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Title:
A METHOD FOR PROVIDING TRANSVERSAL SEALS TO A TUBE OF PACKAGING MATERIAL, AND A SEALING JAW ASSEMBLY
Document Type and Number:
WIPO Patent Application WO/2018/114310
Kind Code:
A1
Abstract:
A sealing jaw assembly for providing transversal seals to a tube of packaging material is provided. The sealing jaw assembly comprises a first pair of opposing sealing jaws (22a, 22b) being movable relative to each other to provide a first transversal seal (6a) to the tube (12), and a second pair of opposing sealing jaws (24a, 24b) being moveable relative to each other to provide a second transversal seal (6b) to the tube (12), wherein an angular distance between a first jaw (22a) of the first pair of jaws (22a, 22b) and a first jaw (24a) of the second pair of jaws (24a, 24b) is less than 90°, and an angular distance between the first jaw (22a) of the first pair of jaws (22a, 22b) and a second jaw (24b) of the second pair of jaws (24a, 24b) is greater than 90°.

Inventors:
HÅKANSSON PAUL (SE)
Application Number:
PCT/EP2017/081401
Publication Date:
June 28, 2018
Filing Date:
December 04, 2017
Export Citation:
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Assignee:
TETRA LAVAL HOLDINGS & FINANCE (CH)
International Classes:
B29C65/00; B31B70/00; B65B9/12; B65B9/20; B65B51/30; B65D75/50
Domestic Patent References:
WO2014154623A12014-10-02
WO2015019300A12015-02-12
WO2014154623A12014-10-02
Foreign References:
CH248124A1947-04-15
JPH04142231A1992-05-15
SE346284B1972-07-03
Attorney, Agent or Firm:
TETRA PAK - PATENT ATTORNEYS SE (SE)
Download PDF:
Claims:
CLAIMS

1. A sealing jaw assembly for providing transversal seals to a tube of packaging material, said sealing jaw assembly comprising

a first pair of opposing sealing jaws being movable relative to each other to provide a first transversal seal to the tube, and

a second pair of opposing sealing jaws being moveable relative to each other to provide a second transversal seal to the tube, wherein

an angular distance between a first jaw of the first pair of jaws and a first jaw of the second pair of jaws is less than 90°, and an angular distance between the first jaw of the first pair of jaws and a second jaw of the second pair of jaws is greater than 90°.

2. The sealing jaw assembly according to claim 1 , wherein the angular distance between the first jaw of the first pair of jaws and the first jaw of the second pair of jaws is between 75-80°, and the angular distance between the first jaw of the first pair of jaws and the second jaw of the second pair of jaws is between 100-105° 3. The sealing jaw assembly according to claim 1 or 2, wherein the sealing jaws of the first and second pair of sealing jaws are arranged to move relative to each other such that the sealing jaws of the first pair of sealing jaws meet in a first sealing plane during sealing, and the sealing jaws of the second pair of sealing jaws meet in a second sealing plane during sealing.

4. The sealing jaw assembly according to claim 3, wherein the sealing planes in which the sealing jaws of the first and second pair of sealing jaws meet during sealing is tilted at a tilt angle, relative a plane being perpendicular to a longitudinal axis of the tube.

5. The sealing jaw assembly according to claim 4, wherein the tilt angle is between 15-30°.

6. The sealing jaw assembly according to any one of the preceding claims, wherein said pairs of sealing jaws are configured to provide induction heating of the packaging material.

7. The sealing jaw assembly according to any one of the preceding claims, wherein said pairs of sealing jaws are configured to operate synchronous or asynchronous relative to each pair of jaws. 8. A method for providing transversal seals to a tube of packaging material, comprising

providing a first pair of opposing sealing jaws being movable relative to each other, and

providing a second pair of opposing sealing jaws being moveable relative to each other, wherein

an angular distance between a first jaw of the first pair of jaws and a first jaw of the second pair of jaws is less than 90°, and an angular distance between the first jaw of the first pair of jaws and a second jaw of the second pair of jaws is greater than 90°, and

activating said first and second pairs of sealing jaws for transversely sealing the tube.

9. The method according to claim 8, wherein the sealing jaws of the first and second pair of sealing jaws moves relative to each other such that the sealing jaws of the first pair of sealing jaws meet in a first sealing plane during sealing, and the sealing jaws of the second pair of sealing jaws meet in a second sealing plane during sealing.

10. The method according to claims 8 or 9, wherein said pairs of sealing jaws seal the packaging material by induction heating.

11. The method according to any one of claims 8- 10, wherein said pairs of sealing jaws move synchronous or asynchronous relative to each pair of jaws.

Description:
A METHOD FOR PROVIDING TRANSVERSAL SEALS TO A TUBE OF PACKAGING MATERIAL, AND A SEALING JAW ASSEMBLY

Technical Field

The present invention relates to a method of providing transversal seals to a tube of packaging material, as well as a sealing jaw assembly capable of providing such transversal seals. In particular, the present invention relates to providing transversal seals in order to form irregular tetrahedral packages. Background

Irregular tetrahedral packages have been suggested by the present applicant e.g. in WO2014/154623. In short, the irregular tetrahedral packages are produced from a tube of packaging material, preferably being configured to enclose a liquid food product. The tube is formed by reforming a flat web of packaging material to a cylindrical tube, filling the tube with a product, and transversally sealing and cutting the tube, at regular intervals, into separate packages.

For this type of packages, and as is described in the above-mentioned prior art reference, the transversal seals are provided by two separate pairs of sealing jaws. These pairs of sealing jaws are operating relative to each other such that each pair will clamp the tube in a respective plane during sealing. The sealing jaws of a plane may thus operate, i.e. perform sealing, in a plane being perpendicular to the longitudinal axis of the tube. As the tube normally extends vertically, the sealing plane is thus coinciding with a horizontal plane. These pairs of jaws can also be tilted slightly such that the transversal seals are provided at an angle relative the horizontal plane. The purpose of having the sealing jaw pairs angled relative the horizontal plane is to produce two types of irregular tetrahedral packages in an alternating manner, where one package is a mirror image of its immediately upstream and downstream package. By combining six packages, three of each type, it has been proven possible to arrange all six packages in the shape of a rectangular box, i.e. a six-face shape of which all faces are a rectangle, and of which each pair of adjacent faces meets at a right angle.

As is evident, these types of packages may be stored and transported extremely efficient as the packages fill almost the entire space within the rectangular box. Although irregular tetrahedral packages can be arranged into a cube for improved storing and transport, once filled the shape of the packages may be slightly distorted. This means that perfect fit into a rectangular box may be difficult to achieve, and there is thus a need for further improving these kinds of packages.

Summary

An object of the invention is to provide a sealing jaw assembly, a method for providing transversal seals to a tube of packaging material, and an irregular tetrahedral package overcoming the above mentioned drawbacks of prior art systems and methods.

According to a first aspect a sealing jaw assembly for providing transversal seals to a tube of packaging material is provided. The sealing jaw assembly comprises a first pair of opposing sealing jaws being movable relative to each other to provide a first transversal seal to the tube, and a second pair of opposing sealing jaws being moveable relative to each other to provide a second transversal seal to the tube. The angular distance between a first jaw of the first pair of jaws and a first jaw of the second pair of jaws is less than 90°, and the angular distance between the first jaw of the first pair of jaws and a second jaw of the second pair of jaws is greater than 90°, whereby the angular distances are measured in a plane being perpendicular to the longitudinal axis of the tube.

In an example, the angular distance between a first jaw of the first pair of jaws and a first jaw of the second pair of jaws is between 75-80°, preferably 78,5°, and the angular distance between the first jaw of the first pair of jaws and a second jaw of the second pair of jaws is between 100-105°, preferably 101 ,5°.

The sealing jaws of the first and second pair of sealing jaws may be arranged to move relative to each other such that the sealing jaws of the first pair of sealing jaws meet in a first sealing plane during sealing, and the sealing jaws of the second pair of sealing jaws meet in a second sealing plane during sealing.

In an example the first sealing plane is the same as the second sealing plane. In another example, the sealing plane of the first and the second sealing plane are different.

In an example the sealing plane in which the sealing jaws of a respective pair of sealing jaws meet during sealing may be tilted relative a plane being perpendicular to the longitudinal axis of tube. In an example the tilting angle of the sealing plane relative a plane being perpendicular to the longitudinal axis of the tube is between 15-30°, preferably between 20-25°.

The pairs of sealing jaws may be configured to provide induction heating of the packaging material.

In an example the pairs of sealing jaws are configured to operate synchronous or asynchronous relative to each pair of jaws.

According to a second aspect, a method for providing transversal seals to a tube of packaging material is provided. The method comprises providing a first pair of opposing sealing jaws being movable relative to each other, and providing a second pair of opposing sealing jaws being moveable relative to each other, wherein the angular distance between a first jaw of the first pair of jaws and a first jaw of the second pair of jaws is less than 90°, and the angular distance between the first jaw of the first pair of jaws rand a second jaw of the second pair of jaws is greater than 90°. The method further comprises activating said first and second pairs of sealing jaws for transversely sealing the tube.

In an example the sealing jaws of the first and second pair of sealing jaws moves relative to each other such that the sealing jaws of the first pair of sealing jaws meet in a sealing plane during sealing, and the sealing jaws of the second pair of sealing jaws meet in a respective sealing plane during sealing.

In an example the pairs of sealing jaws seal the packaging material by induction heating, or other types of heating such as ultrasound or other commonly used heating techniques for packages.

In an example the pairs of sealing jaws move synchronous or

asynchronous relative to each pair of jaws.

Brief Description of the Drawings

Examples of the teachings herein will be described in further detail in the following with reference to the accompanying drawings which illustrate non- limiting examples on how the examples can be reduced into practice and in which:

Fig. 1 is an isometric view of irregular tetrahedral packages according to an example;

Fig. 2 is an isometric view of a tube of packaging material during production of individual irregular tetrahedral packages;

Fig. 3 is an isometric view of a sequence of irregular tetrahedral packages; Fig. 4 is a top view of a sealing jaw assembly according to an example; Fig. 5 is an isometric view of a package according to an example;

Fig. 6 is a cross-sectional view of a package according to an example; and

Fig. 7 is a schematic view of a method according to an example.

Detailed Description

The present invention relates to a new method and sealing jaw assembly for manufacturing irregular tetrahedral packages, as well as such packages. An example of packages l a, lb for liquid food is shown schematically in Fig. 1. These are idealized packages that has flat side panels and distinct edges, but it should be understood that an actual package may deviate slightly from this ideal shape when manufactured in an actual machine. The side panels may be bulging outwardly slightly, and the edges may be slightly rounded.

In Fig. 1 , the shown packages l a-b are made from a flat web of laminated packaging material, typically comprising a carton-based core, for giving certain stiffness to the package, and inner and outer polymer layers. The inner polymer layer makes the package liquid-tight and protects the carton-based core layer, and it further allows heat-sealing of the package into its final shape. The outer layer protects the carton-based core layer from the moisture coming from the environment.

In some cases, an aluminum layer can also be provided in the laminated packaging material, normally on the inside of the carton-based core layer, to protect the food product from oxygen and/or light. The aluminum layer is typically covered with an inner most polymer layer.

The package l a, lb has four corners A, B, C and D that define the inner space of the package l a-b, in which the content of the package 1 will be enclosed. The package has four lateral edges, being labeled using the corners, i.e. ab, ac, bd, cd, and two end edges, ad and be. Two end fins, 2 and 3, project from said end edges. These end fins 2, 3 form transversal ends of the package 1. The package 1 has four side panels, labeled by the corners that define them, i.e. ABC, ACD, ABD and BCD.

Each package l a, lb is shaped like an irregular tetrahedron. Each lateral panel ABC, ACD, ABD and BCD is a right-angle triangle. Furthermore, two of the panels, ABC and ABD, are right-angled isosceles triangles having the same size, and having one edge ab in common. The other two panels, ACD and BCD, also have the same size and they share the hypotenuse, cd. As is shown in Fig. 1 , each package l a-b is shown having a longitudinal sealing 4 extending from the first transversal end 2 to the second transversal end 3. The longitudinal sealing 4 is made during the forming of a flat web of packaging material into a tube, before the package is filled with product and is divided into individual packages, in a way that is common in form-fill-seal machines, or in aseptic filling machines of the kind manufactured by the applicant, such as Tetra Pak® A3/Flex or Tetra Pak® Al .

Each package 1 thus has a body 5 having a tetrahedral shape formed by transversally sealing two ends 2, 3, of a tube of packaging material.

The packages l a-b, being defined as above, are preferably continuously formed as two different types in an alternating manner, one type being the mirror image of the second type. In Fig. 1 , a first package l a is shown to the left, and a second package lb is shown to the right, having a mirrored shape to the first package l a. It is possible to combine three packages, two first packages l a and one second package lb, into a triangular prism. Two such triangular prisms can be combined into a rectangular box. The rectangular box can be formed in two ways: 1) by combining two groups of l a- lb- l a prisms, or 2) by combining a group of l a- lb- l a prism with a group of lb- l a- lb prism. In the second case, the same amount of first type la and second type lb packages are used.

Now, the manufacturing the packages of the invention will be described.

In Fig. 2, a part of a web 10 of packaging material is provided, being of the laminated type as described above. The flat web 10 of packaging material is brought through a forming section, not shown, in which the web 10 is formed into a cylindrical tube 12 of packaging material. An overlap area 14, forming a longitudinal seal, is provided during the tube forming. The overlapping edges are sealed together in a way known per se, typically by heating the edges and then pressing them together. The overlap area 14 may be provided with a plastic strip, not shown, which is sealed to the inside surface of the overlap area 14, and which strip protrudes from one lateral edge of the web 10 of packaging material. This strip serves to cover the inner carton edge of the packaging material, in a way known per se, which edge may otherwise absorb the liquid food product inside the package l a, lb.

In Fig. 2, the arrangement shown provides first packages la and second packages lb in an alternating manner from a single tube 12 of packaging material. For this, a sealing jaw arrangement 20 is required. The sealing jaw arrangement 20 comprises at least a first pair of opposing sealing jaws 22a, 22b being movable relative to each other to provide a first transversal seal 6a to the tube 12, anda second pair of opposing sealing jaws 24a, 24b being moveable relative to each other to provide a second transversal seal 6b to the tube 12. The first transversal seal 6a is provided such that it forms the upper transversal end 2 of one package lb, and a bottom transversal end 3 of its adjacent package l a (see Fig. 1), while the second transversal seal 6b is provided such that it forms the bottom transversal end 2 of one package la, and an upper transversal end 2 of its adjacent package lb.

The sealing jaw assembly 20 is configured such that the angular distance between a first jaw 22a of the first pair of jaws and a first jaw 24a of the second pair of jaws, when measured in a plane being perpendicular to the longitudinal extension Z of the tube 12, is less than 90°, and the angular distance between the first jaw 22a of the first pair of jaws and a second jaw 24b of the second pair of jaws, when measured in the same plane being perpendicular to the longitudinal extension Z of the tube 12, is greater than 90°. This will further be explained with respect to Fig. 4.

The sealing jaws 22a-b, 24a-b will be operated such that they meet, during sealing, at an angle being about 22.5° in relation to a plane being perpendicular to the longitudinal axis of the tube 12 of packaging material. If the longitudinal extension Z of the tube 12 is arranged in the vertical direction, the sealing jaws 22a-b, 24a-b are tilted relative the horizontal plane when they meet during sealing.

The pairs of sealing jaws 22a-b, 24a-b are mounted for reciprocal motion toward and away from one another, as is indicated with arrows on each jaw 22a- b, 24a-b. The jaws of a common pair when moved toward each other act to compress and flatten the tube 12 of packaging material so as to adhere opposed interior surfaces of the packaging material together. When activated, the jaws of a common pair of sealing jaws achieve a seal of the tubular material along a seam line or sealing axis which intersects the longitudinal axis Z of the tube 12.

Adjacent pairs of jaws 22a-b, 24a-b are so oriented that they meet and make a seal in transversal directions which are angled relative one another, i.e. the direction indicated by reference numeral Y 1 is angled relative to the direction indicated by reference numeral Y2. Especially, and as will further be explained with respect to Fig. 4, the sealing jaws 22a-b of the first pair are not

perpendicular to the sealing jaws 24a-b of the second pair. It should be noted that the angle between the transversal directions Yl , Y2 are measured in a plane being perpendicular to the longitudinal axis Z of the tube 12. In order to achieve the unique irregularity of the tetrahedral shape of the packages l a, lb, each pair of jaws 22a-b, 24a-b is configured to be moveable such that the jaws 22a, 22b of the first pair move towards and away from each other, and the jaws 24a, 24b of the second pair move towards and away from each other. When the jaws 22a-b, 24a-b meet with each other in order to provide the seal, they are oriented to lie in a plane which has a predetermined angular relationship to the length direction of the tube 12 of packaging material, so that the longitudinal axis Yl , Y2 of the transversal sealings 6a, 6b achieved by each pair of jaws has the same predetermined angular relationship to the longitudinal axis Z of the tube of packaging material. Each sealing jaw 22a-b, 24a-b is for this purpose, when arranged in their respective operative position for providing the sealing 6a, 6b, angled approximately 22.5° relative a plane being perpendicular to the longitudinal axis Z of the tube 12. This will lead to transversal sealings 6a, 6b that will have a longitudinal axis Yl , Y2 that is angled approximately 22.5° in relation to a plane that is orthogonal to the longitudinal axis Z of the tube 12 of packaging material.

The pairs of jaws 22a-b, 24a-b may be spaced apart longitudinally from another, measured along the longitudinal axis Z of the tube 12 of packaging material, as indicated in Fig. 2. However, the first and second pair of sealing jaws 22a-b, 24a-b may also be arranged at the same position along the longitudinal extension of the tube 12, whereby activation of the respective pair is controlled in a manner such that when the tube 12 is fed forward (or downward in Fig. 2), the sealings 6a, 6b will be provided at regular intervals.

Fig. 3 shows a series of packages l a-b manufactured in an alternating manner in accordance with the description herein.

Fig. 4 is a schematic representation of a jaw system, where the first and second pair of sealing jaws 22a-b, 24a-b are arranged to provide transversal seals to a tube 12, e.g. by having all jaws 22a-b, 24a-b arranged at the same

longitudinal position of the tube 12.

This jaw system can thus be realized by using two pairs of chain assemblies, on which many jaws can be mounted. This is the typical setup that is used for the filling machines that manufacture Tetra Classic® packages. The jaw system can also be realized by having only two pairs of jaws which are driven by some drive means, similar to what is used in the Tetra Pak A3/Flex filling machine or TBA/19 filling machine.

It will of course be understood that each pair of jaws 22a-b, 24a-b in making a transversal seal 6a, 6b across the tube 12 of packaging material is making, in the same operation, the top transversal end for one of the individual packages l a, lb and the bottom transversal end for another of the individual packages lb, l a, the tube 12 of packaging material being subsequently cut along approximately the median line of each transversal seal 6a, 6b by any suitable means, not shown, to separate the strip material into individual packages la, lb.

In Fig. 2, it may appear that the tube 12 of packaging material is stationary and the jaws 22a-b, 24a-b make the transversal sealings 6a, 6b at different positions. This is not the case in normal production, however, where each sealing jaw 22a-b, 24a-b makes contact with the tube 12 of packaging material at an almost constant position (position along the longitudinal axis Z), and the tube 12 is then pulled down allowing for a new sealing jaw to again make a transversal seal at the same position along the longitudinal axis Z as the previous jaw. This pulling action of the sealing jaws 22a-b, 24a-b on the tube 12 is what feeds the web 10 of packaging material through the machine. Sometimes, additional feeding rollers are provided further upstream in the filling machine, in order to reduce the tension in the web 10.

Now returning to Fig. 4 each sealing jaw 22a-b, 24a-b has an extension in the sealing direction, i.e. the directions Yl , Y2 indicated in Fig. 2. The two sealing jaws 22a-b, 24a-b of a common pair face each other, i.e. they are arranged opposed to each other. The normal of each sealing jaw 22a-b, 24a-b is thus perpendicular to its associated sealing direction Yl , Y2.

The angular distance between a first jaw 22a of the first pair of jaws and a first jaw 24a of the second pair of jaws, in Fig. 4 indicated by reference a, is less than 90°, preferably between 75-80°, even more preferably 78,5°. The angular distance between the first jaw 22a of the first pair of jaws and a second jaw 24b of the second pair of jaws, in Fig. 4 indicated by reference β, is greater than 90°, preferably between 100- 105°, even more preferably 101 ,5°. The angular distance is thus measured between the normal of the respective sealing jaw 22a-b, 24a-b as indicated in Fig. 4. It should be noted that the angular distances mentioned above are preferably measured when the jaws 22a-b, 24a-b are arranged in their sealing position, i.e. when two jaws of a common pair meet with each other.

In Fig. 5 an example of a package l a is shown for further explaining the orientation of the transversal ends 2, 3 as provided by the sealing jaw assembly shown in Fig. 4. The sealing jaws 22a-b, 24a-b are as explained earlier angled relative to each other such that a projection of the transversal end 2 into a plane being perpendicular to the longitudinal axis Z of the tube 12 is not perpendicular to a projection of the bottom transversal ends 3 in the same plane. Further, the sealing jaws 22a-b, 24a-b are tilted relative a plane being perpendicular to the longitudinal axis Z of tube 12 such that the transversal ends 2, 3 extend in a direction not being perpendicular to the longitudinal extension Z of the tube 12. As can be seen in Fig. 5 the transversal ends 2, 3 are tilted relative a plane being perpendicular to the longitudinal direction Z of the tube 12 by an angle γ.

Preferably, the tilt angle γ is between 15-30°, preferably between 20-25°.

In Fig. 6 an example of a package l a is shown in cross-section. The transversal ends 2, 3 are non-perpendicular to each other, as indicated by the angles α, β. Hence, the first transversal end 2 and the second transversal end 3 are arranged in parallel planes, and a projection of the second transversal end 3 into the plane of the first transversal end 2 intersects the first transversal end 2 by an angle a being less than 90°.

In Fig. 7 a method 100 for providing transversal seals to a tube of packaging material is schematically shown. The method comprises a first step 102 of providing a first pair of opposing sealing jaws being movable relative to each other, and a second step 104 of providing a second pair of opposing sealing jaws being moveable relative to each other. Steps 102, 104 are performed such that the angular distance between a first jaw of the first pair of jaws and a first jaw of the second pair of jaws is less than 90°, and the angular distance between the first jaw of the first pair of jaws and a second jaw of the second pair of jaws is greater than 90°. The method 100 also comprises a third step 106 of activating said first and second pairs of sealing jaws such that the tube of packaging material is provided with transversal seals.

The invention has mainly been described with reference to a few examples. However, as is readily understood by a person skilled in the art, other examples than the ones disclosed above are equally possible within the scope of the invention, as defined by the appended claims.