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    • 1. 发明申请
    • DEVICE FOR THE DIMENSIONAL INSPECTION OF CONTAINERS HAVING CONTACT OPTICAL DETECTION
    • 具有接触式光学检测的容器的尺寸检查装置
    • US20160187165A1
    • 2016-06-30
    • US14903123
    • 2014-07-17
    • MSC & SGCC
    • Etienne LEPRAT
    • G01D5/58G01B5/08
    • G01D5/58G01B5/06G01B5/08G01B11/08
    • The invention relates to an inspection device comprising: movable equipment (6) driven relative to a frame (7) and provided with external and internal inspection gauges (14, 15); detection systems (35, 37) for detecting contacts occurring between the internal and external gauges (15, 14) and the container (2). Each detection system (35, 37) comprises: an emitter and receiver system (70) for emitting and receiving a light beam (71) in a direction parallel to the travel direction of the movable equipment; a movement transformation mechanism (72, 73) carried by the movable equipment (6), for transforming the travel movement of the gauge (14, 15) relative to the movable equipment (6) into a movement that obstructs or ceases to obstruct the light beam (71).
    • 本发明涉及一种检查装置,包括:相对于框架(7)驱动并设有外部和内部检查量规(14,15)的可移动设备(6); 检测系统(35,37),用于检测内部和外部计量器(15,14)和容器(2)之间发生的触点。 每个检测系统(35,37)包括:发射器和接收器系统(70),用于在平行于可移动设备的行进方向的方向上发射和接收光束(71); 由所述可移动设备(6)承载的用于将所述量规(14,15)相对于所述可移动设备(6)的行进运动变换成妨碍或停止阻碍所述光的运动的运动变换机构(72,73) 梁(71)。
    • 2. 发明申请
    • METHOD AND DEVICE FOR DETECTING, IN PARTICULAR, REFRACTING DEFECTS
    • 用于特别检测缺陷的方法和装置
    • US20150204797A1
    • 2015-07-23
    • US14416369
    • 2013-07-18
    • MSC & SGCC
    • Olivier ColleFlorence DrouetMarc Leconte
    • G01N21/90G01N21/958G01N21/88
    • G01N21/90G01N21/8851G01N21/958G01N2021/8832G01N2201/0484G01N2201/062
    • An in-line method for optically inspecting transparent or translucent containers (3) comprises illuminating each container with a light source that presents light intensity variation in a periodic pattern along at least a first variation direction. A number N greater than or equal to three of images of the container traveling in front of the light source and occupying N different respective positions along the travel path is taken. Between taking successive images, a relative shift between the container and the periodic pattern is created. A geometrical transformation is determined and applied in order to put the pixels belonging to the container in the N successive images of the same container into coincidence. A phase image for each container is constructed using the N registered images of the container. The phase image is analyzed in order to deduce therefrom at least the presence of defects or the quality of the container.
    • 用于光学检查透明或半透明容器(3)的在线方法包括用沿着至少第一变化方向呈现周期性图案的光强度变化的光源照亮每个容器。 采取大于或等于在光源前面行进并且沿着行进路径占据N个不同位置的容器的图像的三个数量N。 在拍摄连续图像之间,创建容器和周期性图案之间的相对位移。 确定并应用几何变换以将属于容器的像素放入同一容器的N个连续图像中。 使用容器的N个记录图像来构建每个容器的相位图像。 分析相位图像以便至少从其中推导出缺陷的存在或容器的质量。
    • 6. 发明申请
    • FACILITY FOR MEASURING THE THICKNESS OF THE WALL OF CONTAINERS
    • 用于测量集装箱壁厚度的设施
    • US20150276380A1
    • 2015-10-01
    • US14434780
    • 2013-10-18
    • MSC & SGCC
    • Marc Leconte
    • G01B11/06
    • G01B11/06G01N21/90
    • The invention relates to a facility for measuring the thickness of the wall of containers including:an optical system for collecting and focusing (15) on the detection plane of the light sensor (14), light beams reflected by the outer and inner surfaces of the wall.According to the invention, the optical collecting and focusing system (15) includes:a first objective (21) having is object plane located in the vicinity of the impact of the incident light beam with the wall (3),an at least translucent diffusing screen (23) located in the image plane of the first objective (21), so as to physically represent the light beams collected by the first objective as hot spots (Ti),a second objective (25) including, the diffusing screen (23) as an object plane and the light sensor (14), as an image plane. (Figure to be published: FIG. 3)
    • 本发明涉及一种用于测量容器壁厚度的设备,包括:用于在光传感器(14)的检测平面上收集和聚焦(15)的光学系统,由光传感器(14)的外表面和内表面反射的光束 壁。 根据本发明,光学收集和聚焦系统(15)包括:具有位于入射光束与壁(3)的冲击附近的物平面的第一物镜(21),至少半透明的扩散 屏幕(23),位于第一物镜(21)的像平面中,以物理地表示由第一物镜收集的光束作为热点(Ti),第二物镜(25)包括漫射屏(23) )和光传感器(14)作为图像平面。 (图将公开:图3)
    • 10. 发明授权
    • Method and device for detecting, in particular, refracting defects
    • 用于检测特别是折射缺陷的方法和装置
    • US09551671B2
    • 2017-01-24
    • US14416369
    • 2013-07-18
    • MSC & SGCC
    • Olivier ColleFlorence DrouetMarc Leconte
    • G01N21/00G01N21/90G01N21/958G01N21/88
    • G01N21/90G01N21/8851G01N21/958G01N2021/8832G01N2201/0484G01N2201/062
    • An in-line method for optically inspecting transparent or translucent containers (3) comprises illuminating each container with a light source that presents light intensity variation in a periodic pattern along at least a first variation direction. A number N greater than or equal to three of images of the container traveling in front of the light source and occupying N different respective positions along the travel path is taken. Between taking successive images, a relative shift between the container and the periodic pattern is created. A geometrical transformation is determined and applied in order to put the pixels belonging to the container in the N successive images of the same container into coincidence. A phase image for each container is constructed using the N registered images of the container. The phase image is analyzed in order to deduce therefrom at least the presence of defects or the quality of the container.
    • 用于光学检查透明或半透明容器(3)的在线方法包括用沿着至少第一变化方向呈现周期性图案的光强度变化的光源照亮每个容器。 采取大于或等于在光源前面行进并且沿着行进路径占据N个不同位置的容器的图像的三个数量N。 在拍摄连续图像之间,创建容器和周期性图案之间的相对位移。 确定并应用几何变换以将属于容器的像素放入同一容器的N个连续图像中。 使用容器的N个记录图像来构建每个容器的相位图像。 分析相位图像以便至少从其中推导出缺陷的存在或容器的质量。