DEGASSING VALVE WITH POSITIVE-PRESSURE CONTROL, METHODS FOR PRODUCING SAME AND PACKETS CONTAINING SAME

Abstract

The present invention relates to a one-way multilayer degassing valve, with positive-pressure control, which comprises one or more layers of a base substrate, one or more layers of a stretchable film and one or more layers of a filtering material. The invention also relates to packages comprising these valves and to a method for producing the same.

Claims

1. A one-way degassing valve comprising a first base substrate layer (1); a first layer of stretchable film (2); a layer of filtering material (3); a second layer of stretchable film (4); and a second base substrate layer (5), all stacked one on top of the other, wherein the first layer of stretchable film (2) and the second layer of stretchable film (4) are arranged between the first base substrate layer (1) and the second base substrate layer (5), the filtering material layer being arranged between the first layer of stretchable film (2) and the second layer of stretchable film (4), and wherein the base substrate layers (1) (5) have a width larger than the width of the layers of stretchable film (2) (4) and filtering material (3), and the layer of filtering material (3) has a length shorter than the length of the stretchable film layers (2) (4) and base substrate layers (1) (5), the base substrate layers (1) (5) being joined together by heat seals (7), located along the outer edges of the stretchable film layers (2) (4), a conduit (9) being formed in the middle of the layers of stretchable film (2) (4) extending longitudinally through the valve, within which conduit the layer of filtering material (3) is arranged.

2. The valve of claim 1, wherein the base substrate (1) comprises polyethylene, polypropylene, or a plastic for use in lamination.

3. The valve according to any of the preceding claims, wherein the stretchable film (4) is a plastic film of palletizable or stretchable polyethylene.

4. The valve according to any of the preceding claims, wherein the filtering material (3) is a porous material in cotton or cellulose or a material that is not thermal sensitive.

5. The valve according to any of the preceding claims, wherein the stretchable film layers (2) (4) are adhered to the base substrate layers (1) and the layer of filtering material (3) is adhered to one or both layers of stretchable film by means of an adhesive.

6. A method for manufacturing a degassing valve comprising the steps of: i) Providing an adhesive on one of the faces of a roll of stretchable film and cutting said roll to the required width; ii) Joining the face of the stretchable film having the adhesive to a base substrate layer, obtaining a first assembly, wherein the stretchable film is centered with respect to the base substrate layer, leaving two strips of base substrate free of stretchable film; iii) Repeating step ii), to obtain a second assembly; iv) Providing an adhesive on one of the faces of a roll of filtering material and cutting said roll to have the width of the stretchable film of the assemblies and to have a length shorter than the length of the stretchable film, to obtain several sections of the filtering material; v) Joining the face having the adhesive of the sections of filtering material to the stretchable film of the first assembly, the different sections of the filtering material being separated by a distance that is equivalent to the length of the valves; vi) Overlap the second assembly obtained in step iii) over the first assembly obtained in step v), so that the filtering material is disposed between the stretchable film of the first assembly and the stretchable film of the second assembly, the stretchable films being arranged between the base substrate of the first assembly and the base substrate of the second assembly vii) Applying thermal fusion at the outer edges of the base substrate, adjacent to the edges of the stretchable film; viii) Cutting the final assembly obtained in step vii) perpendicularly and adjacent to one end of the sections of the filtering material.

7. The method according to claim 6, wherein the base substrate comprises polyethylene, polypropylene, or a plastic for use in lamination.

8. The method according to any of claim 6 or 7, wherein the stretchable film is a plastic film of palletizable or stretchable polyethylene.

9. The method according to any of claims 6 to 8, wherein the filtering material is a porous material in cotton or cellulose or a material that is not thermal sensitive.

10. The method according to any of claims 6 to 9, wherein the adhesive is a double-sided adhesive tape, or an industrial adhesive compatible with plastic materials.

11. A package comprising one or more of the valves according to any one of claims 1 to 5, wherein the valves are adhered to one or more edges of the package, by means of a thermal fusion seal (8) or an adhesive that adhere the one or more edges of the package.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0013] FIG. 1 shows an exploded diagram of an embodiment of the valve of the present invention.

[0014] FIG. 2 shows a front view of an embodiment of the valve of the present invention, attached to a packaging.

[0015] FIG. 3 shows a side view of an embodiment of the valve of the present invention, wherein the duct between the layers of palletizable material is closed.

[0016] FIG. 4 shows a side view of an embodiment of the valve of the present invention, wherein the duct between the layers of palletizable material is open.

DETAILED DESCRIPTION OF THE INVENTION

[0017] First, the present invention is directed to a degassing valve to be installed in packages. Particularly, this valve provides controlled degassing of the gases released by the product contained in a package, such that it does not explode, but allowing said gases (aromas) to be contained and packed at high pressure (a pressure greater than atmospheric pressure) for longer periods of time and preventing unwanted oxygen entry.

[0018] The one-way degassing valve comprises one or more layers of a base substrate, one or more layers of a stretchable and palletizable film (plastic with high surface adherence) and one or more layers of a filtering material.

[0019] Preferably, the one-way degassing valve has a stacked structure, in which a first base substrate layer (1), a first layer of stretchable film (2), a layer of filtering material (3), a second stretchable film layer (4) and a second base substrate layer (5), are staked one above the other and in this precise order. The base substrate layers (1) (5) are wider than the stretchable film layers (2) (4) and filtering material (3). The first and second base substrate layer (1) (5) are joined together by a heat seal (7) or by adhesive means. The heat seal or adhesive means (7) are located along the outer edge of stretchable or palletizable films (2) (4). The stretchable film layers (2) (4) are bonded to the base substrate layers (1) (5) by an adhesive. The layer of filtering material (3) is attached to one or both layers of stretchable film by means of an adhesive.

[0020] Between the layers of stretchable film (2) (4) a conduit is formed that allows the passage of gases from a proximal end to a distal end of the valve. The proximal end of the valve is the one that receiving the gases coming from inside the package, while the distal end is the one that is on the outside of the package. The layer of filtering material (3) extends from the proximal end to the distal end of the valve and has a length less than the length of to first (2) and second (4) layer of stretchable film, so that there is a portion in which the first (2) and the second (4) layer of stretchable film come into direct contact, sealing the distal end. Between these two layers an attractive force is generated due to the surface properties of the film, which allows the valve to remain closed until the gas pressure inside the package is such that exceeds force generated by the base material and by the nature of the adhesion of the stretchable plastic film in the duct, and pushes the internal gases from the proximal end, opening the channel that is formed between the layers of stretchable film, towards the distal end, preventing the bag from exploding, but maintaining an internal pressure greater than the atmospheric one.

[0021] Taking into account that the pressure is by definition a force over area, the valve of the present invention can be of various sizes, depending on the desired force to prevent the escape of degassing gases, generating in turn a positive pressure within the package, but, not exceeding the pressure at which the seams or joints of the packaging would fail or yield.

[0022] The filtering material layer (3) ensures that when the channel between the layers of stretchable film (2) (4) is open, unwanted contents do not enter the packaging (6), nor does the contents come out of the packaging. The filtering material is not affected by the heat bonding process, hereafter referred to as thermal fusion.

[0023] The degassing valve is a one-way valve, so that the channel between the layers of stretchable material (2) (4) only opens to allow gas flow from inside the package to the outside, when the pressure inside the package (6) is such that a pressure differential sufficient to drive the metered flow of gases is generated. When the pressure differential decreases, the channel closes, thus allowing the package not to explode but to retain a desired amount of the gases inside at a pressure greater than the atmospheric one.

[0024] In a preferred embodiment of the invention, the base substrate comprises polyethelene, polypropylene, or other plastic used in lamination for use in food that can be heat-fused or another similar or similar material (compatible with the internal material of the package).

[0025] In another preferred embodiment of the invention, the stretchable film is a palletizable or stretchable polyethene plastic film or any other plastic film with similar surface properties.

[0026] In a preferred embodiment of the invention, the filtering material may be a porous material made of cotton, cellulose or any other material that is not affected by the thermal fusion process.

[0027] In an even more preferred embodiment of the invention, the adhesive materials joining the base substrate layers can be double-sided adhesive tape, or an industrial adhesive compatible with plastic materials.

[0028] The invention provides a package comprising the degassing valve described as exemplified in FIG. 2. The package comprises one or more valves at one or more of its edges. The valves are adhered in said position by a thermal fusion process or by adhesives. This adhesion process is the same as that carried out to seal any of the edges of the package. The length of the layer of filtering material (3) is slightly longer than the width of the seal (8) by thermal fusion or adhesive in the seam of the package.

[0029] When a particular edge of a package is thermally sealed, an additional seal of the different valve layers is simultaneously provided. Due to the above, there are much lees possibilities in the final product of occurring leaks at the junctions between the valve and the package.

[0030] The fixation of the valve to the bag or packaging by thermal fusion can be carried out in the section of the valve in which the stretchable plastic layers (2) (4) are not in direct contact, because of the presence of the layer of filtering material (3) between the plastic layers, which layer has a length shorter than the length of the stretchable plastic layers (2) (4). This closure consists of a seal that joins the base substrate layers with the stretchable film layers, maintaining the presence of a duct in which the layer of filtering material is located, which is not sealed because it is not sensitive to thermal fusion. The thermal fusion closure is perpendicular to the direction of the existing duct between the layers.

[0031] In a preferred embodiment of the invention, the valve for controlled degassing is particularly used in coffee storage packages. This valve allows the gases released by the coffee after the roasting process to be released, preventing the packaging from exploding, but allowing these gases to remain inside the bag for longer periods of time, preserving the aromatic properties of the roasted coffee, thereby reducing the migration of oils from the inside of the coffee grain to outside the grain, and preventing the entry of oxygen.

[0032] It is also an object of the present invention to provide a method for manufacturing the valve, as described above. This method comprises the following stages:

i. Providing an adhesive on one of the sides of a roll of plastic palletizable film and cut the roll to the required width. The adhesive materials can be a double-sided adhesive tape, an industrial adhesive compatible with plastic materials, among others;
ii. Joining the face of the palletizable plastic film comprising adhesive to a base substrate layer, obtaining a first assembly, where the palletizable plastic film is centered with respect to the base substrate layer, generating two strips of base substrate free of palletizable plastic material, each one at each side of the palletizable plastic film;
li Repeating step ii, for obtaining a second assembly;
iv. Providing an adhesive on one of the faces of a roll of filtering material and cut said roll to a width equal to or slightly less than the width of the plastic palletizable film of the assemblies and a length shorter than the length of the plastic palletizable film, obtaining several sections of filtering material;
v. Joining the face of the sections of filtering material, comprising adhesive, to the palletizable plastic film of the first assembly, the different sections of filtering material being separated at a distance that will depend on the length of the valves;
vi. Overlapping the second assembly obtained in step iii over the first assembly obtained in step v, matching the outer free edges of the base material in both assemblies;
vii. Making a thermal fusion on the outer edges of the base material, adjacent to the edges of the palletizable plastic film, obtaining a final assembly;
viii. Cutting the final assembly perpendicularly and adjacent to one end of the sections of the filtering material.

[0033] In the method, the layers of stretchable film can be adhered to the base substrate layers and the filtering material can be adhered to one of the layers of stretchable film using double-sided adhesive tape, or an industrial adhesive compatible with plastic materials.

[0034] The base substrate has the property of being able to be fused (heat bonded) to the internal material of the packaging bags where it is desired to install the valve. If it is not compatible, an adhesive film would be installed on one of its faces.

EXAMPLES

Example 1

[0035] Comparative analysis of the organoleptic properties of a coffee sample packaged in a commercial packaging and a sample packaged in the packaging of the present invention.

[0036] Based on the Colombian Technical Standard (NTC) 4447 (Sensory analysis. Standard method for determining the effect of packaging on food products and beverages during storage of the products), a discriminative test was carried out on which four samples of A (a sample with commercial packaging) and four samples of B (the sample with experimental packaging) were placed in two tables, and in a interspersed pattern, for expert tasters to determine which was the most oxidized sample.

[0037] As a result, in the discriminatory test, the expert tasters identified that sample A is which contained a higher degree of oxidation and rancidity, thus demonstrating that the package and valve of the present invention provides the preservation of the organoleptic properties of coffee.