The present invention relates to a labelling and/or marking machine.
More exactly, the invention concerns a machine serving to affix and/or apply labels and/or symbols and/or lettering to containers, generally considered, in which the containers are advanced by a conveyor equipped with devices designed to check and adjust the angular position of the selfsame containers.
Conventionally, in machines of the aforementioned type, containers are caused to advance by a revolving carousel that presents a disc carrying a plurality of pedestals equispaced angularly around the periphery and serving each to support a respective container; each pedestal is power-driven and rotatable about the axis of the relative container.
The path along which the containers are directed by the conveyor passes through labelling or marking stations where a fixed and predetermined portion of the lateral surface presented by the container will be offered to each such station.
To the end of controlling the angular position of the containers positioned on the pedestals so that they will always be correctly aligned when brought into the labelling or marking stations, the prior art embraces the use of optical sensors connected to a control unit piloting the operation of the motors associated with the single pedestals.
More exactly, the optical sensors in question can be photocells capable of detecting a notch presented by each container, for example, or TV cameras able to process more complex reference images.
It will be observed however that in the case of photocell type sensors, each container must be provided with a reference notch located in a clearly visible position, and there are constraints also on the geometry of the container, which for example cannot have sharp edges, whilst the external surface must be treated so as to render it non-reflective as far as possible, and with colours that will ensure the reference elements are easily read. This means a restricted range of application and limited reliability, especially with successive changes in the size, shape and specifications of containers.
In the case of TV cameras, on the other hand, it should be emphasized that this solution is penalized by excessively high cost, also by the fact that sophisticated and complex image-processing systems are required, and is therefore unsuitable for monitoring operations in machines of the type in question. In addition, it will be appreciated that a television camera is able to operate only in certain conditions of brightness and with a given level of reflection from the surface of the container.
The object of the present invention is to provide a labelling and/or marking machine unaffected by the drawbacks mentioned above.
The stated object is realized in a labelling and/or marking machine of which the characterizing features are as recited in one or more of the claims appended.
The invention will now be described in detail, by way of example, with the aid of the accompanying drawings, in which:
Referring to
The carousel 6, driven in rotation about the axis 5 by a respective motor 9 (see
The containers 2 are transferred by the carousel 6 from the infeed station 10 onto a circular conveying path 17 terminating at an outfeed station 18, where they are taken up by an outfeed unit 19 of familiar type substantially identical to the aforementioned infeed unit 11 and rotatable similarly anticlockwise about an axis 20 parallel to the axis 6 of the carousel. The outfeed unit 19 comprises a platform 21 and, located above the platform, a disc 22 affording a plurality of peripheral recesses 23 each serving to accommodate a relative container 2 standing on the platform 21. The containers 2 are directed away from the outfeed unit 19 along a second rectilinear conveyor 24, singly and in succession, toward a further machine illustrated schematically as a block denoted 25.
Also indicated schematically in
As shown in
The single CCD image sensors 31 are of conventional type, comprising a processing-module 33 that includes a memory 34 capable of identifying and storing the contours of a sample outline for reference purposes, and a sensing and control module 35 such as will compare the degree of similarity between the sample outline and the outline 32 detected on the surface 29 of the container 2.
Also forming part of the detection and control means is a master control unit, shown schematically as a block 36, connected on the input side to the processing module 33 and connected on the output side to the carousel motor 9, also to a set of motors 37 associated each with a respective pedestal 8 in such a way that the single pedestals 8 can be driven in rotation about respective axes 38.
In operation, containers 2 advancing in succession along the first rectilinear conveyor 16 arrive at the infeed station 10, where each is directed by the infeed unit 11 onto a respective pedestal 8 of the rotating circular platform 7 through the action of the motor 9, as the carousel rotates continuously about the relative axis 5.
As the container 2 is carried along the circular conveying path 17, and the respective pedestal 8 caused to rotate about its axis 38 by the motor 37, the lateral surface 29 of the container will be scanned by the detection and control means 30, and more exactly by the image sensor 31 associated with the pedestal 8. During the course of the scanning step, with the pedestal 8 rotating about its axis and thus allowing the image sensor 31 to scan the entire lateral surface 29 of the container 2, the sensor ultimately identifies the predetermined outline 32 aforementioned and returns a corresponding signal to the processing module 33, which by way of the sensing and control module 35 and the memory 34 will verify the degree of similarity between the reference sample outline and the outline 32 effectively detected on the surface 29 of the container 2.
In the event of a match between the outlines, the processing module 33 relays a corresponding signal to the master control unit 36, which in turn will send control signals to the motor 37 of the pedestal 8 supporting the scanned container 2 in such a way as to rotate the selfsame pedestal 8 through a given angle and bring it into a position corresponding to the position selected and programmed by way of the applicator and/or marker devices 26 and 27.
It will be observed that the containers 2 can be brought to bear alongside the applicator and/or marker devices 26 and 27 with the pedestals 8 either stationary, or continuing to rotate in one or other direction, as long as the aforementioned area 28 of the lateral surface 29 and the application and/or marking position are certain to coincide.
Finally, the detection and control means might consist in a single sensor 39 occupying a fixed position relative to the conveyor 4, in which case the conveyor 4 would be driven intermittently by the motor 9 so that the sensor 39 can scan the lateral surface 29 of each container 2 in turn.
Number | Date | Country | Kind |
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BO2002A000806 | Dec 2002 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB03/05843 | 12/8/2003 | WO | 6/17/2005 |