JP2616340B2 - Standing pouch - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a standing pouch containing an article to be packaged. More specifically, the present invention relates to a refillable detergent standing pouch which has excellent impact resistance and environmental stress cracking resistance, has good storage stability, does not recede at the bottom and body seals during the distribution process, has good openability, and has good rigidity.

[0002]

2. Description of the Related Art In recent years, attempts have been made to reuse containers in order to save resources. In the case of detergents, refilling detergents are supplied in simpler packaging for such container reuse.

[0003]

The standing pouch requires various performances, one of which is easy opening. Usually, the standing pouch is manufactured by aligning the film along the direction of the folding flow. However, when the biaxially stretched film is folded and the opening of the pouch that has been heat-sealed around it is torn, a gap occurs in the tearing direction,
Good openings are often not obtained and packages often spill. The cause has not been completely elucidated. Next, there is the problem of environmental stress cracking during storage. In particular, standing pouches for refilling detergents require some important performance.

One of them is impact resistance. Breaking of the package due to an impact such as dropping during handling during the distribution process or the like is a very serious problem since the contained detergent flows out.

[0005] Environmental stress cracking resistance is also important, and a pouch containing a detergent is subjected to stress cracking when exposed to high temperatures over time, particularly in summer, and the package is broken.

[0006] In particular, a standing pouch is subjected to a load on a seal portion between a bottom portion and a body portion during storage and distribution, so that the seal portion retreats. Such retreat of the seal portion is a peculiar phenomenon that occurs only when a liquid detergent is incorporated, and particularly occurs at a high temperature in summer. Although it does not occur with anything other than the detergent, such as water, the present inventor believes that the detergent affects the seal portion of the innermost film. When the seals at the bottom and the body are receded and the sealing area is reduced, the impact strength is reduced and the danger of the package being broken during handling is great. Such performance is particularly problematic because the refill package is not directly used as a detergent container, but is simpler than a detergent container in view of the disposal process after refilling. In addition, easy opening property is strongly required. The inventor of the present invention has applied for an invention which has solved these problems before conducting research to solve such problems . This is Japanese Patent Application No. 3-
No. 360997. The present invention is a further improvement of the present invention, which has succeeded in almost completely preventing the retraction of the bottom seal. In addition, the bag was required to have an appropriate rigidity due to the workability at the time of filling the detergent and the handleability at the time of distribution and refilling, thereby solving this problem. High-density polyethylene film is laminated as the bottom film, so the rigidity is good.Standing characteristics and rigidity are further improved by using the film body with linear low-density polyethylene and high-density polyethylene co-pressed. This is one of the features of the invention.

[0007]

Means for Solving the Problems The present invention provides: (1) (A) (a) linear low-density polyethylene and ethylene
Of butene-1 copolymer and low density polyethylene
The film made of de was the innermost layer in contact with the packaged articles, (b) the ratio MD / TD in the direction of orientation TD intersecting the orientation MD and the direction of flow of the flow direction of the infrared two-color method 2 the in is oriented polyolefin film or an intermediate layer, 1 is the ratio MD / TD in the direction of orientation TD intersecting the orientation MD and the direction of flow of the flow direction by (c) infrared two-color method.
The outermost biaxially stretched nylon film of 2-2.5
And (B) a low-density polyethylene and ethylene butene-1 which are fused and disposed at the lower end of the body.
The blend film containing a copolymer as the innermost layer, (e) biaxially oriented nylon film to be packaged and a bottom portion formed with laminated film, a bag-like packaging container formed by a laminate was City outermost A standing pouch comprising a heat-sealed opening. 2. (A) (a) Linear low density polyethylene and ethylene
Blend of butene-1 copolymer and low density polyethylene
The innermost layer that comes into contact with the packaged item,
(B) Orientation degree MD and flow direction in the flow direction by infrared two-color method
The ratio MD / TD to the orientation TD in the direction crossing the direction is 2 or more.
The upper stretched polyolefin film is used as the intermediate layer,
(C) Orientation degree MD and flow direction in the flow direction by infrared two-color method
The ratio MD / TD to the orientation TD in the direction crossing the direction is 1.
The outermost biaxially stretched nylon film of 2-2.5
A torso formed of a laminated film as a layer, and (B) a torso
(D) Linear low-density polyethylene fused to the lower end
Linear extrusion of coextruded film of
(E) Biaxially rolled high density polyethylene film as the innermost layer
Laminated film made of laminated nylon film with the outermost layer
Bag-shaped packaging container formed by
Stowed by enclosing the object to be packaged and heat sealing the opening
Ending pouch. 3. The film (a) in the innermost layer of the body is composed of linear low-density polyethylene, ethylene-butene-1 copolymer, and low-density polyethylene.
A coextrusion film of the blend and the high density polyethylene of styrene, item 1 or a standing pouch as described in the item 2. 4 . The film (a) in the innermost layer of the body is composed of linear low-density polyethylene , ethylene-butene-1 copolymer, and low-density polyethylene.
3. The standing pouch according to paragraph 1 or 2, which is a co-extruded film in which one layer of high-density polyethylene is disposed between two layers of a blend with styrene . 5 . The film (b) of the body middle layer has an ethylene content of 2
Weight% or less of polypropylene and a density of 0.945 g /
cm which is ³ or more high-density polyethylene and color selection Barre polio <br/> les fins film, 1 either no counts 1 to 4 wherein
Standing pouch described in section. 6 . The film (b) of the body middle layer has an ethylene content of 2
Weight% or less of polypropylene and a density of 0.945 g /
I from a blend of cm ³ or more high-density polyethylene
5. The standing pouch according to any one of items 1 to 4, wherein the standing pouch is a blend film having a polypropylene content of 80% by weight or more . 7 . The film (c) in the outermost layer of the body has an orientation coefficient of 0.1 ≦ 1 ≦ 0.9, 0 ≦ m ≦ 0.4, 0 by the fluorescent orientation method.
7. The standing pouch according to any one of items 1 to 6 , wherein the film satisfies ≦ n ≦ 0.9. <8 . The film (d) in the bottom innermost layer is a blend of linear low-density polyethylene, ethylene-butene-1 copolymer and low-density polyethylene, as described in any one of items 1 , 3 to 7 above. Standing pouch. 9 . Blend wherein the film (d) of the bottom innermost layer contains linear low density polyethylene and ethylene-butene-1 copolymer
And de thereof, is co-extruded film of high density polyethylene, a standing pouch according to any one of item 2 to item 7. 10. 2. The standing pouch according to claim 1, wherein the article to be packaged is a refillable liquid detergent. About.

[0008]

The operation of the present invention will be described, but the following description will be made by taking a refilling detergent standing pouch which requires the most severe performance as a representative. Important properties for a refillable detergent standing pouch include ease of refilling, storage stability, and handleability.

First, the problem of ease of refilling will be described.
A bag formed by heat-sealing a film is the most common package, and a biaxially stretched film is used for reasons of strength. However, when the biaxially stretched film is folded and heat-sealed, when the film is torn for tearing, a deviation occurs in the tearing direction of the two stacked films, and a good opening cannot be formed. This problem cannot be solved theoretically. In other words, it is thought that the degree of biaxial stretching of the biaxially stretched film is different between the end and the center in the width direction. The displacement of the film in the tearing direction may be small. However, even in this case, there is still a lack of scientific elucidation of the cause, such as a shift in the tearing direction when tearing from the opposite side.

Next, the storage stability will be described. The package causes stress cracking due to the storage environment,
The packaging is easy to tear. It is necessary to increase environmental stress cracking resistance.

Next, it is necessary to increase the impact resistance. If the package is torn during handling and the package is broken, the surroundings will be contaminated, which is a serious problem. Also, for detergents, the surface in contact with the detergent must be inert to the detergent. Therefore, in the present invention, a package is formed using a laminated film described below.

The surface of both the body and the bottom that contacts the innermost liquid detergent is made of linear low-density polyethylene (hereinafter referred to as LLDPE).
Must be included . In the innermost film at the trunk and bottom , LLDPE is sticky, has less propagation of breakage and improves impact resistance. High density polyethylene (below
The lower HDPE improves rigidity, but has a disadvantage that the liquid detergent has a large environmental stress cracking property. Therefore , it is arranged so as not to come into contact with the detergent. In addition, ethylene-butene-1 copolymer (hereinafter referred to as Et-Bu)
) Is environmental stress cracking resistance (hereinafter referred to as ESC)
) And the effect of imparting the container opening property (easy tearing property), but the heat resistance is inferior, so if this amount is large, the stability of the seal tends to deteriorate in high temperature areas such as summer and tropical regions. . A special effect is achieved by using Et-Bu at least for the innermost layer of the trunk . Although the innermost surface of the innermost layer and the body film of the bottom film is being thermally fused, Et in the innermost surface of the at least when the barrel film
When -Bu is present, the retreat of the seal can be prevented well.
The presence on both the body and the bottom is optimal for preventing the seal from retreating.

More specifically, the innermost layer of the trunk portion has L
LDPE, Et-Bu and low density polyethylene (hereinafter LD)
Placing the ternary blend film of) that PE. The composition of this blend has an LLDPE of 10-80.
% By weight, preferably 20 to 60% by weight, and LDPE is 10 to 10% by weight.
50% by weight, Et-Bu is 10 to 40% by weight. The melt index of LLDPE is 1.0 to 7.0.
g / 10 min, LDPE is 0.5~0,7 g / 10 min, E
t-Bu is 1.0 to 7.0 g / 10 minutes . The specific gravity of LLDPE is 0.900 to 0.940 g / cm ³ , L
DPE is 0.917 to 0.930 g / cm ³ , Et-B
butene-1 content of u is 5.0 to 30 wt%. The melt index of the blend is 1.0 to 7.0.
g / 10 minutes .

When using a co-extruded film ,
LLDPE, Et-Bu and LDPE as innermost layers
The component blend and HDPE are co-extruded to provide the blend layer with the detergent contacting surface. This co-extruded film is
A co-extruded film composed of a blend layer and an HDPE layer may be used, or a co-extruded film in which HDPE is disposed between two layers of the blend layer . The number of layers may be further increased, but the surface in contact with the detergent must be a blend layer . This is because ESC deteriorates when HDPE comes into contact with a detergent. In the case of a co-extruded film in which HDPE is disposed between two layers of the blend, the thickness of both layers of the blend may be the same, and the thickness of the layer in contact with the detergent may be increased. If the layer in contact with the detergent has a thickness of 20μ or more, ES
C becomes good.

When a co-extruded film of the blend and HDPE is formed , the rigidity is increased and the posture maintaining property is improved, so that the refilling of the consumer becomes easy and the handling at the store becomes more convenient. Further, the filling of the detergent into the refilling standing pouch was facilitated, and the workability was improved. When the HDPE layer has a thickness of 20 μm or less, the rigidity is not sufficiently improved. What is important here is that HDPE exists as a coextruded film. When co-extruded, the performance of the HDPE and the performance of the blend are each maintained and a unique effect is achieved. And melt index , LLDPE is 1.0-7.0 g
/ 10 minutes, HDPE is 0.5~7.0 g / 10 min, Et
-Bu is 1.0 to 7.0 g / 10 min . The specific gravity of LLDPE is 0.900 to 0.940 g / cm ³ ,
HDPE is 0.917 to 0.930 g / cm ³ , Et-
The butene-1 content of Bu is 5.0 to 30% by weight.

The middle layer of the body is made of polypropylene having an ethylene content of 2.0% by weight or less or a density of 0.945 g / c.
m ³ or more HDPE or split of the Poripiropiren
Of 80% by weight or more of polypropylene and HDPE
Of consists blend a stretched film was stretched strongly in the flow direction MD of the film, orientation ratio according to the infrared two-color method MD / TD ≧ 2.0 (MD: Flow direction, TD: width direction) breaking strength A film having a ratio MD / TD ≧ 2.0 is arranged.

The outermost layer of the body has an orientation coefficient determined by a fluorescence orientation method of 0.1 ≦ 1 ≦ 0.90, 0 ≦ m ≦ 0.40, 0 ≦
n ≦ 0.90, and the orientation ratio MD /
A nylon film having a TD of 1.2 to 2.5 and close to the flow direction of the biaxially stretched orientation is arranged. Since the nylon film has good impact resistance, the standing pouch has good impact resistance.

Since the polyolefin of the body intermediate layer has a specific orientation ratio and a breaking strength ratio in which stretching in one direction is large, it has an effect of preventing a deviation in a tearing direction and provides easy opening property.

The nylon film of the outermost layer of the body is a film whose biaxially stretched orientation is close to the flow direction of the film, and has a specific orientation coefficient and orientation ratio. The deviation from tearing is very small. However, the academic reasons why the tearing shift is so small are not always clear.

The bottom innermost layer is LLDPE, Et-Bu and L
Consists of a ternary blend with DPE, the proportion of each component
Is LLDPE of 20 to 80% by weight, preferably 30 to 70% by weight.
% By weight , LDPE is 10 to 30% by weight , Et-B
u is 10 to 40% by weight, preferably 20 to 30% by weight , the amount of LLDPE is larger than that of the film of the body, and LD
Preferably , the amount of PE is small.

The presence of Et-Bu not only improves the environmental stress cracking resistance, but also stabilizes the heat-sealed portions of the body film and the bottom film and prevents them from retreating. The pouches packed with detergent are transported, preserved, and displayed at stores, all standing upright. The bottom and torso seals are constantly loaded with detergent. In this situation, when the temperature rises in summer, the seal retreats significantly. A pouch using the film of the present invention as a bottom material has good self-sustainability and does not have retraction of the seal.

LL is used as the bottom innermost film (d).
Coextruded films of DPE and HDPE are also used. This co-extruded film is characterized by high rigidity and has a good bottom shape. The bottom outermost layer is a biaxially stretched nylon film, but the same nylon film as that of the body may be used.

All the layers of the laminated film forming the body part are combined to produce an effect.
A thickness of 150μ is preferred, and if this layer is a thin layer of 50μ or less, ESC is reduced. (B) The film layer having a thickness of 15 to 30 μm shows a good opening property. (C) The film layer having a thickness of 15 μm to 25 μm exhibits excellent drop strength. The laminated film forming the bottom portion (d) preferably has a thickness of 100 to 150 μm, and this range shows the seal retreat resistance and the ESC. (E) The film layer is 15 to 2
A thickness of 5 μ provides good drop strength.

The standing pouch of the present invention is disclosed in
Japanese Patent Publication Nos. 40-9704 and 50-67010
And the like. This pouch is one
It can also be manufactured by folding two films.
It can also be manufactured by combining films. When the bottom film is heat-sealed so that the sealing portion is formed in an arc shape, the opening is improved. Although the refill detergent has been described as an example of a packaged product, any product such as food can be packaged. In addition, it can be used not only as a standing pouch for refilling but also as a normal standing pouch for packaging.

[0025]

EXAMPLE 1 Laminated film forming body part (a) Film: LLDPE 30% by weight, LDPE 40
Wt-%, Et-Bu (Tuffmer A # 4 manufactured by Mitsui Petrochemical Company)
085) Thickness 130 made of 30 wt% blend
(b) film: a uniaxially stretched homopolypropylene film having a thickness of 20 μm and having an orientation ratio MD / TD of 3.0 by an infrared two-color method. (c) film: biaxially stretched. It is a nylon film having a thickness of 15 μm and having an orientation coefficient of 1 = 0.
3, films having m = 0.1 and n = 0.6 and having an orientation ratio MD / TD of 1.6 by an infrared two-color method are laminated to form a film for a trunk. Laminated film forming bottom part (d) Film: LLDPE 30% by weight, LDPE 40
Wt-%, Et-Bu (Tuffmer A # 4 manufactured by Mitsui Petrochemical Company)
085) Thickness 150 made with 30% by weight blend
μ film (e) A laminated film for forming a trunk portion of a laminated film obtained by laminating a biaxially stretched nylon film is folded in the width direction with the (a) layer as the innermost layer, and is folded in the width direction at the end opening in the width direction. The laminated film for forming the bottom is sandwiched with the opening direction being the same, and the bottom peripheral edge and the trunk peripheral edge are sheet-sealed so that the vertical
A standing pouch having a size of 0 mm, a width of 120 mm and a bottom portion of 33 mm was formed. This pouch was filled with 500 g of a liquid detergent (more manufactured by Kao Corporation) and sealed.

Examples 2 to 8 The blend compositions of the films of the innermost layer of the body and the innermost layer of the bottom are as shown in Table 1. The configuration of the laminated film forming the body is the same as in Example 1. The configuration of the laminated film constituting the bottom is the same as in Example 1.

Example 9 The blend composition of the film of the innermost layer of the body and the innermost layer of the bottom is as shown in Table 1. The configuration of the laminated film forming the body is the same as in Example 1. The configuration of the laminated film forming the bottom portion is as follows: (d) Innermost layer film: a 130 μm thick blend film. Intermediate layer film: polypropylene 20 μm thick film. (E) Outermost layer film: Nylon film having a thickness of 15 μm.

Example 10 The blend composition of the film of the innermost layer of the body and the innermost layer of the bottom is as shown in Table 1. The configuration of the laminated film forming the body is the same as in Example 1. The configuration of the laminated film forming the bottom portion is as follows: (d) Innermost layer film: a 130 μm thick blend film. Intermediate layer film: polypropylene 20 μm thick film. (E) Outermost layer film: Nylon film having a thickness of 15 μm.

Example 11 The blend composition of the innermost layer of the body is as shown in Table 1. The configuration of the laminated film forming the body is the same as in Example 1. The film forming the bottom innermost layer is LLDPE 30 μm.
m , HDPE 40 μm , LLDPE 30 μm . The laminated film forming the bottom is: (d) the innermost film: the extruded film having a thickness of 1
50μ. (E) Outermost film: The same nylon film as in Example 1.

EXAMPLE 12 The innermost body and bottom innermost films were the same coextruded films as the innermost bottom layer of Example 11. The laminated film forming the body is: (a) the innermost layer film: a 120 μ coextruded film; (b) the film: the same film as in Example 1; and (c) the outermost layer film: the same laminated film as in Example 1. The laminated film forming the bottom is the same laminated film as in Example 11. Comparative test

[0031] examined the front and back of the deviation of the test 1 unsealing performance test port portion easily and bags a small cut in the ends of the sealing portion input is by manually tearing tearing in the width direction of the. Table 1 shows the results. In the table, ○ indicates that tearing was easy and there was no deviation between the front and back, Δ indicates that tearing was easy but slight deviation was observed, and X indicates that tearing was difficult and there was deviation.

Test 2 Seal Retreat Test The seal was retracted after storage at 65 ° C. for 3 days. ○ indicates retraction of 0 to 1 mm, and △ indicates retraction of 2 to 4 mm. X: Leakage occurred by receding by 5 mm or more.

Test 3 Environmental stress cracking test (E
SC) It was stored at a temperature of 65 ° C. for 3 days and the occurrence of cracks was examined. In the table, x indicates leakage.

Test 4 Impact Test In each example, 50 bags of pouches were dropped vertically from a height of 1.2 m onto a concrete surface, and tearing was performed after 10 times. Table 1 shows the test results. The numbers in the table are the number of pouches that have broken.

[0035]

[Table 1]

(Note) Opening property: The opening force is small, and the gap between the front and back of the pouch is small. Seal receding property: Seal receding amount ：: 0 to 1 mm, Δ: 2
4 mm, ×: 5 mm or more Drop strength: Number of torn bags (Evaluation) When the amount of LLDPE in the (a) film of the innermost layer of the body and bottom laminated films is 20% or less, ESC deteriorates. (A) If Et-Bu is not present in the film, the seal retreat becomes large. Further, the drop strength also deteriorates.

[0037]

The refillable detergent pouch of the present invention is a good pouch having high impact strength, high environmental stress cracking resistance, excellent openability, and little retreat of the seal, and is very excellent for refilling. I have.

Claims (10)

(57) [Claims] (A) (a) a linear low-density polyethylene ;
Of ethylene-butene-1 copolymer and low-density polyethylene
The film consists of a blend was the innermost layer in contact with the packaged articles, (b) the ratio MD / TD in the direction of orientation TD intersecting the orientation MD and the direction of flow of the flow direction of the infrared two-color method 2 the in is oriented polyolefin film or an intermediate layer, 1 is the ratio MD / TD in the direction of orientation TD intersecting the orientation MD and the direction of flow of the flow direction by (c) infrared two-color method.
The outermost biaxially stretched nylon film of 2-2.5
And a layer, and the body formed by laminating a film, (B) and disposed fused to the body portion lower end, (d) linear low density polyethylene and ethylene - butene-1
The blend film containing a copolymer as the innermost layer, (e) biaxially oriented nylon film to be packaged and a bottom portion formed with laminated film, a bag-like packaging container formed by a laminate was City outermost A standing pouch comprising a heat-sealed opening. (A) (a) a linear low-density polyethylene;
Of ethylene-butene-1 copolymer and low-density polyethylene
When the film consisting of the blend comes into contact with the package
(B) The degree of orientation MD in the flow direction by the infrared two-color method
Ratio MD / T of the degree of orientation TD in the direction crossing the flow direction
A stretched polyolefin film having a D of 2 or more as an intermediate layer
And (c) the degree of orientation MD in the flow direction according to the infrared two-color method and
Ratio MD / TD with orientation degree TD in the direction crossing the flow direction
Is 1.2 to 2.5, a biaxially stretched nylon film
And (B) a low-density linear member, which is provided by fusing at the lower end of the body portion.
Coextrusion film of polyethylene and high density polyethylene
The film's linear low-density polyethylene film is the innermost layer,
(E) Lamination with biaxially stretched nylon film as outermost layer
And a bottom portion formed of a laminated film formed in the bag-like packaging container formed by
Standing pouch with heat sealed parts. 3. The film (a) of the innermost layer of the body is made of a linear low-density polyethylene and ethylene-butene-1 copolymer and has a low density.
A <br/> coextrusion film of the blend and the high-density polyethylene in degrees polyethylene, standing pouch according to claim 1 or 2. 4. The film (a) of the innermost layer of the body is made of a linear low-density polyethylene and ethylene-butene-1 copolymer and has a low density.
The standing pouch according to claim 1 or 2, which is a co-extruded film in which one layer of high-density polyethylene is disposed between two layers made of a blend with polyethylene. 5. The film (b) of the body middle layer is made of a polypropylene having an ethylene content of 2% by weight or less, and a density of 0.9%.
45 g / cm ³ or more high-density polyethylene and color selection Barre
The standing pouch according to any one of claims 1 to 4 , wherein the standing pouch is a polyolefin film. 6. The film (b) of the body middle layer is made of a polypropylene having an ethylene content of 2% by weight or less and a density of 0.9%.
Blend with high density polyethylene of 45 g / cm ³ or more
The standing pouch according to any one of claims 1 to 4 , wherein the standing pouch is a blend film having a polypropylene content of 80% by weight or more . 7. The film (c) of the outermost layer of the body has an orientation coefficient determined by a fluorescence orientation method of 0.1 ≦ 1 ≦ 0.9, 0 ≦ m ≦.
The standing pouch according to any one of claims 1 to 6 , wherein the film is 0.4, 0≤n≤0.9. 8. The bottom innermost layer of (d) film is linear low density polyethylene and ethylene - a blend of a butene-1 copolymer and low density polyethylene, a claim 1, 3
The standing pouch according to any one of the chairs 7 . 9. The film (d) in the bottom innermost layer contains a linear low-density polyethylene and an ethylene-butene-1 copolymer.
And no blend, a co-extruded film of high density polyethylene, a standing pouch according to any one of claims 2 to 7. 10. A standing pouch according to any one of claims 1 is a liquid detergent for the packaged articles can refill 9.