RU177087U1 - POLYMER REPORT PACKAGING FOR AUTOCLAVE STERILIZATION OF LONG-STORAGE PRODUCTS - Google Patents

Abstract

Retort packaging for autoclave sterilization of long-term storage products is made in the form of a package of a multilayer laminated polymer film. It is intended for packing products of long-term storage on automatic and semi-automatic machines working using prefabricated packages. Retort packaging is economically affordable, durable, flexible and at the same time has sufficient rigidity for use on packaging lines of this type. The packaging is transparent and suitable for use in microwave ovens. The gas-barrier and light-shielding properties of the package can be adjusted depending on the type of product being packaged and sterilized and the requirements for the duration and storage conditions.

Description

The utility model relates to the field of containers for packaging products of long-term storage that undergo heating or cooling in this package, namely autoclave sterilization or pasteurization, and are packaged on automatic or semi-automatic lines operating using ready-made retort packaging. An example of the application of such packaging is the portioned packaging of long-term dishes (for example, vegetable and meat and vegetable dishes for individual diets), the packaging of canned vegetables, the packaging of pet foods, etc. Equipment for filling and sealing retort packages can be divided into two types: machines that open the bag, dispense the product and weld the upper seam using ready-made packages, and automatic lines that themselves form the bag from the roll, dispense the product into it and make the upper seam. The latter are very high-performance (250 or more packages per minute) and expensive equipment, which is advisable to use only with the constant production of large batches of one or two products. In addition, automatic lines of this type are economically available only to large enterprises. In this regard, machines in which ready-made packaging are used are much more widespread in the Russian Federation. They allow much faster and with less losses the transition from the production of one type of product to the production of the next; they do not require such large initial investments and operating costs.

When used on a filling machine, the retort packaging is first fixed to the edges on the side of the open part with special clamps, then it is opened, inflated and transported to the dispenser for filling and subsequent sealing. In order to successfully perform these operations, in addition to its basic working qualities, such as gas barrier properties, strength, elasticity and good weldability, the retort package must have a certain rigidity to hold its shape after opening, inflating, transporting and filling. Otherwise, there may be inaccurate packaging of the product, poor sealing of the finished packaging, loss of product and contamination of the packaging line. Traditionally, foil laminated materials are used to make retort packages.

Known packaging for sterilization of food products described in the patent ["Door verhitting gesteriliseerde, verpakte levensmiddelen met een laminaatvormige verpakking" NL 7315373, priority 10.11.1972, IPC B65D 81/34], selected as an analogue. The specified packaging is made in the form of packages of multilayer laminated materials, consisting of at least a heat sealable layer of polypropylene, a heat-resistant outer polymer layer, and an additional layer of aluminum foil located between them, providing barrier properties with respect to oxygen. Between the layer of aluminum foil and the layer of polypropylene, a cushioning layer of a thermoplastic polymer, in particular polyamide, polycarbonate, polyester or polyester-polylactone, can additionally be placed. The layers of the laminated material can be interconnected by adhesive based on heat-shrinkable polymers.

This packaging, being suitable for autoclave sterilization and long-term storage of products, has several disadvantages, namely:

- packaging according to this invention is opaque, which excludes the possibility of visual identification of the product;

- such packages are unsuitable for heating in microwave ovens;

- the use of aluminum foil causes a high cost of packaging;

- the possibility of damage to an unstable crease layer of aluminum foil during autoclave sterilization is not ruled out.

The disadvantages of the analogue are partially absent in the packaging described in the patent for the invention ["Method of preserving products in plastic packaging and plastic packaging", RU 2247519, priority 26.09.2002, IPC BVB 0055/14], selected as a prototype. In the specified technical solution, the plastic packaging for sterilization and pasteurization of plant products is made of a laminated material sequentially containing layers of polypropylene, polyamide and polyethylene terephthalate.

Packaging for sterilization according to the prototype has several advantages over the analogue due to the absence of a layer of aluminum foil in the base material. The package becomes transparent, suitable for use in a microwave oven, the probability of damage to the barrier layer due to creases is reduced, the cost of packaging is slightly reduced.

The disadvantages of this solution are:

- low gas-barrier packaging properties due to the gas permeability of polyethylene terephthalate and polyamide;

- the high cost of the material due to the use of expensive biaxially oriented polyamide film and two lamination cycles.

The technical result achieved in the utility model is the combination of strength, elasticity and stiffness that are required in retort packaging for long-term storage products packaged on machines operating using ready-made retort bags. Packaging with this set of properties is economically available, does not contain aluminum foil, and therefore is suitable for use in microwave ovens. The gas-barrier and light-shielding properties of the package can be adjusted depending on the type of product being packaged and sterilized and the requirements for the duration and storage conditions.

The specified technical result is achieved in that in a polymer retort package for autoclave sterilization of long-term storage products made in the form of a package of a multilayer laminated polymer film containing a layer of non-oriented polypropylene and a layer of polyethylene terephthalate sequentially located from the inner to the outer layer, a layer of resistant to autoclave sterilization of adhesive based on polyurethane. The polypropylene layer is made with a thickness of 30-150 μm, the polyethylene terephthalate layer is made biaxially oriented, with a thickness of 35-50 μm, and the adhesive layer based on polyurethane is made with a thickness of 4-7 μm, with a total film thickness of 69-207 μm.

The structure of a multilayer laminated polymer film for retort packaging according to a utility model is shown in FIG. 1 where

1 - layer of non-oriented polypropylene;

2 - layer of adhesive resistant to autoclave sterilization based on polyurethane;

3 - a layer of biaxially oriented polyethylene terephthalate.

The affordability of the package is due to the use of relatively inexpensive film materials included in its composition, and the one-stage process of its manufacture. The strength and elasticity of the retort packaging is due to a layer of non-oriented polypropylene with a thickness of 30-150 microns. The rigidity of the package is ensured by using a biaxially oriented polyethylene terephthalate film with a thickness of 35-50 microns. The use of this material also ensures the transparency of the finished packaging. The absence of a layer of aluminum foil in the packaging determines its suitability for use in microwave ovens. Packaging according to the utility model allows the possibility of adjusting gas-barrier and light-shielding properties depending on the type of product being packaged and sterilized and the requirements for the duration and storage conditions. The specified adjustment is carried out by applying special coatings to a layer of biaxially oriented polyethylene terephthalate or introducing special additives into the polypropylene layer.

The choice of layer thicknesses and the total thickness of the multilayer laminated polymer film for the manufacture of retort packages is due to the following.

It has been experimentally proved that a heat sealable layer of polypropylene with a thickness of less than 30 microns does not provide sufficient strength of the welds to maintain the integrity of the package during the process of autoclave sterilization, cooling, transportation and storage. In addition, to ensure sufficient strength of the welds and the elasticity of the multilayer film, the heat sealable layer should be of non-oriented polypropylene. It can be made of a non-oriented polypropylene film made, for example, on a water-cooled blown extrusion line or on a plane-slot type line. Films made by any of these technologies have sufficient thermoplasticity, good weldability and provide the necessary strength of welds.

Lamination of such films with a thickness of less than 30 microns is technically difficult. The use of a polypropylene film with a thickness of more than 150 microns is not economically feasible, and in addition, the manufacture of retort packaging, in particular the doy-pack type, of a multilayer material with a welded polypropylene layer thickness of more than 150 microns is technically difficult.

It has been experimentally proved that a biaxially oriented polyethylene terephthalate film with a thickness of less than 35 μm does not provide the rigidity of the retort packaging sufficient for the successful operation of filling equipment, and in addition, when using a thinner film, gas-barrier and strength characteristics (in particular, puncture and kink) sharply multilayer polymer film. The use of a film with a thickness of more than 50 μm makes the packaging unnecessarily stiff and also makes the manufacture of the bag difficult.

It has been experimentally proved that when the thickness of the heat-resistant adhesive layer based on polyurethane is less than 4 μm, it is not possible to achieve sufficient adhesion for a successful autoclave sterilization cycle, as a result of which the packaging may delaminate along the adhesive layer. The use of a layer with a thickness of more than 7 microns is technologically and economically impractical.

If necessary, additives can be introduced into the polypropylene layer to increase its consumer qualities, namely:

- to improve weldability and increase the plasticity of the film - a copolymer of propylene with ethylene in an amount of 5.0-50.0 wt. %, for example, of well-known grades 22015 or 22030. It has been experimentally proved that the introduction of a copolymer of propylene with ethylene in an amount of less than 5.0 wt. % does not affect the ability of the layer to weld and its plastic qualities. When more than 50% of a copolymer of propylene with ethylene is introduced into the polypropylene layer, the packaging resistance to autoclave sterilization conditions sharply decreases.

- to reduce the coefficient of dynamic friction - additive in the amount of 0.1-3.0 wt. %, for example, the well-known additive based on erucamide or oleamide AKKAT PP / F 104321 "manufactured by Aksoy Plastik. It has been experimentally proved that the introduction of additives into the polypropylene layer to reduce the dynamic friction coefficient in an amount of less than 0.1 wt. % does not reduce the dynamic friction coefficient, and its introduction in an amount of more than 3.0 wt. % has a negative effect on the strength of the welds of the finished packaging.

- to prevent adhesion on the surfaces of the films upon contact, an additive based on silicic acid in an amount of 0.1-3.0 wt. %, for example, the well-known supplement based on silicic acid and erucamide brand "Akkat PP / F 101121" company "Aksoy Plastik". It has been experimentally proved that the introduction of additives into the polypropylene layer to prevent sticking when they are in contact in an amount of less than 0.1 wt. % does not prevent adhesion on the surface, and the introduction of additives in an amount of more than 3.0 wt. % is economically inexpedient and has a negative effect on the strength of the welds of the finished packaging.

- to absorb the film of ultraviolet radiation and thereby protect against exposure to light - additive in an amount of 0.1-6.0 wt. %, for example, the well-known additive based on spatially-hindered amines of the Aksoy PP / F 101121 brand from Aksoy Plastik. It has been experimentally proven that the introduction into the polypropylene layer of an additive to absorb ultraviolet radiation in an amount of less than 0.1 wt. % does not affect the absorption of ultraviolet radiation by the package, but in an amount of more than 6.0 wt. % is economically unjustified, since the level of ultraviolet absorption does not increase.

- to prevent the buildup of mechanical impurities, including dust, - a superconcentrate of antistatic additives in an amount of 0.5-3.0 wt. %, for example, the well-known additive brand "VLA66" or "ASPA 2446" based on epoxy amines manufactured by SISAN. It has been experimentally proved that the introduction of an antistatic additive into the polypropylene layer in an amount of less than 0.5 wt. % does not prevent the buildup of mechanical impurities, and the introduction of additives in an amount of more than 3.0 wt. % negatively affects the strength of the welds of the finished packaging and its appearance.

- to give the film a specific color - superconcentrates of dyes based on polyethylene or polypropylene in an amount of 0.5-8.0 wt. %, for example, manufactured by Schulmann, Aksoy Plastik. The introduction of a dye superconcentrate into the polypropylene layer in an amount of less than 0.5 wt. % does not provide sufficient color of the layer, and its introduction in an amount of more than 8.0 wt. % economically impractical.

To increase the gas-barrier properties of the film with respect to oxygen to a value of 1.0 cm ³ / (m ² ⋅ 24 h⋅1 atm), a layer of aluminum oxide or silicon oxide 50-100 thick is applied to the polyethylene terephthalate film 35–50 μm thick from the side of the adhesive layer nm Such films are also commercially available. When the thickness of the oxide coating is less than 50 nm, sufficient homogeneity of the oxide layer is not ensured; through its pores and microcracks may be present in its structure, which negatively affects the gas-barrier properties of the film. The use of an oxide layer with a thickness of more than 100 nm is technically and economically impractical, because the gas-barrier properties of the film do not improve with a further increase in the thickness of the oxide layer.

In the manufacture of retort packaging for products requiring protection from exposure to light, a biaxially oriented polyethylene terephthalate film is coated with a layer of aluminum or stainless steel 20-200 nm thick on the side of the adhesive layer on an ion-plasma or magnetron metallizer. Such films are also commercially available. A metal nanolayer with a thickness of less than 20 nm does not provide sufficient light transmission of the film, and applying a layer with a thickness of more than 200 nm is technically and economically impractical.

If it is necessary to simultaneously increase the gas-barrier qualities of the film and provide protection from exposure to light, it is possible to simultaneously apply a nanolayer of aluminum oxide or silicon oxide with a thickness of 50-100 nm on a biaxially oriented polyethylene terephthalate film with an additional coating of 20-200 mm thick aluminum or stainless steel on the specified layer nm on an ion-plasma or magnetron metallizer. Such films are commercially available. A metal nanolayer with a thickness of less than 20 nm does not provide sufficient light transmission of the film, and applying a layer with a thickness of more than 200 nm is technically and economically impractical.

Another option for the manufacture of retort packaging, which protects the packaged product from exposure to light, is to apply a layer of heat-resistant, autoclave sterilization, a polyurethane-based paint with a thickness of 2-7 microns on a biaxially oriented polyethylene terephthalate film on the side of the adhesive layer. A paint layer with a thickness of less than 2 microns does not provide sufficient protection against exposure to light, and applying a layer with a thickness of more than 7 microns by traditional methods of rotational printing is technically difficult, economically unjustified, and may worsen the adhesive interaction between the films.

Retort packaging for autoclave sterilization of long-term storage products can be made both in the form of flat three-seam bags, and in the form of standing doypack bags with a bottom. Packages of both types can be produced both in a traditional rectangular shape, and with rounded corners, curly shape. Cutting and notching of various shapes can be performed at the seams of packages (for example, for easy opening of packaging, hanging on racks, etc.).

The process of creating a polymer retort packaging for autoclave sterilization of long-term food products made in the form of a package according to a utility model includes the following technological stages.

1. The stage of manufacturing a multilayer laminated polymer film for the production of retort packaging. For the connection of two starting film materials (heat-sealable film of non-oriented polypropylene with or without additives described above and a biaxially oriented polyethylene terephthalate film with or without coatings described above), the method of dry solvent lamination is used. As an adhesive, two component adhesive polyurethane compositions are used, designed specifically for autoclave sterilization, for example, Novacot 250/350 manufactured by Coim. The adhesive is applied by a raster shaft with a surface density of the dry residue of 4.0-7.0 g / m ² . The solvent used is ethyl acetate grade “A”. After lamination, the material is dried under the conditions recommended by the manufacturer of the adhesive. After passing through the drying cycle, longitudinal cutting of the finished multilayer laminated polymer film to the size required for the manufacture of a specific retort package is performed on a bobbin cutting machine.

2. The stage of manufacturing a retort package for autoclave sterilization of long-term food products. Retort packages of the desired shape and size are produced on traditional bag making machines with continuous or pulsed thermal heating of longitudinal and transverse welding elements. In the manufacture of rectangular flat three-seam bags, the multilayer laminated polymer film made in the first stage is fed into the heat-sealing elements from a single or double unwinding device made in the first stage. The manufacture of packages takes place in one or several cycles, as well as in one or several threads, depending on the geometric dimensions of the package and bag welding machine. The temperature of welding the seams is 135-160 ° C, the contact time is 0.3-1.5 s, depending on the thickness of the material and the individual characteristics of the equipment. Next, there is a longitudinal cutting of the packages with a blade knife (when they are made in several threads), a transverse cutting on the guillotine knife assembly, and laying on the table with a conveyor.

Doypack packs with a welded bottom are made according to a similar scheme, from a single or double unwinding unit, in one or two streams. Additionally, there is a step of welding the bottom tape made of the same multilayer laminated film material as the bag itself.

Packages of the doy-pack type with a folding bottom are made according to a similar flat three-seam package scheme from a single unwinding unit in one thread. Additionally, there is a stage of laying the bottom of the crease.

Bags with rounded corners are produced in a similar way. After the manufacture of welds, the stage of rounding the corners with special punching dies is added. A double triggering system for the guillotine cutting unit can also be used.

For the production of packages with notches and cuts of various shapes in welds, die-cutting dies of the corresponding shape are also used.

For the production of bags of arbitrary shape, instead of the node of the transverse guillotine cutting, a curly cutting device (Thompson Press) is used.

A zip-lock fastener can be welded into packages of any of the above types on a bag-welding machine for repeated repeated closing of the package after its initial opening.

Thus, the technical solution for this utility model allows you to create a strong, flexible and at the same time rigid polymer retort packaging for autoclave sterilization of long-term storage products packaged on machines that use ready-made retort bags. Packaging with the specified set of qualities is economically available, does not contain aluminum foil, and therefore, is suitable for use in microwave ovens. The gas-barrier and light-shielding properties of the package can be adjusted depending on the type of product being packaged and sterilized, and the requirements for the duration and storage conditions.

Claims (12)

1. Polymer retort packaging for autoclave sterilization of long-term storage products, made in the form of a package of a multilayer laminated polymer film containing a layer of non-oriented polypropylene and a layer of polyethylene terephthalate sequentially arranged from the inner to the outer one, characterized in that a layer resistant to autoclave sterilization is located between these layers adhesive based on polyurethane, while the polypropylene layer is made with a thickness of 30-150 μm, the polyethylene terephthalate layer is made of biaxial oriented 35-50 microns thick, and a layer of adhesive based on polyurethane is made of 4-7 microns thickness with a total film thickness of 69-207 microns. 2. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that the polypropylene layer of the multilayer laminated polymer film further comprises 5.0-5, .0 wt. % copolymer of propylene with ethylene. 3. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that the polypropylene layer of the multilayer laminated polymer film further comprises an additive to reduce the dynamic friction coefficient in an amount of 0.1-3.0 wt. % 4. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that the polypropylene layer of the multilayer laminated polymer film additionally contains an additive to prevent adhesion on the surfaces of the films when they are in contact in an amount of 0.1-3.0 wt. % 5. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that the polypropylene layer of the multilayer laminated polymer film further comprises an additive for absorbing ultraviolet radiation in an amount of 0.1-6.0 wt. % 6. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that the polypropylene layer of the multilayer laminated polymer film further comprises a superconcentrate of antistatic additives in an amount of 0.5-3.0 wt. % to prevent sticking of mechanical impurities. 7. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that the polypropylene layer of the multilayer laminated polymer film additionally contains a dye superconcentrate in an amount of 0.5-8.0 wt. % 8. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that an additional layer of aluminum oxide or silicon oxide with a thickness of 50.0-100.0 nm is deposited on the biaxially oriented polyethylene terephthalate layer from the side of the polyurethane adhesive layer. 9. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that an additional layer of aluminum or stainless steel with a thickness of 20.0-200.0 nm is applied to the biaxially oriented polyethylene terephthalate layer from the side of the polyurethane adhesive layer. 10. Polymer retort packaging for autoclave sterilization of long-term food products according to claim 1, characterized in that a layer of aluminum oxide or silicon oxide with a thickness of 50.0-100.0 nm is deposited on the biaxially oriented polyethylene terephthalate layer from the side of the polyurethane adhesive layer, with additional drawing on the specified layers of aluminum or stainless steel with a thickness of 20.0-200.0 nm. 11. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that a layer of withstanding autoclave sterilization paint on a polyurethane base with a thickness of 2.0-7.0 is applied to the layer of biaxially oriented polyethylene terephthalate from the side of the adhesive layer based on polyurethane microns. 12. Polymer retort packaging for autoclave sterilization of long-term storage products according to claim 1, characterized in that it is made in the form of a three-seam package or a doy-pack.

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