Login| Sign Up| Help| Contact|

Patent Searching and Data


Title:
FLEXIBLE FILM, ENVELOPE OR BAG
Document Type and Number:
WIPO Patent Application WO/2017/115241
Kind Code:
A1
Abstract:
Flexible film (10) for packaging comprising, joined together, a first layer (4), a second layer (6) configured to provide a barrier through the film (10) with respect to moisture, gases and/or light, a fourth layer (12), configured to promote a substantially linear tearing of the film (10) and comprising polyolefins crystallised in a linear fashion, and a protective layer (14) comprising a thermoplastic polymer, covering at least part of the fourth layer (12) in order to prevent/limit the migration of fatty or oily substances through its thickness, towards the fourth layer (12). The invention also relates to an easy-opening bag, at least partially made from such film.

Inventors:
ZAMMORI RICCARDO (IT)
BERTOLINI FERRUCCIO (IT)
Application Number:
PCT/IB2016/057928
Publication Date:
July 06, 2017
Filing Date:
December 22, 2016
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
SAFTA SPA (IT)
International Classes:
B32B27/08; B32B15/08; B32B27/32; B32B27/36; B65D75/58
Foreign References:
US20060046006A12006-03-02
US20130279833A12013-10-24
US5912070A1999-06-15
US20140335293A12014-11-13
US20060251876A12006-11-09
US20080292225A12008-11-27
Attorney, Agent or Firm:
ETERNO, Enrico et al. (IT)
Download PDF:
Claims:
CLAIMS

1. Flexible film (10) for packaging comprising, joined together in a preferably indirect manner:

a first layer (4) or outer layer comprising or consisting of polyester;

- a second metallic layer (6), configured to create a barrier through said film (10) with respect to moisture, gases and/or light;

- an optional third layer (8) comprising or consisting of polyester;

a fourth layer (12), configured to promote a substantially linear tearing of said film (10) along at least a given tearing direction (S) and comprising polyolefins crystallised in a linear manner, for example cyclic olefin copolymers (COC) ;

- a protective layer (14) or inner layer, comprising or consisting of a thermoplastic polymer, free of crystallised polyolefins and covering at least part of the fourth layer (12) in order to prevent/limit the migration of fatty or oily substances through its thickness, towards the fourth layer (12) .

2. Flexible film according to the preceding claim, wherein the protective layer (14) serves at least partly as a filter or physical barrier for said fatty or oily substances, in order to reject the migration of the latter through the thickness of the protective layer (14) and prevent contamination of the crystallised polyolefins of the fourth layer (12), for a time of at least three months at a temperature of about 40°C.

3 . Flexible film according to any of the preceding claims, wherein the protective layer (14) comprises or consists of polyethylene, low density polyethylene optionally linear, medium density polyethylene optionally linear, high density polyethylene, ultra high molecular weight polyethylene, polypropylene, homopolymer polypropylene, random copolymer polypropylene, ethylene vinyl alcohol, ionomers, or combinations thereof.

4 . Flexible film according to any of the preceding claims, wherein the protective layer (14) comprises or consists of a polar polymer layer, and comprising an amphipathic coupling layer (16, 16') at least on the side facing the fourth layer (12) .

5 . Flexible film according to the preceding claim, comprising an apolar product-contact layer (42) positioned on the opposite side with respect to the first layer (4) and connected to the protective layer through an amphipathic coupling layer (16') .

6 . Flexible film according to any of the preceding claims, wherein the protective layer (14) has a thickness in the range of about 10-30 μπι.

7. Flexible film according to any one of the preceding claims, wherein the first (4), second (6), fourth (12) and optionally third layer (8) indirectly adhere to each other through adhesive layers (18, 20, 22), and wherein the protective layer (14) is in direct contact with the fourth layer (12) or is separated from the fourth layer (12) by an amphipathic coupling layer (16, 16') .

8. Flexible film according to any of the preceding claims, wherein the first (4) and the third (8) layer comprise or consist of polyethylene terephthalate (PET) , and wherein at least the surface (24) of the first layer (4) facing the fourth layer (12) comprises printed graphic elements (26) .

9. Flexible film according to any of the preceding claims, wherein the fourth layer (12) comprises the crystallised olefins mixed, for example in a percentage equal to or lower than 99%wt, with polyethylene, low density polyethylene optionally linear, medium density polyethylene optionally linear, high density polyethylene, ultra high molecular weight polyethylene, polypropylene, homopolymer polypropylene, random copolymer polypropylene and combinations thereof.

10. Flexible film according to any of the preceding claims, wherein the overall thickness (A) of said film (10) is approximately in the range of 70-200 μπι.

11. Easy-opening bag (1, 2), comprising at least a pair of walls (28, 30), which together delimit an internal compartment (32) to receive fatty or oily substances, said walls (28, 30) being at least partially thermo- welded to each other to hermetically close the internal compartment (32), wherein one or both of said walls (28, 30) are at least partly made of the flexible film (10) according to any of the preceding claims.

12. Bag according to the preceding claim, wherein the internal compartment (32) is at least partially occupied by a cosmetic or food product, the protective layer (14) being in contact with said product.

13. Bag according to any of claims 11 to 12, wherein the internal compartment (32) is resistant to an external compression, without bursting, of at least 1,5 tons for at least 1 minute.

14. Bag according to any of claims 11 to 13, characterised in that it has a substantially flat or stand-up type shape.

15. Bag according to any of claims 11 to 14, wherein the walls (28, 30) delimit a plurality of side edges (34, 34') welded together whereIN, in correspondence of at least one (34, 34') of said edges, at least one guide notch (36) is formed for tearing at least part of said edge from the remaining portion of the bag.

16. Bag according to any of claims 11 to 15, wherein the divarication value or ratio D/L between the overall length (L) of a side edge (34) of said bag, and the maximum distance (D) between the torn flaps (38, 40) of opposite walls (28, 30) in correspondence of the side edge (34) is approximately in the range 0.02 to 0.1.

Description:
DESCRIPTION

"FLEXIBLE FILM , ENVELOPE OR BAG"

This invention relates to a flexible packaging film, and a bag for easy opening.

The use of flexible films, for example in the form of an envelope, for the containment of products of the cosmetics or food industries is extremely widespread. With respect to the more traditional glass containers, the use of thin-walled films allows obtaining advantages in terms of both logistics and transport costs, mainly by virtue of the reduced weight and overall dimensions of such films.

The use of copolymers based on cyclic olefins in said films is also known, mainly in order to facilitate a substantially linear tearing upon product opening, without the need for tools.

In this regard, the authors of this invention have observed that cyclic olefins suffer a progressive and irreversible deterioration in contact with certain categories of product, since such olefins assume a generally rubbery consistency and, as a result of such transformation, no longer correctly perform their tearing-assistance function.

This invention relates to the preceding context, proposing to provide a film and a bag able to dramatically extend the useful life of the cyclic olefins, and thus ensure the film or bag reliable tearing behaviour over time.

This purpose is achieved by means of a film according to claim 1 and by means of a bag according to claim 11. The claims dependent on these show preferred embodiments. The object of this invention will now be described in detail, with the help of the accompanying drawings, in which :

- Figures 1 and 2 show sections of two different films, object of this invention, according to possible embodiments ;

- Figures 3 and 4 illustrate envelopes or bags made with the aforesaid films, according to distinct variants; - Figure 5 represents the bag of figure 4 during the tearing of a side edge;

- Figure 6 summarises the parameters of a bag involved in the calculation of the divarication value or ratio. With reference to the accompanying figures, reference number 10 identifies, in its entirety, a flexible packaging film according to this invention.

This film 10 comprises, preferably joined indirectly (in this regard see the following description) , the following layers:

- a first layer 4 or outer layer comprising or consisting of polyester;

- optionally, a second layer 6, for example of the metallic type, configured to create a barrier through the film 10 with respect to moisture, gases and/or light; - an optional third layer 8 comprising or consisting of polyester;

a fourth layer 12, configured to promote a substantially linear tearing of the film 10 along at least a given tearing direction S and comprising polyolefins crystallised in a linear manner, for example cyclic olefin copolymers (COC) ;

- a protective layer 14 or inner layer, comprising or consisting of a thermoplastic polymer (and preferably thermo-weldable ) , advantageously free of crystallised polyolefins and covering at least part of the fourth layer 12 in order to prevent/limit the migration of fatty or oily substances through its thickness, towards the fourth layer 12.

It follows that fats and/or oils, which have been identified as the substances mainly responsible for the rubbery transformation of the cyclic olefins mentioned in the opening, are prevented or limited from reaching the fourth layer, by virtue of the protective layer and related characteristics that act as a barrier to the crossing of its thickness. Without wishing in any way to provide a scientific explanation of the phenomenon, it is considered that, according to the known technique, the fatty substances penetrate in the films since chemically compatible with the polymeric layers of such films. These substances thus blend and plasticise the crystalline structure of the crystallised polyolefins, forming rubbery structures. In other words, the fatty substances would appear to be suitable to break the crystalline structure of the linearly crystallised polyolefins, making them plastic .

On the contrary, according to this invention, the fatty or oily substances remain confined at a certain distance from the crystallised polyolefins, or have a sufficiently low migration speed as not to impair the crystalline structure of the polyolefin of the fourth layer .

For example, the fourth layer could be apolar.

Preferably, the fourth layer 12 comprises the crystallised olefins mixed with polyethylene, low density polyethylene optionally linear, medium density polyethylene optionally linear, high density polyethylene, ultra high molecular weight polyethylene, polypropylene, homopolymer polypropylene, random copolymer polypropylene and combinations thereof. Merely by way of example, the crystallised olefins could be mixed with the aforesaid polymers in a percentage equal to or less than 99% by weight (%wt), preferably in a percentage comprised in the range 20-50%wt.

According to an embodiment, the overall thickness A of said film 10 is approximately in the range of 70-200 μπι. According to a further embodiment, the protective layer 14 has a thickness comprised in the range of about 10- 30 μπι. More precisely, the thickness of the protective layer 14 is variable as a function of the concentration of fatty or oily substances intended to come into contact with the flexible film (and thus of the type of product) and/or by virtue of the nature of the selected protective layer .

According to a preferred variant, the second layer 6 comprises or consists of a foil made of aluminium or aluminium alloy.

According to an advantageous variant, the first 4 and/or the third 8 layer comprise or consist of a polyethylene terephthalate (PET) .

According to an embodiment, the first 4, optionally the second 6, the fourth 12 and optionally the third 8 layer adhere to each other indirectly, through adhesive layers 18, 20, 22 interposed between them. In this regard, see, for example, the schematisations of Figures 1 and 2. According to a particularly advantageous embodiment, the protective layer 14 serves at least partly as a filter or physical barrier for said fatty or oily substances, in order to reject, at least partly, the migration of the latter through the thickness of the protective layer 14 and prevent contamination of the crystallised polyolefins of the fourth layer 12 by the fatty/oily substances .

Merely by way of example, such a filter or barrier could be effective for a time of at least three months at a temperature of about 40°C, or for at least six months (for example, for about one year) at room temperature. According to various variants, the protective layer 14 comprises or consists of polyethylene, low density polyethylene optionally linear, medium density polyethylene optionally linear, high density polyethylene, ultra high molecular weight polyethylene, polypropylene, homopolymer polypropylene, random copolymer polypropylene, ethylene vinyl alcohol, ionomers, and/or combinations thereof.

Merely by way of example, the ionomers could include sodium ions and/or zinc ions.

According to an advantageous embodiment, the protective layer 14 comprises or consists of a polar polymeric layer. According to this variant, the film 10 could comprise an amphipathic coupling layer 16, 16' at least on the side facing the fourth layer 12.

The presence of a polar layer preferably requires at least one amphipathic coupling layer 16, 16' that, by virtue of its dual polar/apolar functionality, is able to combine a layer with polar characteristics with the fourth layer, preferably apolar.

According to the schematised embodiments, the protective layer 14 could be in direct contact with the fourth layer 12 (Figure 1), or could be separated from the fourth layer 12 by an amphipathic coupling layer 16 (Figure 2) . In the presence of a protective layer 14 of polar nature, the flexible film 10 could further comprise a product- contact layer 42, positioned on the side opposite to the first layer 4.

For example, the product-contact layer 42 could be apolar .

Advantageously, the product-contact layer 42 is connected to the protective layer through an amphipathic coupling layer 16' .

According to a variant, the product-contact layer 42 could include, or consist of random polypropylene copolymer, or could be selected from among any of the polymers mentioned above in relation to the fourth layer 14. According to these last variants, the flexible film 10 would therefore have a double barrier with respect to the fatty/oily substances, for which it would be particularly suitable for contact with products with a high content of oils and fats.

Optionally, at least the surface 24 of the first layer 4 facing the fourth layer 12 comprises graphic elements 26, for example printed.

The aforesaid objective is also achieved by an easy- opening bag 1, 2 with the following characteristics.

According to the embodiments shown, this bag 1, 2 could be shaped in a substantially flat manner (Figure 4), or could be of the stand-up type (Figure 3) .

The bag 1, 2 comprises at least a pair of walls 28, 30, which together delimit an internal compartment 32 to receive fatty or oily substances, where such walls 28, 30 are at least partially thermo-welded to each other to hermetically close the internal compartment 32.

More precisely, the walls 28, 30 are welded along the side edges 34, 34', for example in the number of at least three or at least four edges, where the walls are preferably of a polygonal shape.

One or both of the aforesaid walls 28, 30 are made at least partly (for example completely) from the flexible film 10 according to any of the embodiments illustrated previously .

Preferably, the walls 28, 30 could be thermo-welded to each other through the protective layer 14, or through the pair of protective layers of the two walls facing each other.

Preferably, the internal compartment 32 is at least partially occupied by a cosmetic or food product, where the protective layer 14 could be in contact with such product (Figure 1), or could be separated from such product through the product-contact layer 42.

According to a preferred embodiment, the internal compartment 32 is resistant to an external compression of at least 1,5 tons (for example about 3 tons) for at least 1 minute, in particular without such compartment bursting.

It follows that the walls 28, 30 are joined together securely enough and/or have a wall thickness sufficiently high to ensure that such bag 1, 1' withstands the aforesaid applied compression.

According to a variant, the walls 28, 30 delimit a plurality of side edges 34, 34' welded together where, in correspondence of at least one 34, 34' of said edges, at least one guide notch 36 is formed for tearing at least part of said edge from the remaining portion of the bag. In this regard, Figure 3 shows a bag 2 with only one guide notch, while Figure 4 shows a bag 1 with a pair of opposed notches.

Therefore the notch facilitates the first tearing of the side edge, and determines the tearing direction S of the edge through the crystallised polyolefins, such tearing taking place in a substantially linear manner by virtue of the polyolefins.

According to a particularly advantageous variant, the divarication value or ratio D/L between the overall length L of a side edge 34 the aforesaid bag, and the maximum distance D between the torn flaps 38, 40 of opposite walls 28, 30 in correspondence of the side edge 34 is approximately comprised in the range 0.02 to 0.1. As regards the divarication value, reference is also made to document EP1769908A1 of the same Applicant. This invention will now be illustrated according to several non-limiting examples.

In these examples, the columns from left to right identify, in this order, the layer considered, its thickness expressed in micrometres, the percentage by weight of the layer components, the chemical nature of such components, the trade name of a possible industrial product usable for each component, and finally the manufacturer of the industrial product. These examples focus primarily on the fourth layer and layers successive to the fourth, but does not affect the fact that the first layer according to the invention is always present and that there could optionally also be the second and/or third layer as defined above.

Example 1 :

Example 2 :

Example 3:

Product name Producer fourth

Innovex LL6608AF

Iaver 40μ 47% LLDPE Ineos

crysta11ised

43% poiyolefins APL 6015T Mi sui

10% LDPE LD 158 BW ExxonMobil amphiρathic

layer 3μ 100% Admer NF458A Mitsui protective

layer 3μ 100% EVGH EVAL F171 Ku a ay amphiρathic

Iave 3 100% Adrner NF458A Mitsui p oduct- contact Innovex LL6608AF

layer 26μ 90% LLDPE Ineos

10% LDPE LD 158 BW ExxonMobil

Overall

th-i chiess: 75μ

Example 4 :

Example 5:

Product name Producer fourth PP random

Mopler SP320M

layer 40i 57% copolymer Lyondellbasei 1 crystallised

43% po1yo1efins Topasl 8007F-400 opas amphipathic

laye 3μ 100% Admer F458A Mitsui protective

laye 3μ 100% SVOH EVAL F 171 K raray amphipathic

1ayer 3μ 100% Adin r NF458A Mitsui product- contact. PP random Mopler. PP320M

laye 26u 100% copolymer Lyondelibasel1

Over ll

thickness : 75vi

In the preceding examples the abbreviations used have the following meaning: LLDPE = linear low density polyethylene; LDPE = low density polyethylene; LMDPE = linear medium density polyethylene; PP = polypropylene; EVOH = ethylene vinyl alcohol.

Innovatively, the flexible film and bag of this invention allow brilliantly solving the drawbacks of the prior art.

More precisely, the structure of the film and bag allow preserving the easy-opening or tearing characteristics over time, by virtue of the slowing or impossibility of the oily/greasy substances to reach the crystallised polyolefins. Advantageously, the film and the bag of this invention allow guaranteeing a reliable sealed closure of the environment in which the product is contained.

Advantageously, the film and the bag object of this invention were designed to ensure resistance to high external pressure.

Advantageously, the film and bag of this invention allow achieving considerable economies of manufacture, by virtue of the fact that specific processing does not require supplementary or additional equipment respect to those required in this sector.

Advantageously, the film and bag of this invention substantially completely use materials destined to the union of the components, with no waste.

Advantageously, the film and the bag of this invention are particularly effective in creating a barrier to the fourth layer, since the appropriate selection of the polarities provides a reliable partition of the materials .

Advantageously, the film and bag of this invention have wall thicknesses no greater with respect to the corresponding products according to the known technique. To the embodiments of the aforesaid flexible film and bag, one skilled in the art, in order to meet specific needs, may make variants or substitutions of elements with others functionally equivalent.

Even these variants are contained within the scope of protection, as defined by the following claims.

Moreover, each of the variants described as belonging to a possible embodiment can be realised independently of the other variants described.