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    • 7. 发明授权
    • Foreign matter detecting device
    • 异物检测装置
    • US4376951A
    • 1983-03-15
    • US206219
    • 1980-11-12
    • Takashi Miyazawa
    • Takashi Miyazawa
    • B07C5/12G01N21/90G01N33/00H04N7/18
    • G01N21/9036B07C5/126G01N21/9018G01N2033/0081Y10S209/939
    • In general, used beer, alcoholic drink, soft drink or medical bottles are collected to be used again. Such used returnable bottles often have foreign matters or contaminants such as dust and leavings or cracks, and they must be removed from the bottling line before or after the bottle cleaning process. This invention positively satisfies such a requirement. The foreign matter detecting device comprises: a photoelectric conversion device having a number of light receiving elements; and a video signal processing device for successively subjecting to comparison and discrimination the detection signals of variable two adjacent points which are detected by the photoelectric conversion device, to determine whether or not the bottle has a foreign matter.
    • 一般来说,二手啤酒,酒精饮料,软饮料或医用瓶子被收集再次使用。 这种使用的可回收瓶子常常具有异物或污染物,例如灰尘和留下或裂缝,并且必须在瓶子清洁过程之前或之后从装瓶线上移除。 本发明正是满足这一要求。 异物检测装置包括:具有多个光接收元件的光电转换装置; 以及视频信号处理装置,用于连续地对由光电转换装置检测到的可变两个相邻点的检测信号进行比较和判别,以确定瓶子是否具有异物。
    • 8. 发明授权
    • Bottle inspection apparatus
    • 瓶检装置
    • US4280624A
    • 1981-07-28
    • US947547
    • 1978-10-02
    • Geoffrey E. Ford
    • Geoffrey E. Ford
    • B08B9/46B07C5/12G01N21/90G01N33/00B07C5/342
    • G01N21/9036B07C5/126G01N21/9018G01N2033/0081Y10S209/934Y10S209/939
    • The invention relates to an apparatus for inspecting the side walls of transparent bottles for the detection of dirt or foreign bodies therein which eliminates the necessity of rotating the bottle during inspection. The inspection is effected by projecting a plurality of images of the side walls of a bottle, as viewed from at least two different directions in plan, on to at least one integrated circuit device comprising an array of photodiodes arranged in a plurality of rows in combination with means to interrogate each diode in turn, along each row in turn, to provide a video signal comprising a sequence of electrical signals corresponding to the light energy each diode has received. The video signal is differentiated and unwanted signals outside of the limits of the side walls to be inspected are gated out, whereby to generate a video output pulse representative of dirt in the bottle.
    • 本发明涉及一种用于检查透明瓶的侧壁以检测其中的污物或异物的装置,其消除了在检查期间旋转瓶子的必要性。 通过将从计划中的至少两个不同方向观察的瓶的侧壁的多个图像投影到包括以组合排列成多行的光电二极管阵列的至少一个集成电路装置来实现检查 具有随后依次询问每个二极管的装置,以依次提供一个视频信号,该信号包括对应于每个二极管接收到的光能的一系列电信号。 视频信号被区分,并且被检查的侧壁限制之外的不需要的信号被选通,从而产生代表瓶子中的污物的视频输出脉冲。
    • 9. 发明授权
    • Apparatus and method for container recognition
    • 容器识别装置及方法
    • US4259571A
    • 1981-03-31
    • US42468
    • 1979-05-25
    • Gregory T. Dubberly
    • Gregory T. Dubberly
    • B07C5/10B07C5/12G07F7/06G06M7/00
    • B07C5/10B07C5/126G07F7/0609
    • Apparatus and method for observing containers which are transported through an illumination station, and generating a recognition signal on the basis of leading edge scanning information. Leading edge scanning information is produced by a trigger photodetector and a plurality of vertically arranged registration photodetectors. A container which is to be recognized is carried through the illumination station by a conveyor, and the conveyor generates conveyor clock pulses corresponding to actual movement of the container through the illumination station. The trigger photodetector senses the leading edge of the container, and it generates a trigger signal which enables a counter to begin counting conveyor clock pulses. The registration photodetectors are positioned downstream from the trigger photodetector and are connected for terminating the counting of conveyor clock pulses upon detection of the container leading edge at their respective positions.There is also disclosure of a vertically progressing arrangement of height detecting photodetectors positioned above and upstream from the trigger photodetector. The height detecting photodetectors perform a height classification at the instant of activation of the trigger photodetector. The system includes a plurality of recognition circuits for recognizing different classes of containers, and the height classification is used for selecting those recognition circuits to be employed for recognition of the particular container being observed.
    • 用于观察通过照明台传送的容器并根据前缘扫描信息生成识别信号的装置和方法。 前沿扫描信息由触发光电检测器和多个垂直布置的配准光电探测器产生。 要识别的容器通过输送机被携带通过照明台,并且输送机产生与通过照明台的容器的实际移动相对应的输送机时钟脉冲。 触发光电检测器感测容器的前沿,并且其产生触发信号,使得计数器能够开始计数传送带时钟脉冲。 配准光电检测器位于触发光电检测器的下游,并且被连接用于在检测到它们各自位置处的容器前缘时终止输送机时钟脉冲的计数。 还公开了位于触发光电检测器上方和上游的高度检测光电检测器的垂直进行布置。 高度检测光电检测器在触发光电检测器的激活瞬间执行高度分类。 该系统包括用于识别不同类别的容器的多个识别电路,并且使用高度分类来选择要用于识别正在观察的特定容器的那些识别电路。
    • 10. 发明授权
    • Glass container inspection machine
    • 玻璃容器检验机
    • US4021122A
    • 1977-05-03
    • US484709
    • 1974-07-01
    • Willy Krenmayr
    • Willy Krenmayr
    • B07C5/12G01N21/90G01N33/00G01N21/32
    • G01N21/9009B07C5/126B07C5/365G01N21/9054G01N2033/0081
    • Containers are diverted from a conveyor onto a base where each container is rolled into an inspection station defined by three rollers. A side belt rolls the containers against a rail and one of the three rollers projects beyond the rail at said inspection station. The other two rollers are independently mounted on oscillating arms which move the side belts into contact with the container to rotate it at said inspection station. An improved inspection head is also disclosed, and the method of fabricating said head whereby the machine can be set-up for inspecting containers of various configuration with a minimum downtime of the machine, all of the light emitters and sensors being frozen in a block in a head for a particular container configuration.
    • 容器从输送机转移到基座上,每个容器被卷入由三个辊定义的检查站。 侧带将容器卷绕在轨道上,三个辊中的一个在所述检查站处突出超过轨道。 另外两个辊独立地安装在摆动臂上,摆动臂将侧带移动与容器接触,以便在所述检查站转动。 还公开了一种改进的检查头,以及制造所述头部的方法,由此可以设置机器以便以机器的最小停机时间来检查各种构造的容器,所有的发光器和传感器被冻结在块中 用于特定容器配置的头。