JPH072255A - Polyethylene bag - Google Patents

Abstract

PURPOSE:To obtain a polyethylene bag which consists entirely of polyethylene and possesses highly rated properties with respect to both heat seal strength and flexibility. CONSTITUTION:A film is composed of an outer layer 14 and an inner layer 17; the outer layer 14 is composed of a layer consisting of high density polyethylene film 10 and a layer consisting of low density polyethylene film 12 which is formed on the inner side of a layer of high density polyethylene film; the inner layer 17 consists of an inner film 16 having at least a low density polyethylene film in its constitution and is provided on the inner side of the outer layer. The resulting product can be used without anxiety as a holder for various liquids, even in the case of dairy products. The material is especially suited for the interior in a bag-in-box device.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a polyethylene bag capable of containing a beverage such as milk, and particularly to a bag as an interior part of a bag-in-box.

[0002]

2. Description of the Related Art As a container for storing or transporting various liquids, a metal can or a plastic bottle (blow bottle) has been widely used. Of these, plastic bottles are lightweight and can be used in a wide range of applications without being affected by the content liquid by selecting a material having excellent chemical resistance and the like.

However, in recent years, there have been many inconveniences such as inconvenience in processing even if incinerated when taking up space and disposing of it as the container becomes larger. Therefore, the inner part for containing the content liquid is a bag made of thin film or sheet, and the outer part is a corrugated cardboard container having the self-supporting property necessary for storage and transportation. Flexible bag-in-box, which is made up of various components, is drawing attention.

[0004]

However, in this bag-in-box, in order to form a bag-shaped interior portion from a film or sheet, the spouts (ports), side portions, bottom portion, etc. are fused by heat sealing. Need to let. Therefore, the bag of the interior portion is required to have a very high heat seal strength. Further, in order to put the liquid inside, there is a strong demand for further pinhole resistance and flexibility so that the liquid can be easily poured and discharged.

In order to meet these requirements, therefore, a film for a bag-in-box has been a laminate film in which various films having a strong nylon or polyester film as a base material are laminated.

By the way, when a dairy product such as milk is put in as the content liquid, the material of the bag must be a material that complies with the Ordinance of the Ministry of Health and Welfare. According to the Ordinance of the Ministry of Milk, etc., the bag needs to be composed of a polyethylene film and a port.

However, the bag made of polyethylene film is not always satisfactory in heat-sealing strength and the like. Therefore, there is no polyethylene bag which has a portion welded by heat-sealing and which is entirely made of polyethylene. The appearance of a polyethylene bag that solves the above problems is desired.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a polyethylene bag which is entirely made of polyethylene and has both high heat sealing strength and flexibility.

[0009]

A polyethylene bag according to claim 1 comprises (1) a high density polyethylene film layer and a low density polyethylene film layer formed inside the high density polyethylene film layer. Outer layer and (2) an inner layer formed of an inner film having at least a low-density polyethylene film and provided inside the outer layer.

The invention according to claim 2 is the polyethylene bag according to claim 1, wherein the inner layer is constituted by a plurality of inner films.

The polyethylene bag according to claim 3 is the polyethylene bag according to claim 1 or 2, wherein the outer layer of the high density polyethylene film layer has a density of 0.935 g / cm ^3.
The above is the feature that the density of the low-density polyethylene film layer is 0.930 g / cm ³ or less.

The polyethylene bag according to claim 4 is the polyethylene bag according to claim 1 or 2, wherein the outer layer of the high-density polyethylene film has a melt flow rate of 0.1 g / 10 min or less, and the low-density polyethylene film is low. And has a melt flow rate of 0.8 g / 10 min or less.

A polyethylene bag according to a fifth aspect of the present invention is the polyethylene bag according to the first or second aspects, characterized in that each of the inner films constituting the inner layer has a thickness of 30 to 80 μm.

A polyethylene bag according to a sixth aspect is the polyethylene bag according to the first or second aspect, characterized in that the outer layer has a thickness of 60 to 150 μm.

The polyethylene bag according to claim 7 is the polyethylene bag according to claim 1 or 2, wherein the low-density polyethylene film layer has a thickness of 1 to the outer layer of the high-density polyethylene film layer. It is characterized by being 9 times.

The polyethylene bag according to claim 8 is the polyethylene bag according to claim 1 or 2, wherein at least one inner film is a multilayer film obtained by coextrusion of low density polyethylene and high density polyethylene. It is a feature.

[0017]

The polyethylene bag of the present invention comprises an outer layer composed of a high-density polyethylene film layer and a low-density polyethylene film layer, and an inner layer composed of an inner film having at least a low-density polyethylene film. Thus, it was possible to realize a bag having high heat-sealing strength, flexibility, pinhole resistance, and strength, while using polyethylene as a material conforming to the Ordinance of the Ministry of Milk and the like. In particular, by specifying the respective densities, melt flow rates, and thicknesses of the outer layer high-density polyethylene film layer and the low-density polyethylene film layer as described above, and by specifying the inner film thickness, etc. Further, the properties such as heat seal strength, flexibility, pinhole resistance and strength can be enhanced.

Further, by providing a high heat-resistant high-density polyethylene film layer on the outer side and an inner layer made of a low-density polyethylene film layer and a low-density polyethylene film which are easily melted by heat on the inner side, the outer layer and the inner layer are formed during heat sealing. The layer can be uniformly melted, and the workability is improved.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. The polyethylene bag whose main part is shown in FIG.
4 and an inner layer 17 composed of two inner films, a first inner film 16 and a second inner film 18.

The outer layer 14 is formed by laminating the high-density polyethylene film layer 10 and the low-density polyethylene film layer 12 so that the high-density polyethylene film layer 10 is on the outside. The outer layer 14 is a high density polyethylene film layer 10 and a low density polyethylene film layer 1.
It can be obtained by coextruding 2.

The high-density polyethylene film layer 10 is made of high-molecular-weight high-density polyethylene having a density of 0.935 g / cm ³ or more and a melt flow rate (hereinafter referred to as MFR) of 0.1 g / 10 minutes or less. Preferably. The low-density polyethylene film layer 12 is preferably made of low-density polyethylene having a density of 0.930 g / cm ³ or less and an MFR of 0.8 g / 10 minutes or less.

Further, the high density polyethylene film layer 1
Low density polyethylene film layer 12 for a thickness of 0
The thickness is preferably 1 to 9 times that thickness. The first internal film 16 and the second internal film 18 are each composed of a low density polyethylene film, and this low density polyethylene has a density of 0.930 g / cm ³ or less, more preferably 0.914 to 0.925 g. / cm ³ is preferable, and MFR is 0.8 g / 10 minutes or less, more preferably 0.2-
0.6 g / 10 min is preferable, and the thickness is preferably 30-80 μm. This is because if the density of the low-density polyethylene of the inner layer 17 is higher than 0.930 g / cm ³ , the flexibility tends to be poor and the sealing strength will also decrease. On the other hand, if it is less than 0.914 g / cm ³ , the film will be blocked and the secondary processability such as bag making tends to be poor.

The inner layer 17 of low density polyethylene M
This is because if the FR is greater than 0.8 g / 10 minutes, the heat seal strength and impact strength are likely to decrease, and if the MFR is less than 0.2 g / 10 minutes, the film processability tends to be poor.
The low density polyethylene film used for the inner films 16 and 18 may be either linear polyethylene or branched polyethylene, but linear low density polyethylene is more preferable.

The inner film may be a multi-layer film as shown in FIG. 2 in addition to the low-density polyethylene film single layer film as described above. The inner layer 38 shown in FIG. 2 is composed of the first inner film 28 and the second inner film 36. Furthermore, the first
The inner film 28 is a high density polyethylene film 22.
And low density polyethylene films 24 and 26 sandwiching the high density polyethylene film 22 therebetween. Similarly, the second inner film 36 includes the high-density polyethylene film 30 and the low-density polyethylene films 32 and 34 sandwiching the high-density polyethylene film 30.
It is formed by.

Thus, if the inner film is formed to have at least a low density polyethylene film,
It may be a multi-layer film having two layers or three layers or more instead of a single layer film. The inner film composed of such a multilayer film is obtained by co-extruding low density polyethylene and high density polyethylene.

Even when the inner film is a multi-layer film, the low-density polyethylene films 24, 26 of the inner films 28, 36 are the same as the single-layer film.
32 and 34 have a density of 0.930 g / cm ³ or less, more preferably 0.914 to 0.925 g / cm ³ ,
The MFR is 0.8 g / 10 minutes or less, more preferably 0.2 to
0.6g / 10min is good.

In addition, the high-density polyethylene film 22,
30 is preferably made of high-density polyethylene having a density of 0.935 g / cm ³ or more and a melt flow rate (MFR) of 0.1 g / 10 minutes or less. Also, the thickness of the inner film 28 (low density polyethylene film 24, 26+
High density polyethylene film 22) is 30-80 μm
Things are good.

When there are a plurality of internal films constituting the inner layer, both a single layer film and a multilayer film can be used. For example, as shown in FIG. 3, a high density polyethylene film 22 and a low density polyethylene film 2
The inner layer 40 can be composed of the first inner film 28 which is a three-layer film composed of 4, 26 and the second inner film 18 which is a single layer film of a low density polyethylene film.

Further, for example, as shown in FIG. 4, a first inner film 16 which is a single-layer film of a low-density polyethylene film, and a second two-layer film which is composed of a high-density polyethylene film 42 and a low-density polyethylene film 44. The inner layer 46 and the inner layer 48 can also constitute the inner layer 48.

Furthermore, in the above embodiment, the inner layer is composed of two inner films, the first inner film and the second inner film, but the inner layer is one inner film or 3
It can also be composed of more than one internal film. However, at this time, the inner layer is a plurality of thin inner films (2 to 3)
It is preferable to use them in combination because they can enhance the sealing strength and flexibility. For example, 3 sheets with a thickness of 30 μm
When the inner film of (1) is laminated, the sealing strength and flexibility are higher than that of one inner film having a thickness of 90 μm, which is excellent as a bag.

In the present embodiment, since the whole is composed only of the polyethylene film, even if the content liquid is a dairy product, it conforms to the Ministry of Health and Welfare ministerial ordinance. In addition, according to the constitution of this embodiment, the low density polyethylene and the high density polyethylene can be made into a product without containing additives such as an antioxidant and a slip agent, which is excellent in hygiene.

Further, since a high-strength high-density polyethylene film is used on the outer side of the outer layer 14, the yield strength is large, the elongation is small, and the seal portion can be maintained with high strength.

The polyethylene bag of this embodiment is heat-sealed and integrated in the heat-sealing portion 20 (see FIG. 1). To perform heat sealing, the outer layer 14 and the inner layer 17 are superposed, a heat seal bar is brought into contact with the outside of the outer layer 14, and thermocompression bonding is performed. At this time, heat applied from the heat seal bar is applied from the surface of the outer layer 14 to the high-density polyethylene film layer 10, the low-density polyethylene film layer 12, the first inner film 16, and the second inner film 1.
The polyethylene is melted and integrated into a bag shape as a whole.

At this time, the heat transferred to each polyethylene layer is transferred to each polyethylene layer with a time lag. That is, by the time the heat reaches the innermost second inner film 18, the high-density polyethylene layer 10 that is in direct contact with the heat seal bar has already been heated for a long time, and the outer layer 14 and the inner layer 17 respectively. The amount of heat applied to the layer is not constant. Therefore, if all polyethylene films are made of the same properties, the outer polyethylene film, which has been heated early, is melted before sufficient heat is applied to the inner polyethylene film. As a result, a defective product is manufactured without maintaining its shape. However, in the polyethylene bag of the present invention, since high density polyethylene having relatively high heat resistance is used on the outer side and low density polyethylene which is easily melted by heat is used on the inner side, even if it is heated from the outer side of the outer layer 14, it is uniform. It becomes possible to manufacture a non-defective product in a short time while maintaining its shape by heat-melting.

[Test Example] Several types of polyethylene bags were prepared using various polyethylenes, and their heat-sealing strength, flexibility, pinhole resistance, and drop strength were tested. Table 1 shows the configuration and test results of each polyethylene bag.
Shown in a few.

[0036]

[Table 1]

[0037]

[Table 2]

[0038]

[Table 3]

In Tables 1 and 2, HD-1 to 3 represent high-density polyethylene, LD-1 to 5 represent low-density polyethylene, and their densities and MFRs are shown in Table 4. Also,
Table 2 shows various polyethylene bags having an inner film that is a three-layer film. The thicknesses of the low-density polyethylene film, the high-density polyethylene film, and the low-density polyethylene film that form each of the three-layer films are shown. The ratio of the heights is 1: 1: 1.

[0040]

[Table 4] However, LD-4 is linear low density polyethylene copolymerized with butene-1 comonomer, and LD-5 is linear low density polyethylene copolymerized with hexene-1 comonomer.

The heat seal strength test is conducted in accordance with JIS (Japanese Industrial Standard)-"Testing method for sealed flexible packaging bag" (Z0238).
The width of the test piece was 15.0 ± 0.1m.
m, the development length is 100 mm or more, and the relative movement speed between the grips is 300 mm / min. The unit is (g / 15mm width). The flexibility test is compared with a case where a single-layer film made of low-density polyethylene having a thickness of 200 μm is folded,
The one that was judged to be more flexible than this by touch was evaluated as ◯, and the one that was judged to be harder than the single-layer film made of low-density polyethylene having a thickness of 300 μm was evaluated as x, and neither The thing was designated as △. The pinhole resistance test was carried out according to a bending test (gel votester).
In the drop test, 5 samples were prepared for each sample having each constitution, and each sample was dropped three times three times from a height of 60 cm onto a rigid plate, and the state of damage was observed. A sample having a structure in which no damage was observed even if all 5 samples were dropped three times was marked with “◯”, and samples with damage were 1 to
Four samples were marked with Δ, and samples in which all five samples were damaged were marked with x.

From the test results shown in Table 1, Sample 10, which is a bag having no outer layer and only one low-density polyethylene film, has heat seal, flexibility, pinhole resistance, and
It can be seen that all the drop strengths are inferior and cannot be used. In addition, Sample 11 which has an outer layer but does not have an inner layer is inferior in heat seal, flexibility, pinhole resistance, and drop strength, and cannot be used. Sample 1 corresponding to the present invention
It is apparent that all of Nos. 6 to 6 have high heat sealing strength, excellent flexibility, high pinhole resistance, and high drop strength. Sample 7 has a structure having an outer layer and an inner layer, but the thickness of the low-density polyethylene film layer of the outer layer is smaller than that of the high-density polyethylene film layer, and the MFR of the first inner film is as large as 2.0. Moreover, the thickness is as thin as 20 μm, and the second inner film is 10
Since it is as thick as 0 μm, heat seal strength, flexibility, pinhole resistance, and drop strength are deteriorated. Sample 8 has a high MFR of the outer high-density polyethylene film layer of 0.8 and a large MFR of the low-density polyethylene layer and the first inner film of 2.0. , Heat seal strength,
The pinhole resistance and drop strength have deteriorated. In Sample 9, the outer low-density polyethylene film layer is thinner than the high-density polyethylene film layer, the first inner film has a large thickness of 120 μm, and the MFR thereof is as large as 2.0. The flexibility, pinhole resistance, and drop strength have all deteriorated.

From the test results shown in Tables 2 and 3, all of Samples 12 to 17 corresponding to the present invention have high heat seal strength, excellent flexibility, high pinhole resistance and high drop strength. It is clear that it is excellent. Sample 18 had a structure having an outer layer and an inner layer, but the thickness of the low-density polyethylene film layer of the outer layer was smaller than that of the high-density polyethylene film layer, and was used for the first inner film and the second inner film. The low density polyethylene (LD-2) has a large MFR of 2.0, the first inner film has a thin thickness of 20 μm, and the second inner film has a large thickness of 100 μm.
Both the pinhole resistance and the drop strength have deteriorated. Sample 19 had a high MFR of the outer high density polyethylene film layer (HD-2) of 0.8, and was used for the low density polyethylene layer (LD-2) and the first inner film and the second inner film. Since the low density polyethylene (LD-2) has a large MFR of 2.0, the flexibility is excellent, but the heat seal strength, pinhole resistance, and drop strength are deteriorated. Sample 20 had a low-density polyethylene film layer as an outer layer thinner than the high-density polyethylene film layer, the first inner film had a thickness of 120 μm, and the low-density polyethylene film (LD) used for the first inner film (LD -2)
Has a high MFR of 2.0, the heat seal strength is
The flexibility, pinhole resistance, and drop strength have all deteriorated.

[0044]

The polyethylene bag of the present invention comprises an outer layer composed of a high-density polyethylene film layer and a low-density polyethylene film layer, and an inner layer composed of an inner film having at least a low-density polyethylene film. With this unique structure, the bag is made of polyethylene that meets the Ordinance of the Ministry of Milk, etc., but also has high heat-sealing strength and excellent flexibility, pinhole resistance, and strength. Is realized.

In particular, by specifying the respective densities, melt flow rates, and thicknesses of the high-density polyethylene film layer and the low-density polyethylene film layer of the outer layer as described above, the thickness of the inner film constituting the inner layer is also specified. By specifying the heat seal strength,
The properties such as flexibility, pinhole resistance, and strength are further enhanced.

Therefore, according to the polyethylene bag of the present invention, various liquids, especially dairy products, can be safely put in. Moreover, it is particularly suitable as an interior part of a bag-in-box because it has excellent heat-sealing strength and flexibility. Therefore, the present invention greatly contributes to the popularization of bag-in-box, which is light in weight, takes up little space, and is easy to process.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part of a polyethylene bag according to an embodiment of the present invention.

FIG. 2 is a partially enlarged cross-sectional view of another embodiment.

FIG. 3 is a partially enlarged cross-sectional view of another embodiment.

FIG. 4 is a partially enlarged cross-sectional view of another embodiment.

[Explanation of symbols]

 10 High Density Polyethylene Film Layer 12 Low Density Polyethylene Film Layer 14 Outer Layer 16 First Inner Film 17 Inner Layer 18 Second Inner Film 20 Heat Seal Part 22 High Density Polyethylene Film 24 Low Density Polyethylene Film 26 Low Density Polyethylene Film 28 First Inner Film 30 high-density polyethylene film 32 low-density polyethylene film 34 low-density polyethylene film 36 second inner film 38 inner layer 40 inner layer 42 high-density polyethylene film 44 low-density polyethylene film 48 inner layer

Claims (8)

[Claims] 1. An outer layer composed of a high-density polyethylene film layer and a low-density polyethylene film layer formed inside the high-density polyethylene film layer, and an inner layer having at least a low-density polyethylene film. A polyethylene bag comprising a film and an inner layer provided inside the outer layer. 2. The polyethylene bag according to claim 1, wherein the inner layer is composed of a plurality of inner films. 3. The polyethylene bag according to claim 1 or 2, wherein the outer layer of the high-density polyethylene film layer has a density of 0.935 g / cm ³ or more, and the low-density polyethylene film layer has a density of 0.930 g / cm ^3. A polyethylene bag characterized by being ³ or less. 4. The polyethylene bag according to claim 1 or 2, wherein the outer layer of the high density polyethylene film has a melt flow rate of 0.1 g / 10 minutes or less and the low density polyethylene film has a melt flow rate of 0.8 g. / 10 minutes or less polyethylene bag. 5. The polyethylene bag according to claim 1 or 2, wherein each inner film constituting the inner layer has a thickness of 3
A polyethylene bag having a thickness of 0 to 80 μm. 6. The polyethylene bag according to claim 1 or 2, wherein the outer layer has a thickness of 60 to 150 μm. 7. The polyethylene bag according to claim 1, wherein the thickness of the low-density polyethylene film layer is 1 relative to the thickness of the outer-layer high-density polyethylene film layer.
Polyethylene bag characterized by being ~ 9 times. 8. The polyethylene bag according to claim 1 or 2, wherein at least one inner film is a multilayer film obtained by coextrusion of low density polyethylene and high density polyethylene.