The present invention relates to a labelling machine for labels printed on continuous film.
Labelling machines are known that are designed for the application on containers of labels printed on a continuous film that is wound in the form of a reel.
Such machines comprise a rotating carousel provided with supporting plates for the individual containers, adapted to turn the containers about their own axis, and the continuous film that unwinds from the reel arrives, after being passed through several devices that ensure its alignment and correct tension, at a rotating drum provided with blades which is adapted to receive and retain, so that it clings to its own surface, the film in order to cut the labels and bring the individual labels, separated after cutting, into contact with corresponding containers supported by the carousel. The rotating drum is called “cutting and transfer drum”.
Such machines have a disadvantageous characteristic which consists in a major lack of functional flexibility, as will be explained in detail hereinafter, because they can function correctly only if they are used to operate on labels of length proximate to an optimal length; only in this case are the containers designed to receive the labels imparted a rotation speed about their own axis which first and foremost does not cause problems of stability for the containers which feature increasingly lower characteristics of resilience, and also ensures a good quality of tack of the label.
The aim of the present invention is to devise a labelling machine that is provided with optimal characteristics of functional flexibility, so as to be capable of operating correctly on labels that have different lengths while still ensuring optimal values of the speed of rotation of the containers intended to receive the labels about their own axis.
This aim and other objects that will become apparent hereinafter are achieved by a labelling machine for labels printed on continuous film, according to the invention, characterised in that it comprises the features disclosed in the appended claims.
Further characteristics and advantages of the invention will become better apparent from the description of a preferred, but not exclusive, embodiment of the invention, illustrated by way of non-limiting example in the accompanying drawings wherein:
The machine comprises a carousel 1 which rotates in the direction of the arrow, and is provided with supporting plates 2 for individual containers 3 shown in the following figures, turned about their own axis according to the arrows in the figure. The containers are arranged to arrive at the supports of the carousel by means of an intake star wheel 4a, and to be removed by means of an exit star wheel 4b.
The reference numeral 5 indicates a reel of film 6, which is pretreated with adhesive, that continuously produces the printed labels.
Upon unwinding from the reel 5, the film 6 passes to a device 7 for alignment and adjustment of tension and to a feeder 8, and finally arrives at a cutting and transfer drum 9 provided with four blades 10a, 10b, 10c, 10d which are supported by it and which cut the individual labels that remain clinging to the drum by way of a suction device with which it is provided, and the labels are transferred to the individual containers.
The drum 9 has a diameter of 540 mm, and it is assumed that it is desired to achieve a production rate of 12,000 containers per hour.
Straightforward calculations show that the speed of rotation about their own axis of the individual containers 3 supported by the pans 2 of the carousel 1 is 141.60 revolutions per minute which is considered more than acceptable.
But if the machine as described is used to operate on labels, which for practical purposes will be called “short labels”, which have a length of 172 mm, i.e. clearly shorter than the pitch of the blades, as can be seen in
It clearly appears that the optimal operating characteristics are obtained only when using those labels called “long labels” which, by approximating in length substantially the pitch of the blades of the cutting and transfer drum, ensure a high exploitation of the supporting surface on the drum, while operation when using those labels that we have called “short labels”, which leave wide areas of the supporting surface unused, is problematic.
It clearly appears that the machine as described displays a major drawback in terms of functional flexibility, and certainly the means used nowadays to remedy this drawback are not optimal, as for example is the case with the provision of changing the cutting and transfer drum mounted on the machine, with burdens that can be easily imagined.
In view of the example described above with reference to
All this is overcome by the machine according to the invention which shall now be described with reference to
This machine also features the carousel 1 provided with supporting means such as supporting plates 2, turned about their own axis, which are adapted to support individual containers 3 conveyed by respectively an intake star wheel 4a and an exit star wheel 4b, and a film 6 still unwinds from a reel 5 that continuously produces the printed labels and it passes to a device 7 for the alignment and adjustment of the tension and to a feeder 8 in order to arrive at a drum 24 which rotates in the direction of the arrow in the figure.
The drum 24, which is not provided with blades, then receives the film 6 and retains it, so that it clings to its own surface, thus making it available to the cutting action performed by a laser head 25 which, thanks to suitable methods of operation of the feeder 8, will perform the cut of the film at the separation line between two consecutive labels. In this way a situation is brought about by which the individual labels are arranged, keeping a minimum mutual distance such as to ensure a good labelling, supported on the surface of the drum 24 which transfers them to respective containers which are present on the supporting plates of the carousel 1 according to what is seen in the figure which shows a label 26, which has just been cut, and the previous labels 27 and 28, this last being applied to a container 29, in close proximity.
Therefore it is evident that the labels can be indifferently “long” and “short” because, no matter what the length is of the label that is cut, the condition is achieved of a high exploitation of the supporting surface on the drum, which we have seen achieves optimal operating conditions of the machine thereby provided with an exceptionally high degree of flexibility.
Given that the film pretreated with adhesive as mentioned above can be heat-shrinking or non-heat-shrinking indifferently, and given that in any case the machine according to the invention is also adapted to operate on film designed to be spread with adhesive after the labels are cut, attention is drawn to the fact that this machine makes it possible, following suitable programming, to cut labels of different lengths consecutively.
It is finally observed that the laser head is positioned on the machine in a position that is variable both radially and circumferentially, so as to enable it to be fixed in the best condition according to the material of the film to be handled, and according to the size of the labels.
The labelling machine as described is susceptible of numerous modifications and variations, all of which are within the scope of the appended claims.
Moreover, all the details may be replaced with other technically equivalent elements.
The disclosures in Italian Patent Application No. MI2009A002130 from which this application claims priority are incorporated herein by reference.
Where technical features mentioned in any claim are followed by reference signs, those reference signs have been included for the sole purpose of increasing the intelligibility of the claims and accordingly, such reference signs do not have any limiting effect on the interpretation of each element identified by way of example by such reference signs.
Number | Date | Country | Kind |
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MI2009A002130 | Dec 2009 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP10/68152 | 11/24/2010 | WO | 00 | 5/29/2012 |