Patent Application
20120227895
The present invention relates to a method for producing sleeve-like labels and a device for their production.
Typically, sleeve-like or “shrink sleeve” labels are made of polymeric material such as polyethylene terephthalate (PET), polyvinylchloride (PVC), polypropylene (PP), polystyrene (PS), or other materials which are adapted to be heat-shrunk.
By the term sleeve-like or “shrink sleeve” labels, what is meant here is tubular labels made of plastic film which are designed to be fitted over a respective container to be labelled and subsequently heated, so that the labels shrink onto the outer surface of the container and assume the shape of the outer surface of the container itself.
Sleeve-like labels are usually obtained from a film of heat-shrink plastic material which is unrolled from a reel in order to be fed, by means of the use of a movement device, to a transfer drum.
A cutting device then cuts the plastic film transversely to the direction of advancement, so as to obtain portions of plastic film which have a length that is preset as a function of the dimensions of the container to be labelled.
By means of the transfer drum, the portions of film are transferred to a carousel which is provided with a plurality of spindles, suitably arranged on the periphery of the carousel itself, and shaped so as to receive portions of plastic film from the transfer drum in order to obtain respective tubular sleeves.
In more detail, each spindle comprises an outer cylindrical wall which has a determined diameter that is substantially equal to the preset diameter of the label being made, and upon which each portion of plastic film is wound so that a first longitudinal edge of the portion of plastic film is partially overlapping the opposite edge of such portion in an overlap region, so as to form the tubular sleeve.
At the overlap region, the join is normally executed by using suitable sealing techniques so as to obtain a sleeve-like label.
Advantageously, each spindle can be provided with sealing means which are arranged so as to make the relative portion of plastic film adhere to and wind around the cylindrical wall.
For the purposes of example, such sealing means can be constituted by a plurality of holes, formed on the cylindrical wall, through which air is aspirated from outside towards the inside of the spindle.
Each spindle can be, moreover, provided with means for expelling the air, which are designed to favour the detachment of the sleeve-like label from the spindle itself, so as to radially expand the sleeve once the joining operations have been concluded.
Each spindle is generally associated with a support, typically a load plate, which is adapted to receive a container to be labelled, which rests upon such load plate.
Specifically, the sleeve-like label can be placed on the container to be labelled by means of a relative axial movement of the label and the container along the longitudinal axis of the container, so that the sleeve-like label is fitted over the container.
This operation can be implemented by keeping, for example, the label still and moving the container or, more commonly, by keeping the container still and pushing the sleeve-like label from above or from below in order to bring it to fit around the container.
The container and the “shrink sleeve” label associated with it are then brought to a heating station where the label is subjected to a heat treatment that is such as to cause its shrinkage owing to a thermal effect and, therefore, the close adhesion to the lateral surface of the respective container.
A drawback of the sleeve-like labels used nowadays consists in the fact that the connecting portion or seal between the overlapping edges of the label wound around the spindle is normally executed in an intermediate position with respect to the overlap region.
Consequently, this determines the creation of a free flap, which is formed between the connecting line and the free edge of the label which faces outwards, and which, during the subsequent heat-shrinking step, not being fixed to the remaining part of the sleeve-like label, will not adhere closely to the container on which it is fitted, with evident problems from an aesthetic viewpoint.
In particular, the free flap of plastic material substantially assumes the shape of a tab which can be easily caught during the subsequent steps of moving the sleeve-like label from the spindle to the container to be labelled.
Moreover, the free flap of plastic material, as a result of the heat-shrinking process to which the label fitted over the container is subjected in order to favour the adhesion of the label to the lateral surface of such container, forms a ridge which projects transversally with respect to the lateral surface of the container and, in general, such ridge has an outer edge that is curled and/or hardened by the heat-shrinking process.
The presence of the ridge enormously compromises the aesthetic appearance of the packaging thus obtained.
Moreover, the ridge can also be caught and/or pulled in order to interfere with and/or damage the label thus leading to a decrease in the quality of the packaging and its enjoyment by a hypothetical user.
Such drawback is particularly accentuated for some heat-shrinkable materials, for which the formation of the ridges during the heat-shrinking process is more evident.
The aim of the present invention is to eliminate, or at least to drastically reduce, the above mentioned drawbacks in known sleeve-like labels.
Within this aim, an object of the invention is to obtain sleeve-like labels which adhere in a homogeneous and long-lasting manner to the container with which they are associated.
Another object of the invention is to provide sleeve-like labels which are free from areas which protrude with respect to a lateral surface of the container.
Another object of the invention is to provide sleeve-like labels that are free from tabs which can be easily grasped or caught, thus damaging the labels.
This aim, as well as these and other objects which will become better evident hereinafter, are achieved by a method for producing sleeve-like labels comprising:
According to another aspect, the present invention provides a device for producing a sleeve-like label, characterized in that it comprises at least one supply reel designed to supply at least one forming spindle with a band of heat-shrink film that has at least one pre-pasted portion, means being provided for wrapping said band of heat-shrink film around the lateral surface of said spindle, said means being designed to provide a region of overlap between a first longitudinal end of said band of heat-shrink film in contact with said forming spindle and the second longitudinal end of said band of heat-shrink film, said pre-pasted portion being arranged at least partially at a portion of said overlap region, means being provided for transferring said sleeve-like label from said forming spindle to a container to be labelled.
Further characteristics and advantages of the invention will become better apparent from the following detailed description of some preferred, but not exclusive, embodiments of a device for producing sleeve-like labels, and of the associated production method, according to the invention, illustrated by way of non-limiting example in the accompanying drawings, wherein:
With reference to the figures, a device, indicated generally with the reference numeral 1, for producing a sleeve-like label 2 comprises at least one supply reel 3 which is designed to feed at least one forming spindle 4 with a band of heat-shrink film 5. In particular, the band of heat-shrink film 5 has at least one pre-pasted portion 6.
The device 1 has, moreover, means 7 for wrapping the band, or each band, of heat-shrink film 5 around the lateral surface 4a of a respective forming spindle 4, which are designed to provide a region of overlap 8 between a first longitudinal end 5a of the band of heat-shrink film 5 which is intended to be brought into contact with the lateral surface 4a of the forming spindle 4 and the second longitudinal end 5b of the band of heat-shrink film 5.
According to a distinctive characteristic of the present invention, the pre-pasted portion 6 is arranged at least partially at a portion of the overlap region 8.
The device 1 has, moreover, means 9 for transferring the sleeve-like label 2 formed around the forming spindle 4 from the forming spindle 4 to a container 10 to be labelled.
Advantageously, the device 1 has presser means 30 which are designed to engage against the outer surface of the sleeve-like label 2 which is wrapped around the forming spindle 4 in order to allow optimum adhesion between the first longitudinal end 5a and the second longitudinal end 5b thanks to the action of the pre-pasted portion 6 which is arranged at the overlap region 8.
Purely for the purposes of example, the presser means 30 can be constituted by idle rubberised rollers or by brushes 31 which are arranged parallel to the direction of movement of the forming spindle 4.
According to a particularly important aspect of the present invention, the device 1 is associated with a device 11 for sealing the first longitudinal end 5a to the second longitudinal end 5b of the band of heat-shrink film 5 which is wrapped around the respective forming spindle 4 in order to provide a connecting portion 13 that lies transversely with respect to the direction of longitudinal extension 100 of the band of heat-shrink film 5 and at the overlap region 8.
The sealing device 11 can be implemented in various ways. Purely for the purposes of example, the sealing device 11 can be constituted by sealing means selected from the group that comprises:
Advantageously, the device 1 has, between the supply reel 3 and the wrapping means 7, cutting means 14, which are designed to slice a continuous film 15 of polymeric heat-shrink material which is unwound from the supply reel 3 in order to make the bands of film 5.
The cutting means 14 are, in particular, adapted to execute the cutting of the continuous film 15 of heat-shrink material unwound from the supply reel 3 proximate to respective pre-pasted portions 6.
In more specific detail, the device 1 is provided with means 16 for feeding the bands of film 5 to the wrapping means 7 and, consequently, to the forming spindles 4.
According to a preferred embodiment, the feeder means 16 can be implemented by means of an element for unwinding that is constituted, for example, by a transfer drum 18 from which the supply reel 3 of the continuous film 15 is unwound.
Advisably, the feeder means 16 also comprise the cutting means 14, which, as previously explained, are designed to slice the continuous film 15 unwound from the supply reel 3 in order to make the bands of heat-shrink film 5 that are subsequently used to form the sleeve-like labels 2.
As shown in
According to a practical embodiment, the transfer drum 18 has, in a per se known manner, a cylindrical lateral wall on which a plurality of holes are formed that are connected to a pneumatic device that is adapted to aspire air into the transfer drum 18, or to expel air from the transfer drum 18, through such holes, as a function of the angular position assumed by such holes, during the rotation of the transfer drum 18, with respect to the axis of movement 101.
In practice, by means of the aspiration of air through the holes it is possible to keep the bands of heat-shrink film 5, obtained one at a time by virtue of the cutting means 14, in adherence to the cylindrical lateral wall of the transfer drum 18 and, by means of the expulsion of air from the transfer drum 18, it is instead possible to detach the bands of heat-shrink film 5 from the cylindrical lateral wall of the transfer drum 18 in order to allow them to be brought on the respective wrapping means 7 (which are typically constituted by the forming spindles 4 themselves) which are located downstream of the transfer drum 18 and which are arranged, in the embodiment shown, along the peripheral region of a carousel 20, above the containers to be labelled 10.
The forming spindle or spindles 4 that constitute the wrapping means 7 are oriented, with the respective axes 102, substantially parallel to the axis of movement 101 of the transfer drum 18 and are engageable, on their lateral surface 4a, by the band of heat-shrink film 5 which is made available one at a time by the transfer drum 18 when, by rotating around the carousel 20, they are brought into a position facing the transfer drum 18.
Furthermore, the forming spindles 4 are actuated so as to rotate, about the associated axis 102, in order to wrap, around their lateral surface 4a, the bands of heat-shrink film 5 taken from the transfer drum 18.
In order to ensure an optimal adherence of the bands of heat-shrink film 5 on the lateral surface 4a of the forming spindles 4, there are means for aspiration of air through a plurality of openings formed on the lateral surface 4a of the forming spindles 4.
The means 9 for transferring the sleeve-like label 2 formed by the forming spindle 4 to a container to be labelled 10 can be, for example, constituted by a thrust ring 9a which is moved coaxially towards the respective forming spindle 4 in order to push the sleeve-like label 2 which is wrapped around it towards the container to be labelled 10 which is positioned, in the embodiment shown, below the forming spindle 4.
To facilitate this operation, it is advisable to interrupt the action of the aspiration means acting on the forming spindle 4 and to activate means of expulsion of air from its openings located on its lateral surface 4a, so as to obtain a detachment of the sleeve-like label 2 from the lateral surface 4a of the forming spindle 4 over which it is fitted.
There is no reason why the supply reel 3 should not be constituted by a “single use” supporting body 3a which is substantially longitudinal and on one face of which a plurality of bands of heat-shrink film 5 is applied. In this case, the supply means can be implemented by a separator device which is adapted to detach, in sequence, the bands of heat-shrink film 5 from the supporting body 3a in order to feed them directly to the forming spindles 4 as shown in
In this specific case, the bands of heat-shrink film 5 can be kept applied to the supporting body 3a thanks to the presence, at one of its ends, of the pre-pasted portion 6 and, at the other of its ends, thanks to the action of an adhesive element which is designed to remain anchored, after the detachment, to the supporting body 3a in order to avoid “soiling” the lateral surface 4a of the forming spindle 4.
Advantageously, the pre-pasted portion 6 comprises a pre-pasted strip which runs transversely with respect to the direction of longitudinal extension 100 of the band of heat-shrink film 5 and which extends, once the band of heat-shrink film 5 has been wrapped around the forming spindle 4, at least to the overlap region 8 and, in particular, at least between the connecting portion 13 and the free edge 5c of the second longitudinal end 5b.
Obviously, there is no reason why the forming spindle 4, or possibly other types of wrapping means which perform the same function, cannot be arranged below the container to be labelled 10.
According to another aspect, the present invention relates to a method for producing sleeve-like labels 2, comprising:
In particular, it is possible for the pre-pasted portion 6 to be arranged on the face of the first longitudinal end 5a which is designed to be facing outwards with respect to the forming spindle 4 or, more preferably, on the face of the second longitudinal end 5b which is designed to be brought against the first longitudinal end 5a so as to achieve a stable connection between the free edge 5c of the second longitudinal end 5b and the first longitudinal end 5a.
Advisably, downstream of the step of wrapping the band of heat-shrink film 5 around the forming spindle 4, there is a step which consists in pressing the second longitudinal end 5b against the first longitudinal end 5a so as to optimise the adhesion between the two ends 5a, 5b at the overlap region 8 thanks to the presence of the pre-pasted portion 6.
This step can be, for example, obtained by using presser means 30, which are designed to engage against the outer surface of the sleeve-like label 2 which is wrapped around the forming spindle 4 in order to allow an optimum adhesion between the first longitudinal end 5a and the second longitudinal end 5b.
In this regard, the presser means 30 can be constituted by idle rubberised rollers or by brushes 31 which are arranged parallel to the direction of movement of the forming spindle 4.
A distinctive characteristic of the present method consists in providing a step of sealing the first longitudinal end 5a to the second longitudinal end 5b of the band of heat-shrink film 5 which is wrapped around the forming spindle 4 in order to provide a connecting portion 13 that lies transversely with respect to the direction of longitudinal extension 100 of the band of heat-shrink film 5 and arranged at the overlap region 8.
For the purposes of example, the step of sealing comprises laser sealing, infrared sealing, sealing bar-type sealing or an ultrasonic sealing device.
According to a first embodiment, the step of separating the band of heat-shrink film 5 from the supply reel 3 comprises a step of cutting a continuous film 15 unwound from the supply reel 3 and the subsequent step of transferring the bands of heat-shrink film 5 thus obtained to the wrapping means 7.
In particular, the cutting step is performed at cutting regions provided on the continuous film 15 unwound from the supply reel 3 proximate to respective pre-pasted portions 6, so that the band or each band of heat-shrink film 5 separated from the supply reel 3 comprises at least one pre-pasted portion 6 at a longitudinal end 5a, 5b and up to the free edge 5c of the aforementioned longitudinal end 5a, 5b.
Alternatively, the step of separating the band of heat-shrink film 5 from the supply reel 3 comprises a step of detaching the band of heat-shrink film 5 from a continuous supporting body being unwound from the supply reel 3.
The pre-pasted portion 6 is obtained before the unwinding of the continuous film 15, or before the depositing of the bands of heat-shrink film 5 on the “single use” supporting body 3a, by means of a step of spreading aqueous emulsions of adhesives, preferably aqueous emulsions of acrylic polymers.
Advantageously, the viscosity of the aqueous emulsions of adhesives used is comprised between 50 and 1000 cP, preferably between 100 and 500 cP at an application temperature comprised between 0° C. and 60° C., preferably between 20° C. and 40° C.
In practice it has been found that in all the embodiments the invention is capable of fully achieving the set aim and objects.
In particular, the pre-pasted portion 6 makes it possible to stably connect, during the wrapping of the band of heat-shrink film 5 onto the forming spindle 4, the first longitudinal end 5a to the second longitudinal end 5b, thus ensuring a sufficient hold of the join even during the subsequent step of heat-shrinking because the join is performed along all of the overlap region.
If it is considered desirable to also carry out a sealing between the first longitudinal end 5a and the second longitudinal end 5b, it has been observed that the presence of the pre-pasted portion at the overlap region, and in particular between the connecting portion 13 and the free edge 5c of the second longitudinal end 5b, makes possible a close adhesion of all of the second longitudinal end 5b to the container 10 even during the step of heat-shrinking, and hence a complete adherence of the sleeve-like labels 2 to the containers 10.
It has therefore been found that by using the method and the device described above, labels are obtained which are free from protruding ridges or edges that are not perfectly fixed to the label itself.
Therefore, the labels thus obtained have an aesthetic appearance which is considerably improved over that of known labels.
All the characteristics of the invention, indicated above as advantageous, advisable or similar, may also be missing or be substituted by equivalent characteristics.
The individual characteristics set out in reference to general teachings or to specific embodiments may all be present in other embodiments or may substitute characteristics in such embodiments.
The invention thus conceived is susceptible of numerous modifications and variations, all of which are within the scope of the appended claims.
In practice the materials employed, provided they are compatible with the specific use, as well as the dimensions and the shapes, may be any according to the requirements.
Moreover, all the details may be substituted by other, technically equivalent elements.
The disclosures in Italian Patent Application No. VR2009A000194 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 |
|---|---|---|---|
| VR2009A000194 | Nov 2009 | IT | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/EP2010/067090 | 11/9/2010 | WO | 00 | 5/15/2012 |
