This is the U.S. national phase application of PCT/IB2012/053638, filed Jul. 16, 2012, which claims the benefit of Italian Patent Application No. BO2011A000426, filed Jul. 15, 2011, and Italian Patent Application No. BO2011A000496, filed Aug. 18, 2011.
The present invention relates to a packing method and unit for producing a rigid package with a hollow rib.
In the following description, reference is made, for the sake of simplicity and purely by way of example, to a hinged-lid chocolate box.
A conventional hinged-lid chocolate box comprises a parallelepiped-shaped tray for housing the chocolates (normally on a support with a seat for each chocolate) and having an open top end; and a ‘flat’ lid hinged to the tray along a hinge to rotate, with respect to the tray, between an open position and a closed position opening and closing the open top end respectively.
Because the chocolates are arranged in one layer, so they are all visible when the lid is opened, the tray has a large area and is low in height. As a result, the lid is also large, and, to ensure sufficient stiffness (i.e. prevent it from bending when opened) must be made thick (e.g. by superimposing and gluing together two, three or even four panels), this ‘wasting’ packing material.
To make a thin lid (and so save on packing material) without impairing its stiffness, it has been proposed to provide the lid with hollow peripheral ribs (i.e. running along the three free edges of the lid). The ribs normally have a triangular cross section and, being box-shaped, provide for considerable stiffness using very little packing material.
On conventional packing machines, however, folding the rigid blank along the perimeter of the lid to form the hollow ribs poses problems by frequently resulting in irregularly shaped ribs which, though structurally acceptable (even if not perfect), are totally unacceptable in terms of appearance (on account of the ribs being clearly visible when the lid is opened).
Patent Application EP1873070A1 describes a folding method and device for folding a flat blank into a parallelepiped-shaped container with four vertical hollow ribs along the four vertical edges.
It is an object of the present invention to provide a packing method and unit for producing a rigid package with a hollow rib, designed to eliminate the above drawbacks, and which, in particular, are cheap and easy to implement.
According to the present invention, there are provided a packing method and unit for producing a rigid package with a hollow rib, as claimed in the accompanying Claims.
A non-limiting embodiment of the present invention will be described by way of example with reference to the accompanying drawings, in which:
Number 1 in
Chocolate box 1 comprises a substantially flat lid hinged to tray 2 along a hinge 6 to rotate, with respect to tray 2, between an open position (
Tray 2 comprises a bottom wall 7 opposite and parallel to open top end 4; a front wall 8; a rear wall 9 opposite and parallel to front wall 8 and supporting hinge 6; and two opposite parallel lateral walls 10.
Lid 5 comprises a top wall 11, which is opposite and parallel to bottom wall 7 of the tray in the closed position, and is hinged to rear wall 9 of tray 2 along hinge 6; and a hollow peripheral rib for structurally reinforcing (i.e. stiffening) top wall 11, and which extends along the three free edges of top wall 11 (i.e. the three edges not engaged by hinge 6): More specifically, the hollow peripheral rib extends downwards from an inner surface of top wall 11 of lid 5, and does not project frontwards or laterally from the outline of lid 5.
The hollow peripheral rib comprises a hollow front rib 12 extending along the free front edge of top wall 11, and which, in the closed position, faces front wall 8 of tray 2; and two hollow lateral ribs 13 extending along the free lateral edges of top wall 11, and which, in the closed position, face lateral walls 10 of tray 2. More specifically, when lid 5 is closed, hollow ribs 12 and 13 of lid 5 fit inside open top end 4 of tray 2, so that top wall 11 of lid 5 is flush with the top edges of walls 8, 9 and 10 of tray 2 (as shown in
As shown in
In a preferred embodiment shown in
As shown in
Blank 21 has two longitudinal fold lines 22, and a number of transverse fold lines 23, which define, between longitudinal fold lines 22, a panel 11′ forming top wall 11 of lid 5; a panel 9′ forming rear wall 9 of tray 2; a panel 7′ forming bottom wall 7 of tray 2; and a panel 8′ forming front wall 8 of tray 2.
Panel 7′ has two lateral wings 10′, which are located on opposite sides of panel 7′, are separated from panel 7′ by longitudinal fold lines 22, and form lateral walls 10 of tray 2. Each wing 10′ has two rectangular tabs 24 located at opposite ends of wing 10′, and which are glued to the inside of panels 9′ and 8′ respectively when folding blank 21.
Outer panel 14 of hollow front rib 12 is connected to panel 11′ along a transverse fold line 23; inner panel 15 of hollow front rib 12 is connected to outer panel 14 along another transverse fold line 23; and fastening tab 16 of hollow front rib 12 is connected to inner panel 15 along yet another transverse fold line 23.
The outer panel 17 of each hollow lateral rib 13 is connected to panel 11′ along a longitudinal fold line 22; the inner panel 18 of each hollow lateral rib 13 is connected to outer panel 17 along another longitudinal fold line 22; and the fastening tab 19 of each hollow lateral rib 13 is connected to inner panel 18 along another longitudinal fold line 22.
Packing unit 26 comprises a belt conveyor 28, which feeds blanks 21 successively and in steps (i.e. in cyclically alternating stop-go steps) along a straight folding path 29 parallel to transverse fold lines 23 (i.e. to hollow front rib 12) and perpendicular to longitudinal fold lines 22 (i.e. to hollow lateral ribs 13). Belt conveyor 28 receives blanks 21, at an input station 30, from a feed device (not shown) designed to withdraw blanks 21 from the bottom outlet of a hopper (not shown), and feeds blanks 21 along folding path 29 to an output station 31, where blanks 21 are removed from belt conveyor 28 and fed, perpendicularly to folding path 29, to packing unit 27.
Belt conveyor 28 preferably comprises a number of endless conveyor belts (not shown individually), which are lopped at the ends about respective shared pulleys, are spaced apart, may be fitted with teeth projecting perpendicularly upwards to form a succession of pockets for blanks 21, and may also be provided with suction for retaining blanks 21.
Along folding path 29 from input station 30 to output station 31, belt conveyor 28 feeds blanks 21 successively through a gumming station 32, where spots of hot-melt (fast-dry) glue are deposited on blank 21 by a gumming device 33; a folding station 34 for forming hollow front rib 12; and a folding station 35 for forming hollow lateral ribs 13. Gumming device 33 at gumming station 32 deposits spots of glue onto fastening tabs 16 and 19 and/or panel 11′ to glue fastening tabs 16 and 19 to panel 11′ once hollow ribs 12 and 13 are folded. An alternative embodiment (not shown) may have a first gumming station directly upstream from folding station 34 to gum fastening tab 16 of blank 21; and second gumming station directly upstream from folding station 35 to gum fastening tabs 19 of blank 21. In another embodiment not shown, folding stations 34 and 35 may be inverted, i.e. station 34 folding hollow front rib 12 may be located downstream (as opposed to upstream) from station 35 folding hollow lateral ribs 13. And gumming device 33 may gum blank 21 with either spots of hot-melt glue only, or also with spots of cold glue (which takes longer to dry but is stronger than hot-melt glue).
As shown in
The end portion of blank 21 forming hollow front rib 12 is folded by a fixed folding screw 37 (i.e. located in a fixed position and having no movement) as blank 21 moves along folding path 29. In other words, as it moves along folding path 29, blank 21 slides against fixed folding screw 37, which gradually folds the end portion of blank 21 forming hollow front rib 12 (i.e. outer panel 14, inner panel 15 and fastening tab 16). It is important to note that fixed folding screw 37 is located in the gap between two adjacent conveyor belts of belt conveyor 28. In a different embodiment not shown, a movable folding device is substituted for fixed folding screw 37.
As shown in
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As shown in
In different embodiment not shown, each contrasting body 39 only comprises one part 42, which moves, in a straight direction parallel to hollow lateral rib 13, from the engaged position to the release position to extract contrasting body 39 from hollow lateral rib 13.
In a different embodiment not shown, each contrasting body 39 moves along a non-straight, e.g. at least partly curved or totally curved, path from the engaged position to the release position to extract contrasting body 39 from hollow lateral rib 13.
In a preferred embodiment shown in
In one embodiment, pressure device 43 only moves perpendicular to panel 11′, and only exerts pressure on fastening tab 16 as long as blank 21 is stopped at folding station 34 (i.e. pressure device 43 is lifted off fastening tab 16 to allow blank 21 to move on to folding station 35).
In another embodiment, pressure device 43 is movable both perpendicular to panel 11′ (up and down with respect to fastening tab 16) and parallel to folding path 29 (to follow blank 21 along folding path 29 and downstream from folding station 34), and stays pressed against fastening tab 16 even downstream from folding station 34, to give the glue between fastening tab 16 and panel 11′ more time to dry. Pressure device 43 can accompany blank 21 as far as folding station 35, where it must ultimately be lifted off blank 21 to fold hollow lateral ribs 13. In the
In a preferred embodiment shown in
In a different embodiment not shown, the hollow peripheral rib of lid 5 (mainly for aesthetic reasons) has an other than triangular (e.g. square, semicircular, trapezoidal) cross section. Compared with a triangular cross section using the same amount of material, however, a square cross section provides for less rigidity of lid 5.
The packing method described has numerous advantages.
In particular, it provides for forming an extremely precise hollow peripheral rib on lid 5, i.e. of exactly the desired shape and with no noticeable deformation.
Also, the packing method described is extremely cheap and easy to implement, by only requiring, with respect to a similar standard packing unit, the addition of a few fixed parts (contrasting body 36, folding screw 37) or elementary moving parts (movable contrasting bodies 39 and the two movable folding devices 40).
Given its numerous advantages, the packing method described may also be used to advantage to produce hollow peripheral ribs on rigid packages other than pens or crayons) or cigar boxes, and to produce hollow inner ribs on rigid packages.
Number | Date | Country | Kind |
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BO2011A0426 | Jul 2011 | IT | national |
BO2011A0496 | Aug 2011 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2012/053638 | 7/16/2012 | WO | 00 | 3/5/2014 |
Publishing Document | Publishing Date | Country | Kind |
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WO2013/011455 | 1/24/2013 | WO | A |
Number | Name | Date | Kind |
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3941037 | Reichert | Mar 1976 | A |
4581005 | Moen | Apr 1986 | A |
20070145105 | Bates | Jun 2007 | A1 |
Number | Date | Country |
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370698 | Jul 1963 | CH |
101405191 | Apr 2009 | CN |
201808816 | Apr 2011 | CN |
3336716 | Apr 1985 | DE |
1 873 070 | Jan 2008 | EP |
1492259 | Aug 1967 | FR |
EP 0494023 | Jul 1992 | FR |
2731382 | Sep 1996 | FR |
Entry |
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Machine Translation of EP 0494023 A1. |
International Search Report in International Patent Application No. PCT/IB2012/053638, dated Dec. 6, 2012. |
Number | Date | Country | |
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20140202118 A1 | Jul 2014 | US |