts of the object, and a value of each pixel in the low-energy image indicates a low-energy transparency of the low-energy rays with respect to corresponding parts of the object; calculating a value of a first function for the high-energy transparency and a value of a second function for the high-energy transparency and the low-energy transparency, for each pixel; and classifying locations determined by the value of the first function and the value of the second function using a pre-created classification curve, so as to identify the type of the substance of a part of the object corresponding to each pixel. With the present invention, it is possible to not only obtain a transmission image of the object, but also obtain material information in the object.
    • 公开了一种物质识别方法及其装置。 该方法包括以下步骤:使用高能射线和低能射线发射被检查物体,以获得该物体的高能透射图像和低能透射图像,其中每个像素的值 在高能量图像中表示高能量射线相对于物体的相应部分的高能量透明度,并且低能量图像中的每个像素的值表示低能量透射度的低能量 相对于物体的相应部分的射线; 对于每个像素,计算用于高能量透明度的第一函数的值和用于高能量透明度和低能量透明度的第二函数的值; 以及使用预先创建的分类曲线对由第一函数的值和第二函数的值确定的位置进行分类,以便识别与每个像素对应的对象的一部分的实体的类型。 利用本发明,不仅可以获得对象的发送图像,而且可以获得对象中的素材信息。
    • 10. 发明申请
    • SCANNING DEVICE AND METHOD FOR BACK-SCATTER IMAGING WITH A RADIATION BEAM
    • 扫描装置和用于具有辐射束的后扫描成像的方法
    • US20120170716A1
    • 2012-07-05
    • US13142668
    • 2011-04-28
    • Zhiqiang ChenYuanjing LiZiran ZhaoYinong LiuWanlong WuLi ZhangChao TuLe TangYingkang JinShuo CaoGuangwei Ding
    • Zhiqiang ChenYuanjing LiZiran ZhaoYinong LiuWanlong WuLi ZhangChao TuLe TangYingkang JinShuo CaoGuangwei Ding
    • G01N23/203
    • G01N23/203
    • The present invention discloses a scanning device of back-scatter imaging with a radiation beam, comprising: a radiation source; a fixed shield plate and a rotatable shield body disposed between the radiation source and a object to be scanned respectively, wherein the fixed shield plate is stationary with respect to the radiation source and the rotatable shield body is rotatable with respect to the fixed shield plate. The fixed shield plate is provided with a ray passing-through region thereon, which allows for a radiation beam from the radiation source to pass through the fixed shield plate, a ray incidence region and a ray emergence region are arranged on the rotatable shield body respectively, during the rotatable scanning of the rotatable shield body, the ray passing-through region of the fixed shield plate continuously intersects with the ray incidence region and the ray emergence region of the rotatable shield body to generate collimated holes for scanning. The ray passing-through region of the fixed shield plate is a rectilinear slit, the rotatable shield body is a cylinder, and the ray incidence and emergence regions are configured to be a series of small discrete holes disposed along a spiral line respectively. In addition, the present invention discloses a scanning method for back-scatter imaging with a radiation beam.
    • 本发明公开了一种具有辐射束的背散射成像的扫描装置,包括:辐射源; 固定屏蔽板和设置在辐射源和待扫描物体之间的可旋转屏蔽体,其中固定屏蔽板相对于辐射源是静止的,并且可旋转屏蔽体相对于固定屏蔽板可旋转。 固定屏蔽板在其上设有射线通过区域,其允许来自辐射源的辐射束穿过固定屏蔽板,射线入射区域和射线出射区域分别布置在可旋转屏蔽体上 在可旋转的屏蔽体的可旋转扫描期间,固定屏蔽板的光线通过区域与可旋转屏蔽体的射线入射区域和射线出射区域连续相交,以产生用于扫描的准直孔。 固定屏蔽板的光线通过区域是直线狭缝,可旋转的屏蔽体是圆柱体,射线入射区域和出射区域分别被配置成沿着螺旋线设置的一系列小的分立孔。 此外,本发明公开了一种利用辐射束进行背散射成像的扫描方法。