Patent Application
20240294298
The invention generally relates to food packages. More particularly, it is related to gable top packages, blanks to be formed into gable top packages, and methods related to the blanks, where the blanks are formed from a multilayer packaging material that comprises a layer of fibrous material.
A gable top package is a well-known type of package often used for milk and other liquid food products. The package is easily recognized by that it has a top fin and two slanted top panels on each side of the top fin. When opening the package, the top fin is separated in one end. When the top fin is separated, two top fin parts are formed. These are folded down onto the two top panels such that a front (first) gable panel can be folded out, thereby forming a spout such that the liquid food product can be poured from the package. In addition to being user intuitive, an advantage with this type of opening is that no plastic material is needed in form of, for example, a cap, which reduces the environmental impact.
Even though the gable top package has been used by consumers worldwide for decades, there is room for improvement. For instance, a challenge with gable top packages, particularly carton gable top packages, is that they should be made to hold the liquid food product securely and not be opened unintentionally at the same time as they should be easy to open for consumers. Still a challenge is that after the package has been opened, the package should be able to withstand exposure from the liquid food product.
Different measures have been made to overcome these challenges. For instance, by using an asymmetrical welding pattern when forming the top fin, it is made easier to open for the consumer in one of the ends of the top fin, which as an effect provides for increased package integrity and less risk of unintentional opening of the package. However, despite the asymmetric welding patterns on the top fin as well as other measures taken, the spout of the gable top packages can still be improved in terms of package integrity, user interaction and food product interaction.
It is an object of the invention to at least partly overcome one or more of the above-identified limitations of the prior art. In particular, it is an object to provide a gable top package with properties to better withstand impact caused by the liquid food product. It is also an object to provide a gable top package with improved package integrity, that is, reduced risk of cracks or other unwanted stress in the packaging material. Still an object is to provide a carton gable top package that can be produced from thinner packaging material, thereby improving cost efficiency and environmental impact.
According to a first aspect it is provided a blank configured to be folded into a gable top package that holds a food product and is openable by forming a spout for the package, the blank being formed from a multilayer packaging material that comprises a layer of fibrous material, and comprising bottom panels, sidewall panels, first and second top panels, first and second gable panels, first and second top fin panels and first and second gable fin panels. The first gable fin panel being located between the first and second top fin panels and arranged to form a top section of the spout for the folded gable top package. The first gable fin panel comprises a spout top crease that separates the first gable fin panel into a spout top portion and a spout reinforcement portion that is configured to be folded, along the spout top crease, over the spout top portion, and the spout reinforcement portion is arranged with a distance from the respective first and second top fin panels.
An advantage of having the spout reinforcement portion is that this allows for that the food product can be poured from the package without coming into contact with the layer of fibrous material. More particularly, compared to the commonly used gable top package of today, there is no raw edge exposed to the food product when pouring the product.
Another advantage is that the reinforcement portion provides for that the spout becomes sturdier compared to the gable top packages used today, which provides for improved user experience and handling of the package.
Still an advantage is that by having the distance, that is, having the spout reinforcement portion not extending all along the first gable fin panel, the package can be closed more securely compared to having no distance.
The distance may be greater than three times the thickness of the multilayer packaging material the blank is formed from.
The spout reinforcement portion may comprise first and second inclined sides that are located at opposite ends of the spout reinforcement portion, the first inclined side facing the first top fin front section, the second inclined side facing the second top fin front section, and the inclined sides being inclined relative a direction that is parallel to crease lines of the blank that separate the sidewall panels from each other.
Having the inclined sides, exposure of the raw edge can be reduced at the same time as less material is placed closed to the crease lines between the first top fin panel and the first gable fin panel, and the second top fin panel and the first gable fin panel, respectively.
The first and second inclined sides may be inclined with an inclination angle that is within the range of 20 to 60 degrees.
The spout reinforcement portion may comprise rounded corners that are located at opposite ends of the spout reinforcement portion, wherein the rounded corners face a respective one of the first and second top fin front sections.
A height of the spout reinforcement portion may be within the range of 60-85% of a height of the spout top portion.
The spout reinforcement portion may be welded to the spout top portion.
The spout reinforcement portion may be provided with a lacquer.
According to a second aspect, it is provided a carton gable top package produced from the blank according to the first aspect. The gable top package has the same advantages as the blank.
According to a third aspect it is provided a method for producing a carton gable top package from a blank according to the first aspect. The method comprises: folding down, along the spout top crease, the spout reinforcement portion over the spout top portion; forming a sleeve-shape body by welding a sidewall seal panel of the blank to a first sidewall panel of the blank; forming a bottom by welding bottom panels of the blank, such that the blank forms a container; filling food product into the container; and forming a top fin by welding the first top fin panel to the second top fin panel while the spout reinforcement portion is folded over the spout top portion, for closing the container and form the carton gable top package.
Further objectives, features, aspects and advantages of the invention will appear from the following detailed description as well as from the drawings.
Embodiments of the invention will now be described, by way of example, with reference to the accompanying schematic drawings, in which
To form a top of the package 200, a first (left) top panel 21, a first (front) gable top panel 22, a second (right) top panel 23 and a second (rear) gable panel 24 are provided. A top seal panel 25 is provided such that the first top panel 21 and the second gable panel 24 can be joined.
To form a top fin 202 of the package 200, as illustrated in
To form a bottom 206 of the package 200, see
Since the blank 1 will be folded into the package 200, the blank 1 can be provided with crease lines, also referred to as folding lines or weakening lines, to provide for that the package 200 is folded as intended and with less of risk of packaging machine failure. As illustrated in
Further, to facilitate folding of the bottom panels 41-44 with respect to the first sidewall panel 11, the front wall panel 12, the second sidewall panel 13 and the rear wall panel 14, a bottom crease 71 may be provided. For folding the bottom 206, inclined creases are provided on two of the bottom panels 42, 44.
To facilitate folding the top of the package, a top crease 72 is provided between the first sidewall panel 11, the front wall panel 12, the second sidewall panel 13 and the rear wall panel 14, and the first top panel 21, the first gable panel 22, the second top panel 23 and the second gable panel 24. Further, a fin crease 73 is provided between the first top panel 21, the first gable panel 22, the second top panel 23 and the second gable panel 24, and the first top fin panel 31, the first gable fin panel 32, the second top fin panel 33 and the second gable fin panel 34.
To facilitate opening of the package, more particularly forming of a spout 203, as illustrated in
Further, a spout center crease 91 is provided vertically on the first gable fin panel 32, and a spout top crease 92 may be provided horizontally on the first gable fin panel 32.
Further, a spout top center crease 93 may be placed vertically on the first gable fin panel 32, aligned with the spout center crease 91. The spout top center crease 93 may be placed in a peripheral vertical end of the front gable top panel 32.
More in detail, the first top panel 21 can comprise a first top section 211 and a first spout side rear section 212. As illustrated, the two sections can be divided by the first opening crease 81. To form the spout 203 the first opening crease 81 can be inclined approximately 45 degrees and extend in a direction from an intersection point of the first top panel 21, the first gable panel 22, the first sidewall panel 11 and the front wall panel 12 towards a mid-point of the first top fin panel 31. During forming of the spout 203, the first spout side rear section 212 can be folded onto the first top panel 21.
The first gable panel 22 can comprise a center spout center section 221, a first spout side front section 222 and a second spout side front section 223. The first spout side front section 222 can be placed next to the first spout side rear section 212 of the first top panel 21, divided by the first vertical crease 61. The first spout crease 82 can be placed such that the first spout side front section 222 and the spout center section 221 is divided. The first spout crease 82 can be inclined approximately 45 degrees and it can extend in a direction from the same intersection point as the first opening crease 81 and towards a mid-point of the first gable fin panel 32. On the other side, the spout center section 221 and the second spout side front section 223 can be divided by the second spout crease 83. The second spout crease 83 can mirror the first spout crease 82. In other words, it can be inclined approximately 45 degrees and it may extend from an intersection point of the first gable panel 22, the second top panel 23, the front wall panel 12 and the second sidewall panel 13, to the mid-point of the first gable fin panel 32.
In a corresponding manner as the first top panel 21, the second top panel 23 may comprise a second top section 231 and a second spout side rear section 232. The second top section 231 and the second spout side rear section 232 can be divided by the second opening crease 84. The second opening crease 84 can be inclined approximately 45 degrees and extend in a direction from the same intersection point as the second spout crease 83 and towards a mid-point of the second top fin panel 33.
As illustrated, to facilitate folding of the spout 203, the first opening crease 81 may be placed off-set such that the first opening crease 81 does not meet the first spout crease 82 in said intersection point. By having an off-set in this way, it has namely been found that the folding of a multi-layer packaging material, illustrated by way of example in
As illustrated, the first opening crease 81 may also be offset with respect to the mid-point of the first top fin panel 31. The same holds true for the second opening crease 84 which may be offset with respect to the mid-point of the second top fin panel 33. By having off-sets in this way, folding in and folding out the spout 203 can be facilitated when using the multi-layer packaging material.
In the closed state CS, see
As illustrated, the first top fin panel 31 can be divided into a first top fin rear section 311 and a first top fin front section 312. In the opened state OS, the first top fin front section 312 can form a first top rear part of the spout 203 as illustrated in
The first gable fin panel 32 can be divided into a first spout section 321, placed vertically above the first spout side front section 222, and a second spout top section 322 placed vertically above the second spout side front section 223. The first and second spout top sections 321, 322 can be divided by the spout center crease 91.
The first gable fin panel 32 comprises the spout top crease 92, which separates the first gable fin panel 32 into a spout top portion 327 and a spout reinforcement portion 328 that is configured to be folded, along the spout top crease 92, over the spout top portion 327, as shown in
The first spout reinforcement section 323 is placed vertically above the first spout top section 321. In a similar manner, vertically above the second spout top section 322, the second spout reinforcement section 324 is placed. The first spout top section 321 and the second spout reinforcement section 323 as well as the second spout top section 322 and the second spout reinforcement section 324 can be divided by the spout top crease 92. The first and second reinforcement section 323, 324 can be divided by the spout top center crease 93. The first and second spout top section 321, 322 can together form the spout top portion 327, and the first and second reinforcement section 323, 324 can together form the spout reinforcement portion 328.
Similar to the first top fin panel 31, the second top fin panel 33 can be divided into a second top fin rear section 331 and a second top fin front section 332. In the opened state OS, the second top fin front section 332 can form a second top rear part of the spout 203 as illustrated in
A first inclined side 338 of the first spout reinforcement section 323 and a second inclined side 340 of the second spout reinforcement section 324 may be provided. The first inclined side 338 can face the first top front section 312, and the second inclined side 340 can face the second top fin front section 332. An advantage with having these inclined surfaces is that a risk of cracks or stress formed in the packaging material the blank 1 is made of when folding the first top fin panel 31 and the first gable fin panel 32, and also the second top fin panel 33 and the first gable fin panel 32, can be reduced, which is an effect of that there is fewer layers of packaging material close to the first and second vertical crease 61, 62, respectively.
The first and second spout reinforcement section 323, 324 may be placed a distance D from the first and second top fin front section 312, 332, respectively. This provides also for that forming of the top fin 202 of the package 200, illustrated in
In addition to being folded onto the spout top portion 327, the spout reinforcement section 328 may be welded to the spout top portion 327. This folding and optionally welding may be made before shipping the blank 1 to a filling machine 704, as illustrated in
With further reference to
The upper end side 3281 may consist of a straight end side. In this context, consists of a straight end side means that the entire end side is straight, i.e. it has no protrusion, indentation or curved portion.
The spout reinforcement portion 328 may have an outer boundary that consists of, in consecutive order, the spout top crease 92, the first inclined side 338 of the two inclined sides 338, 340, a first rounded corner R1, the upper end side 3281 which may consist of a straight end side, a second rounded corner R2, and the second inclined side 340 of the two inclined sides 338, 340, which joins the spout top crease 92 to close the outer boundary of the spout reinforcement portion 328. In this context, “consists of” shall be understood as the outer boundary of the reinforcement portion 328 not having any other shapes than those described, i.e. the spout top crease 92, the inclined sides 338, 340 the rounded corners R1, R2 and the upper end side 3281. The spout top crease 92, the inclined sides 338, 340 the rounded corners R1, R2 and the upper end side 3281 may still incorporate all embodiments and features that are described for these elements.
The upper end side 3281 may be parallel to and shorter than the spout top crease 92, such that the inclined sides 338, 340, which may consist of a respective straight side, are inclined inwardly towards the upper end side 3281 of the reinforcement portion 328.
The spout top portion 327 may comprise two straight edge sections 3271, 3272 that extend in parallel to the spout top crease 92, from a respective end of the top spout crease 92 and towards the respective first and second top fin panels 31, 33. Each of the two straight edge sections 3271, 3272 may have a length D (see
The first sidewall panel 11, the front wall panel 12, the second sidewall panel 13 and the rear wall panel 14 and sidewall seal panel 15, illustrated in
As illustrated, a top portion 205 of the spout 203 is provided with the spout reinforcement portion 328. Having the spout reinforcement portion 328 provided on the spout 203 comes with a number of advantages. First, by having this flap, i.e. the spout reinforcement portion 328 folded down, contact between a raw edge of the packaging material 300, further illustrated in
To provide for that the risk of cracks in the packaging material 300 can be reduced, the distance D, illustrated in
To avoid adherence between an inside of the spout during forming of the top fin 202, a first and second surface 400, 402 may be provided with lacquer L. By having this lacquer L, the heat used during the forming of the top fin 202, often referred to as transversal sealing, can be increased without risking adherence between the sections to be used for forming the spout 203.
Even though illustrated and described in a certain order, other orders may also be used. For instance, the first and second steps 602, 604 may be made in parallel or the second step 604 may be performed before the first step 602.
With reference to
In addition to or as an alternative to making the longitudinal sealing in the converting factory 700, folding the spout reinforcement portion 328 over the spout top portion 327 may be made in the converting factory 700 such that the filling machine 704 does not need to be upgraded to perform this step. In addition, the converting factory 700 may also, in addition to folding, be arranged to weld the spout reinforcement portion 328 to the spout top portion 327.
If using the approach described above and illustrated in
Optionally, in a third step 806, the spout reinforcement portion 328 is welded 802 to the spout top portion 327.
From the description above follows that, although various embodiments of the invention have been described and shown, the invention is not restricted thereto, but may also be embodied in other ways within the scope of the subject-matter defined in the following claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 21185882.4 | Jul 2021 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2022/068952 | 7/7/2022 | WO |
