This application is the National Phase of International Application PCT/IB2004/000576 filed Feb. 23, 2004 which designated the U.S. and that International Application was published under PCT Article 21(2) in English.
This application claims priority to Italian Patent application number BO2003A 000093, filed Feb. 25, 2005, which is incorporated by reference herein.
The present invention relates to a method and a device for wrapping groups of stacked products in the manufacture of sealed packs.
In particular, the present invention relates to a method and a device finding useful application in the confectionery or pharmaceutical industry for making stick packs of sweets or pastilles.
As a rule, products wrapped in stick packs for general retail are of typically flat parallelepiped shape and ordered into a wrappable group one beside the next, with the larger faces disposed transversely to the predominating axis of the assembled group. Accordingly, the group of products will present at least one relatively small transverse dimension, and the stick pack is fashioned using simple heat seal jaws by which the projecting edges of a tubular wrapper formed around the group can be gripped and secured tight against the ends of the group without generating random creases or other imperfections that might in time allow air into the finished pack.
The above considerations do not apply to another type of stick pack on general sale, in which the products are again ordered one beside the next with the larger faces in mutual contact, though in this instance forming a much more compact group generally of square or rectangular section. The ends of this type of stick are ordinarily not sealed, but simply folded. In the event of a sealed end being required for this second type of stick pack, the seal is obtained starting from a tubular wrapper of which the trimmable ends project an appreciable distance beyond the end faces of the group of products. By virtue of this extra length, the opposite edges presented by each end of the wrapper can be pinched together. Sticks presenting this type of seal are however not readily acceptable in terms of appearance, difficult to stack, unable to retain the wrapped products in close contact one with another, and inclined to break or tear open easily at the ends.
The prior art also embraces a method for forming packets of the type described above, disclosed in patent DE 3420023 by the same applicant, which envisages the step of fashioning a tubular wrapper initially around the group of stacked products and then closing the ends of the wrapper. The process of closing each end includes a first step in which the ends are drawn flat, by inserting flat spreader means, and united by the action of sealing and crimping means designed to impress crease lines on each of the flattened ends so as to facilitate a subsequent folding step. In practice, the final step occurs with the sealed and crimped end already presenting a central portion, and two lateral portions delimited on either side of the central portion by the crease lines. The central portion is folded against the end face of the group of products and the lateral portions are then folded over the central portion.
The method described above likewise presents certain drawbacks connected principally with the step in which the sealing and crimping operations occur. In effect, a dependable closure of the ends cannot be assured when the sealing and crimping steps are combined, since the sealing jaws are not able to unite the edges of the wrapper faultlessly along the crease lines.
The object of the present invention is to set forth a method and a device free of the drawbacks mentioned above, by means of which products stacked on edge and in contact one with the next by way of their larger faces can be packaged in a sealed wrapping.
The stated object is realized by adopting a method and a device for wrapping groups of stacked products in the manufacture of sealed packs, 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:
At the start of the wrapping line, the assembled group 1 is directed into a first wrapping station 3 where a sheet 4 of heat-sealable wrapping material is positioned over the selfsame group 1 by feed means not illustrated in the drawings.
From this position, the group 1 is directed by the action of pusher means (not illustrated) against the wrapping sheet 4 and through a folding shoe 5, with the result that the sheet 4 will be bent over the lateral faces of the group 1 to assume a “U” profile. As indicated in
As discernible in
The group 1 and the relative tubular wrapper 12 are directed by the wheel 7 as it indexes through a step of predetermined angular distance, for example 90°, to a second wrapping station 15 where a tongue 16 is introduced into each of the two end portions 14, as indicated in
Thereafter, and still at the second station 15, the tongues 16 are withdrawn and the end portions 14 pinched and fastened together, as illustrated in
Each of the heat-sealers 17 in question comprises two heat seal elements 18 and 19 presenting relative flat heated surfaces 18a and 19a capable of movement toward and away from one another. Following the action of the heat-sealers 17, each end portion 14 remains permanently sealed, presenting a flat seam.
With reference to
The folding unit 21 comprises a first folder element 22 and a second folder element 23 presenting respective contact ends 22a and 23a capable of movement between a position distanced one from the other, and a position of mutual proximity in which the relative flattened end portion 14 of the wrapper is gripped between them and crimped to generate crease lines 24 dividing the end portion 14 into a central portion 25 and two lateral portions 26. The two crease lines 24 are thus formed by a cold crimping step following the heat-seal closure of the ends and, in the preferred embodiment of the drawings, will extend substantially parallel to the longitudinal axis of the tubular wrapper 12.
More exactly, the contact end 22a of the first folder element 22 is of parallelepiped geometry and presents a dimension T1, measured transversely to the axis of the tubular wrapper 12, smaller than the corresponding transverse dimension T2 of the sealed end portion 14 (
More exactly, as illustrated in
The first folder element 22 and the second folder element 23 are afforded by respective arms 28 and 29 of which respective first ends 28a and 29a present the contact ends 22a and 23a, and respective second ends, not illustrated, are mounted pivotably so that the arms can rotate between the distanced position and the position of mutual proximity.
After the one arm 29 has been distanced from the other arm 28, the first folder element 22 rotates beyond the position occupied when in proximity to the second folder element 23, in such a way as to fold the central portion 25 against the corresponding end face of the group 1 (see
As a result of crimping the end portion 14 to produce the crease lines 24, the step of folding the central portion 25 against the relative end face of the group 1 will cause the two lateral portions 26 to project axially from the group 1 and externally of the respective pocket 6.
At this juncture, as discernible in
The fixed folder element 31 is positioned to engage the second lateral portion 26 as the wrapping wheel 7 indexes through a further predetermined angle, again preferably 90°, to bring each stick pack 32, consisting in a group 1 of products 2 enveloped by a fully folded and sealed wrapper 12, into an outfeed station 33 where the packs 32 are ejected radially from the respective pockets 6 through the action of radial pusher means not illustrated in the drawings.
The invention affords important advantages.
First and foremost, the method according to the invention is instrumental in producing singularly compact and rigid packets by which the stacked products are firmly retained.
Moreover, the packets emerge faultlessly sealed at the two ends, so that neither air nor impurities can infiltrate.
Number | Date | Country | Kind |
---|---|---|---|
BO2003A0093 | Feb 2003 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2004/000576 | 2/23/2004 | WO | 00 | 8/24/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/076285 | 9/10/2004 | WO | A |
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1 532 654 | Nov 1978 | GB |
Number | Date | Country | |
---|---|---|---|
20060185328 A1 | Aug 2006 | US |