An inspection system is provided for the inspection of a lateral surface of a three-dimensional test object. The inspection system includes a conveying structure; (ii) a facet mirror; and (iii) an optical inspection device. In this context, the inspection system is arranged to rotate the conveying structure and the facet mirror in a coordinated manner and in opposite directions of rotation in such a way that each of a plurality of object carriers, as they pass through an inspection area, is imaged onto the inspection device by exactly one of the facets of the facet mirror. A corresponding method for inspection is also provided.

An inspection system having a conveyor which conveys a plurality of articles; a feed screw which is disposed along the conveyor and which sets the interval between the plurality of articles to be greater than or equal to a predetermined interval; and an inspection device which inspects each of the plurality of articles spaced apart from each other at a constant interval by the feed screw.

An apparatus for determining properties of a laboratory sample container is presented. The apparatus comprises a light source for emitting light to illuminate the laboratory sample container and a number of curved reflecting and/or scattering units. A respective curved reflecting and/or scattering unit comprises a curved shape and is adapted to reflect and/or scatter light of the light source to an outer surface of the laboratory sample container for illuminating the laboratory sample container. The apparatus also comprises a camera adapted to take an image of the laboratory sample container. The image comprises image data related to the laboratory sample container. The apparatus also comprises a control unit adapted to determine the properties of the laboratory sample container based on the image data related to the laboratory sample container.

A method for detecting the angular position of a cap with respect to a bottle is provided. A first image of a cap provided with a first marker and of at least a portion of the bottle with which the cap is associated and which is provided with a second marker is captured. Liquid drops and other possible impurities existing thereon are removed from and/or displaced relative to the cap and bottle portion. A second image of the cap and bottle portion is then captured. The first image and second image are compared to obtain at least one processing which is free from “noise” and interferences due to the liquid drops and on which the positions of the first and second markers can be determined without errors. The relative angular position of the first and second markers are determined. An apparatus suitable to implement the aforesaid method is also provided.

An apparatus (1) for optical inspection of objects (2) comprises: a conveyor (3) configured to transport the objects (2) in succession, each object (2) having a bottom wall (21), which rests on the conveyor (3), and a side wall (22); an inspection station (4), disposed along the conveyor (3); an illuminator (6) mounted above the inspection station (4) to emit a beam of light rays towards the conveyor (3); a first lens (7) configured to transmit a corresponding beam of collimated rays; a second lens (8) configured to make the light rays converge on the side wall (22) of the object (2) to be inspected, e.g. the second lens including plurality of lens portion.

An apparatus for printing on containers includes a transporter transports containers that are to be printed upon along a transport track to a container inlet of a printing station. An inspector inspects containers upstream of where transfer of the containers to the container inlet occurs. The inspector includes a light and camera that face each other. The light illuminates a first side of a container and the camera views an opposed second side thereof. Illumination of the first side scatters light from the container, thereby rendering its material distribution visible to the camera. The camera collects data that represents this distribution as different brightness values or gray scale values. A controller uses this data to identify a defective container, the defective container having brightness values or gray scale values that differ from standard values thereof.

A lid detecting system includes a first lid screwing device, a second lid screwing device, a scanning device and a removing device. The first lid screwing device is configured for positioning a lid of a container on a body of the container and rotationally tightening the lid of the container to the body of the container by a pre-screwing torque. The second lid screwing device is configured for rotationally tightening the lid of the container to the body of the container by a screwing torque. The scanning device is disposed between the first lid screwing device and the second lid screwing device and configured for scanning a top surface of the lid of the container so as to obtain a detecting value. The removing device is configured for removing the container when the detecting value is greater than a predetermined value.

A method for detecting a covering state of a laboratory sample container is presented. Light is injected into the laboratory sample container and an optical power is measured at a measuring location. A corresponding laboratory sample distribution system is also presented.

A system for checking a package body with an image is capable of automatically judging good or bad product of manufactured package bodies and automatically performing change of production conditions in a filling and packaging machine, and includes a filling and packaging machine, an image data judgement system, a storage device and an image data analysis system, wherein the image data judgement system is provided with an imaging device for shooting a package body, a storage unit for storing judgement condition on good or bad package body, a judgement unit for judging good or bad package body and an image data transmission unit for transmitting the image data shot by the imaging device to the storage device, and the image data analysis system is provided with an image data acquisition unit for acquiring image data and so on judged as a bad product in the judgement unit from the storage device.

A beverage bottle handling system designed to handle beverage bottles and similar containers, and which includes a beverage bottle inspection arrangement to be connected to a rotatable transport star.