In the method for checking a container inspection system with at least two detection devices, the at least two detection devices are configured to check a first and a second area of the containers to be inspected. A test container is fed to the container inspection system. The test container has a test feature in a first area to be inspected and a marking in a second area to be inspected, which is read by one of the detection devices and with which the test container can be identified as a test container. Also disclosed is a test container for use in connection with the disclosed method.

An inspection process including the steps of: providing at least one specimen to an inspection apparatus; identifying the at least one specimen; inspecting the at least one specimen; assigning a first assessment to the at least one specimen based on the result of the inspection; saving the identification feature together with the inspection data and a first assessment to a raw data storage as a data package; providing the processed data storage to an inspector; assigning the second assessment to the data space of the processed data package; sorting the at least one specimen based on the first or second assessment.

The present invention relates to a method and system for determining the manufacture of a glass container with its mold number. The method consists of marking the molds according to a system of pre-established coordinates based on a Fibonacci system or sinusoidal system, for identifying a mold number with the container that has been formed in that mould. Control means are programmed with the sinusoidal or Fibonacci coordinate system according to various coordinate points of each mold. The containers are formed with a bead or protuberance located at the bottom of each container according to the pre-established coordinate system. The recently formed containers are transported on a conveyor belt. Optical means are used to inspect the containers to identify, by means of the position of the bead or protuberance, the mold number related to the container.

Systems, methods, apparatuses, and computer program products for assessing a plastic container for reuse or recycling. For example, certain embodiments may provide a system that is capable of scanning a tag associated with the plastic container and determining whether to assess the plastic container for suitability for reuse or for recycling based on information scanned from the tag. With respect to recycling specifically, certain embodiments may be capable of assessing the plastic container's suitability for use as an input material to an additive manufacturing process. After assessing the plastic container, the system may perform one or more actions to reuse or recycle the plastic container.

A container inspection system is described herein. The container inspection system includes a camera and a computing system, wherein the camera is configured to capture multiple images of a transparent container as the transparent container is transported along a conveyor. Thus, the camera captures several images of the transparent container when the transparent container is at different positions relative to the camera. The container inspection system detects a defect in the transparent container based upon one or more images in the several images.

An apparatus for inspecting a pharmaceutical cylindrical container made of glass or polymer is provided. The apparatus includes an inspection area, a handling device, and a friction wheel. The handling device has a first holder configured to hold a lateral surface of the pharmaceutical cylindrical container. The first holder includes a first support wheel and a second support wheel. The handling device moves such that the pharmaceutical cylindrical container is transferred from a first transfer position to the inspection area and from the inspection area to a second transfer position. The first holder and/or the friction wheel bring the pharmaceutical cylindrical container into contact with the friction wheel such that the pharmaceutical cylindrical container is rotated around a container longitudinal axis by rotating the first and second support wheels and/or by rotating the friction wheel.

The invention concerns a method for measuring the dimensions of empty glass containers (2) consisting in: selecting at least one region to be inspected of the container, transporting the containers, positioning, on either side of the region to be inspected, at least one focus of an X-ray generator tube and image sensors, acquiring, using image sensors, for each container during its displacement, at least three radiographic images of the inspected region, analyzing the at least three radiographic images so as to determine the three-dimensional coordinates of a set of points to deduce at least one inner diameter of the neck and/or one thickness of the body.

A method for controlling a process for forming glass containers (2) includes the steps of extracting a so-called sample container, acquiring by means of a tomography apparatus (30) several X-ray images of the sample container from different projection angles, sending the X-ray images to a computer (38), and analyzing the X-ray images using a computer. A three-dimensional digital model of the sample container is constructed in a virtual reference frame on the basis of the X-ray images. The position of the three-dimensional digital model with respect to the position of the sample container in a mold reference frame is determined and the three-dimensional digital model is analyzed to determine at least one quality indicator (A) of the sample container.

A system of measuring a top surface of a closure to determine if the closure is properly affixed to a container. Multiple paths of measurements may be collected and analyzed. In various analysis paradigms, measurements on a given path are separated into different sets, such as a leading set that generally includes the first third of measurements, a trailing set that includes the trailing set of measurements, and a middle set that includes the middle third of measurements. Several methods of analysis may be based on a presumption that a properly affixed closure is symmetrical or near symmetrical.

Devices and methods for inspecting containers for the presence of foreign matter include, in at least one embodiment, at least one sampling head, at least one pressure sensor, and a filter. The at least one sampling head is configured to introduce an amount of a first fluid into a container and to remove an amount of a second fluid from the container for inspection for the presence of foreign matter. The at least one pressure sensor is configured to measure a pressure of the second fluid upon removal of the second fluid from the container. The filter is arranged in the at least one sampling head and is configured to filter the second fluid.