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    • 1. 发明公开
    • VERFAHREN UND VORRICHTUNG ZUR INSPEKTION VON LEERFLASCHEN
    • EP2850416A1
    • 2015-03-25
    • EP13718119.4
    • 2013-04-13
    • KHS GmbH
    • HERRMANN, JürgenSCHORN, WolfgangHERRMANN, Marius MichaelZHANG, Xiang
    • G01N21/90
    • G06T7/0008G01N21/90G01N21/9036G01N21/9045G06K9/2054G06T7/70G06T2207/30108
    • The invention relates to a method for inspecting at least one empty container, as a rule empty bottles (5), by detecting a position of a feature arranged on a surface of the empty container, in which the container or the bottle, before inspection, runs through a detection module (1), in which a predefined position of the feature to be detected is scanned optically and/or by sensors in order to detect an actual position of the feature, and the actual position is determined; during a subsequent first inspection (6) a first mask is generated for the determined position of the feature, such that, when performing the first inspection (6) no misdetection occurs in the area of the first mask; after the first inspection has been performed, the container is rotated by a predefined angle (using a rotary module (8)), then the position of the feature is offset with the offset generated by the rotation and is provided as a new position during the performance of a second inspection (7); during the second inspection, a second mask is generated for the provided new position of the feature, such that when the second inspection is performed in the area of the second mask, no misdetection occurs.
    • 用于检查诸如瓶子或类似容器的容器的方法和装置。 披露摘要根据37 C.F.R.的要求提交。 §1.72(b)中。 如37 C.F.R. §1.72(b):说明书中技术性披露的简要摘要必须在单独的表格上开始,最好是在权利要求之后,在“披露摘要”标题下。摘要的目的是使专利和商标 办公室和公众一般从粗略检查中快速确定技术披露的性质和要点。 摘要不得用于解释权利要求的范围。 因此,与摘要相关的任何陈述并不旨在以任何方式限制权利要求,也不应被解释为以任何方式限制权利要求。
    • 2. 发明公开
    • INSPEKTIONSVORRICHTUNG ZUR FREMDSTOFFINSPEKTION
    • EP2649441A1
    • 2013-10-16
    • EP11787603.7
    • 2011-11-05
    • KHS GmbH
    • HERRMANN, JürgenSCHORN, Wolfgang
    • G01N29/04G01N29/22
    • B65G19/02G01N29/046G01N29/225G01N2291/2695
    • The invention relates to a container handling installation (1), in which containers (7), such as bottles or similar and also cans are transported in a transport direction by means of transport elements, said transport elements having centring and/or holding elements (3, 4) for clamping the respective container (7) and the container handling installation (1) has at least one inspection device (8) for checking bottles or similar containers (7) for unwanted foreign matter, said inspection device (8) being connected to an evaluation unit (18). The invention is characterised in that the inspection device (8) is designed as an integral component of the transport element and/or the centring and/or holding element (3, 4) thereof and as a piezo sensor (8) and in that said device is provided with an excitation element which induces each container (7) to be inspected to move in a direction of movement and which cancels and/or reverses said movement. The inspection device (8) can be connected to the container (7) in such a way that the latter can be moved together with the inspection device (8) in the respective direction of movement and in the transport direction.
    • 本发明涉及一种容器搬运设备(1),其中容器(7)例如瓶子或类似物以及罐头通过运输元件在运输方向上运输,所述运输元件具有定心和/或保持元件( 所述检查装置(8)具有至少一个检查装置(8),用于检查瓶子或类似的容器(7)以检查不希望的异物,所述检查装置(8) 连接到评估单元(18)。 本发明的特征在于,检查装置(8)被设计为运输元件和/或其定心和/或保持元件(3,4)和压电传感器(8)的整体部件,并且所述 装置设有激励元件,该激励元件引起待检查的每个容器(7)在运动方向上移动并且取消和/或反转所述运动。 检查装置(8)可以以这样的方式连接到容器(7),使得后者能够与检查装置(8)一起在相应的运动方向和运输方向上移动。
    • 3. 发明公开
    • INSPEKTIONSVORRICHTUNG
    • EP3110701A1
    • 2017-01-04
    • EP15706436.1
    • 2015-02-19
    • KHS GmbH
    • HERRMANN, Jürgen-PeterHERRMANN, Marius MichaelSCHORN, WolfgangZHANG, Xiang
    • B65C9/40B67B3/26B67C3/00G01N21/90
    • The invention relates to a container handling system having an inspection device (1) for checking containers (11), in particular drink containers, and a container transport device (2) for moving the containers into an inspection position (P) of the inspection device (1). In order to provide a container handling system having a particularly compact inspection device designed to check a plurality of container features, provision is made for the inspection device to have at least two control modules from the following group which are combined to form a structural unit : • - control module for checking a tamperproof securing element on a container closure, • - control module for determining a filling quantity of the container, • - control module for detecting the position of a closure logo on the container closure, • - control module for determining the position of a code on the container and/or • - control module for detecting the position of a container label.
    • 本发明涉及一种具有用于检查容器(11)特别是饮料容器的检查装置(1)的容器处理系统以及用于将容器移动到检查装置(2)的检查位置(P)中的容器运输装置(2) (1)。 为了提供具有被设计成检查多个容器特征的特别紧凑的检查装置的容器处理系统,规定检查装置具有至少两个来自以下组的控制模块,所述控制模块被组合以形成结构单元: •控制模块,用于检查容器盖上的防拆保险元件;•控制模块,用于确定容器的灌装量;•控制模块,用于检测容器盖上的盖子标识的位置;•控制模块,用于 确定容器上的代码的位置和/或 - 用于检测容器标签的位置的控制模块。
    • 6. 发明公开
    • ERFASSUNGSSYSTEM UND INSPEKTIONSVERFAHREN ZUR FLASCHENNAHT- UND EMBOSSINGAUSRICHTUNG
    • 检测系统和方法进行检查和FLASCHENNAHT- EMBOSSINGAUSRICHTUNG
    • EP2596340A1
    • 2013-05-29
    • EP11721441.1
    • 2011-05-18
    • KHS GmbH
    • BUCHWALD, CarstenSCHORN, Wolfgang
    • G01N21/90B65C9/06
    • G01N21/9036B65C9/067G01B11/25G01B11/272G01N21/9045
    • The invention relates to a detection system (1) and to an inspection method comprising the detection system (1) for detecting bottles (2) and similar containers (2) that have features arranged on a container wall. The detection system (1) comprises at least one illuminating unit (3) and at least one optical assembly (4) having at least one camera (5), wherein the illuminating unit (3) comprises a plurality of light sources (6) arranged on a plurality of conductive tracks (12), the light sources being arranged one above the other as seen looking in the vertical direction of the illuminating unit, such that by means of the light sources (6) arranged in vertically aligned columns a stripe-shaped light beam (7) can be projected onto a container wall region (8), wherein the respective light beams projected onto the container wall region (8) are spaced from each other, as seen looking in an axial direction of the illuminating unit (3). The detection system (1) is characterised in that the light sources of each conductive track (12) which are arranged in vertically aligned columns, as seen looking in the axial direction, are arranged on said conductive track one above the other without offset, wherein each vertically aligned column (14) of light sources (6) of the respective conductive track (12) can be actuated via a control unit depending on detected surface properties of the container (2) such that the vertically aligned columns (14) are able to project a light pattern onto the container wall region (8) which can be variably adjusted depending on the surface properties.