JPH11227701A - Encasing method for gas-filled shrink package body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent pinholes from being formed on gas-filled shrink package bodies while preventing packaged matters from being decomposed by a method wherein the package bodies are encased while being wrapped up in polyolefin resin film. SOLUTION: The reason why pinholes are not formed on gas-filled shrink package bodies encased in a case seems to be attributable to the followings. Since polyolefin resin film is interposed between the gas filled shrink package bodies and the internal surface of the case, gas-barrier shrink films forming the external surface of the package bodies and the internal surface of the case do not directly rub each other. In the case where the gas-barrier shrink films stuck close to the edges and the corners of a tray are in contact with the internal surface of the case, pinholes are especially liable to be formed to those parts and therefore, wrapping up those parts in polyolefin resin film for preventing those parts from being directly in contact with the internal surface of the case is effective.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for packing a package in which a packaged object is placed on a tray and which is packaged in a gas-filled shrink package for storage and transportation.

[0002]

2. Description of the Related Art Recently, food products such as fresh foods such as raw meat and fresh fish, prepared foods such as prepared dishes and tsukudani, or processed foods such as sliced ham, sausage and grilled pork, and uncooked foods such as dumplings, shumai, shrimp fry, etc. 2. Description of the Related Art Packaging has been packaged on a foam tray made of a polystyrene resin or the like or a transparent tray made of a polypropylene resin or the like and gas-filled shrink packaging has come to be used. These packages are divided into small pieces for storage and transportation, and are packed in a cardboard box or the like as they are.

However, in a gas-filled shrink package packed in a cardboard box or the like, pinholes are easily generated in the gas barrier shrink film due to friction with the inner surface of the box when transported by a truck or the like. In particular, the gas-barrier shrink film adhered to the edges and corners of the tray was apt to generate pinholes, and the contents to be packaged were likely to rot.

[0004] A gas-filled shrink package is a gas-shrinkable synthetic resin film (hereinafter referred to as "gas-barrier shrink film") that is used for air discharge like a general shrink package. Of the packaging body having air tightness without replacing the air inside the packaging body with the gas for filling, and then covering the shrink film by heating and shrinking the gas barrier shrink film. That is.

As a gas used for the gas-filled shrink package, an inert gas such as nitrogen gas or carbon dioxide gas is generally used. Raw meat, fresh fish, and the like are preferably made of a mixture of carbon dioxide and oxygen, or a mixture of nitrogen and oxygen, in order to maintain a fresh red color.

[0006]

SUMMARY OF THE INVENTION According to the present invention, a packaged product, such as fresh food or processed food, is placed on a tray, and a gas-filled shrink-packaged package is packed in a box for a long distance using a truck or the like. It is an object of the present invention to provide a method of packing a gas-filled shrink package so that pinholes do not occur in the gas-filled shrink package even when the package is transported, and the package does not rot.

[0007]

According to the present invention, the following means have been taken in order to solve the above-mentioned problems. That is, in order to prevent pinholes from being generated in the boxed gas-filled shrink package, the package is packaged in a state of being wrapped with a polyolefin resin film. Generally, a plurality of the packages packed in a box are wrapped together. Preferably, a polyolefin-based resin film that wraps the package has good slipperiness with a box or a gas barrier shrink film.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS First, as a gas-filled shrink package used in the present invention, it is necessary that an object to be packaged be placed on a tray in order to exert the effects of the present invention. That is, in the gas-filled shrink package of the packaged articles placed on the tray, the gas-barrier shrink film that is in close contact with the edges and corners of the tray rubs against the inner surface of the box, and a pinhole is formed at the location. Is easy to occur.
Therefore, in the method of the present invention, when the package to be packaged is packed in a tray in a gas-filled shrink package and used in a cardboard box or the like, the excellent effects of the present invention are sufficiently exhibited. You.

Further, the gas-filled shrink package used in the method of the present invention is not limited to a package obtained by a specific method, but may be a package obtained by a conventional method. Can be used. For example, using a horizontal pillow type automatic packaging machine, a flat shrink film having a gas barrier property is formed into a cylindrical shape, and the packaged material placed on the tray while blowing gas for filling into the cylindrical shape is used. Insert and then heat seal by overlapping both ends of the gas barrier shrink film while discharging excess filling gas,
Fusing and heat sealing the front and rear of the tray on which the articles to be packaged are provided to obtain an envelope. The obtained envelope is guided into a heat shrink tunnel, and the gas barrier shrink film is shrunk by heating to obtain a gas-filled shrink package.

Further, the size and shape of the gas-filled shrink package used in the method of the present invention are not particularly limited, and those having conventionally used sizes and shapes can be used. . Specifically, in the case of fresh food or processed food, the vertical direction is 100 mm to 3 mm.
50mm, horizontal direction 50-300mm, height 17-5
A package in which objects to be packaged are placed on a rectangular tray of 0 mm is generally used.

The gas-barrier shrink film for a gas-filled shrink package used in the present invention includes:
It is necessary that the film be excellent in gas barrier properties because it is filled with gas, not to mention having heat shrinkability. For example, a single-layer film composed of a vinylidene chloride-based resin or a saponified ethylene-vinyl acetate copolymer, or
A multilayer film in which a vinylidene chloride resin layer or a saponified ethylene-vinyl acetate copolymer layer is laminated on a core layer, and a polyethylene resin layer or a polypropylene resin layer is laminated on both outer layers is preferably used.

As the polyolefin-based resin film for wrapping the gas-filled shrink package, a film excellent in slipperiness with a box in which the package is packed or a gas barrier shrink film used for the package is preferable. Specifically, the coefficient of kinetic friction between the surface of the polyolefin resin film, which becomes the outer surface when the package is wrapped, and the inner surface of the box is 0.5.
In addition, the coefficient of kinetic friction between the surface of the polyolefin-based resin film, which becomes the inner surface when the package is wrapped, and the surface of the gas barrier shrink film, which becomes the outer surface of the package, is 0.9 or less. Is preferred.

If the coefficient of kinetic friction between the polyolefin-based resin film and the inner surface of the box exceeds 0.5 and the coefficient of kinetic friction between the polyolefin-based resin film and the gas barrier shrink film exceeds 0.9, gas filling is required. When the shrink package is packed in a box and transported over a long distance by a truck or the like, a pinhole may occur in the gas barrier shrink film that is in close contact with the edge or corner of the tray of the package. Was.

In the present invention, the kinetic friction coefficient between the polyolefin resin film and the inner surface of the box or between the polyolefin resin film and the gas barrier shrink film is determined according to JIS-K-7125 "Friction coefficient test of plastic film and sheet. Method ". That is, a polyolefin resin film was placed on a test table, and a box material and a gas barrier shrink film were attached to a sliding piece.

Examples of the polyolefin resin film used in the present invention include low-density polyethylene, linear low-density polyethylene, ethylene-vinyl acetate copolymer, polypropylene, and ethylene-propylene copolymer. Further, in order to give these polyolefin-based resin films slipperiness with a box or a gas barrier shrink film, which is preferred in the present invention,
Conventional lubricants and anti-blocking agents which are conventionally used for polyolefin-based resin films can be used. For example, as a lubricant, stearamide,
Oleic acid amide and the like, and examples of the anti-blocking agent include alumina silica and the like.

The thickness of the polyolefin resin film used in the present invention is not particularly limited, but is preferably 20 μm to 100 μm. Further, the size of the polyolefin-based resin film needs to be a size that can completely wrap the gas-filled shrink package. For example, when wrapping a plurality of packages, it is necessary to have a size that allows all the packages to be wrapped together.

The box used in the present invention is not particularly limited, and a general box used for packing ordinary food packages can be used. For example, cardboard boxes, plastic boxes, and the like are frequently used. And in the case of a cardboard box, the vertical direction is 15
0mm ~ 600mm, horizontal direction 300mm ~ 900m
m, a height of 100 mm to 500 mm, and a sealed type is generally used. In the case of a plastic box, the vertical direction is 200 mm to 600 mm and the horizontal direction is 500 mm.
An openable type having a size of 50 to 300 mm and a height of 50 to 300 mm is generally used.

There is no specific method for packing the gas-filled shrink package in a state of being wrapped in a polyolefin-based resin film, but the following method is convenient. General. That is, a polyolefin-based resin film is laid in a box, and the packages are arranged in several rows and several rows on the polyolefin resin film. Then, on the uppermost surface of the superimposed package, a polyolefin-based resin film laid in a box is used to turn over and wrap the remaining film end on the package. The folded film ends are merely overlapped, and there is no particular need to seal them by heat sealing or knotting.

[0019]

The pin-holes do not occur in the gas-filled shrink wrapper packaged by the method of the present invention for the following reasons. That is, since the polyolefin-based resin film is interposed between the gas-filled shrink package and the inner surface of the box, the gas barrier shrink film forming the outer surface of the package and the inner surface of the box are directly in contact with each other. It is considered that the film did not rub and pinholes were hardly generated. In particular, when the gas barrier shrink film that is in close contact with the edges and corners of the tray is in contact with the inner surface of the box, pinholes are likely to occur in that part, so that part is made of a polyolefin resin film. It is an effective means to wrap and prevent the part from directly touching the inner surface of the box.

Further, even if vibrations are applied to the box in which the gas-filled shrink package is packed, if the polyolefin resin film and the inner surface of the box have good slipperiness, the package will be formed together with the polyolefin resin film. It is thought that the package and the polyolefin resin film hardly rub against each other due to the vibration, so that pinholes hardly occur. In addition, if the sliding property between the polyolefin-based resin film and the outer surface of the package is good, the package does not strongly rub against the polyolefin-based resin film, so that pinholes are less likely to occur.

[0021]

EXAMPLES Hereinafter, the present invention will be described more specifically with reference to Examples and Comparative Examples. It is obvious that the present invention is not limited to the contents described in the examples. [Example 1] A tray made of polypropylene resin containing an inorganic filler (length x width x height 150 mm x 112 mm x 23 m
In m), 125 g of sliced ham was added, and a shrink package filled with nitrogen gas was obtained. As the gas barrier shrink film, the core layer is a saponified ethylene-vinyl acetate copolymer, the outer layers are ethylene-α-olefin copolymers, and the adhesive resin layer for bonding both layers is a polypropylene-based shrink film. It was an adhesive resin. The thickness of the core layer was 2 μm, both outer layers were 3.5 μm, and both adhesive resin layers were 3.5 μm.

This gas-filled shrink package is placed in a cardboard box (length × width × height 160 mm × 345 mm × 10
0 mm), a 30 μm-thick linear low-density polyethylene film (length × width 600 mm × 700 mm) is laid, and three rows are arranged on the film, and the center is 4 steps and both sides are 3 layers.
Stacked 10 pieces. Then, the remaining end of the polyolefin resin film was folded and wrapped around the uppermost surface of the package. Further, the opening of the cardboard box was closed, and the packing of the gas-filled shrink package into the cardboard box was completed.

Twenty cardboard boxes in which the gas-filled shrink packages were packed were subjected to a transportation test of about 2,000 km by truck over two days. In all the cardboard boxes, gas-filled shrink packages with pinholes were found. No body was found, and the sliced ham retained its freshness. The coefficient of kinetic friction between the polyolefin resin film and the inner surface of the cardboard box was 0.2, and the coefficient of kinetic friction between the polyolefin resin film and the gas barrier shrink film was 0.4.

Comparative Example 1 The same gas-filled shrink package as used in Example 1 was used, except that the polyolefin resin film was not used, and the same cardboard box as in Example 1 was used. Packed in boxes. A transport test was performed on the 20 cardboard boxes in which the gas-filled shrink packages were packed in the same manner as in Example 1. As a result, a gas-filled shrink package having pinholes was found in all cardboard boxes, and the total number was 92 pieces. The pinholes were generated at the edges and corners of the tray where all the pinholes were in contact with the inner surface of the cardboard box.

[0025]

The gas-filled shrink wrapper packaged in a box according to the method of the present invention does not generate pinholes even if it is transported over a long distance by truck or the like. It is suitable for packing gas-filled shrink wrapped objects in boxes. In other words, even if the pinholes occur, even the perishable goods can be extended in the distribution period, which is very useful for the business.
Moreover, the method of the present invention is a simple method in which the gas-filled shrink package is packed in a state of being wrapped in a polyolefin-based resin film, and therefore can be easily implemented without requiring any special device. Can be.

Claims (3)

[Claims] An object to be packaged is placed on a tray, and when packing a gas-filled shrink-wrapped package, the package is packed in a state of being wrapped with a polyolefin-based resin film. A method for packing a gas-filled shrink wrapper, the method comprising: 2. The method for packing a gas-filled shrink package according to claim 1, wherein a plurality of gas-filled shrink packages packed in a box are integrally wrapped. 3. The polyolefin resin film according to claim 1, which has a coefficient of dynamic friction with a box of 0.5 or less, and
3. The method for packing a gas-filled shrink package according to claim 1, wherein the coefficient of kinetic friction with the gas barrier shrink film is 0.9 or less.