JPH0952299A - Paper container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a paper container of such a material quality that the high operation efficiency and the airtight sealing properties can be stably ensured, without adversely affecting the taste of the content, in a container for wrapping merchandise which values the taste of the content such as mineral water, roasted barley tea, cooling tea, juice and SAKE. SOLUTION: This paper container is formed of a laminate consisting of 3-layer film of an ethylene-α.olefin copolymer layer 10 produced by polymerization using a single site catalyst, a PE layer 9 with a density of 0.925-0.965, MI0.2-10, and a PE layer 8 with a density of 0.900-0.925, MI0.2-20, manufactured, in that order, by a coextrusion method in such a manner that the ethylene-α.olefin copolymer layer is an innermost layer, and the base material of the paper container laminated with the 3-tier film using a dry lamination method.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper container for packaging mineral water, juice, liquid seasonings or alcoholic beverages such as sake and shochu.

[0002]

2. Description of the Related Art Needless to say, as a paper container in which a liquid is a content, there must be no leakage of liquid from a sealed container. There should be no distribution. That is, airtightness is also required. In this respect, the structure where the paper container is liable to leak or lose airtightness is the joint end of the adhesive plate and the seal part, especially the center seal part of the gobel (roof) in the gobel top type container. is there. In each case,
It can be said that this is a point to be especially noted when reliably sealing the bent step portion of the material forming the container with the molten resin. In order to obtain a reliable sealing property as described above, there is a case where the heating condition is strengthened in the step of heating and press-bonding the inner surface resin, but in that case, the resin of the liquid contact layer is oxidized, Since the oxidative odor is transferred to the contents and the taste is deteriorated, it is difficult to set the sealing conditions and maintain stable operation, and it is necessary to carefully maintain the conditions. Therefore, as a material of the paper container, a material having a wide range of working conditions, particularly a material capable of obtaining hermeticity even at a low sealing temperature has been desired.

Paper containers of the Gobeltop type, brick type, etc. are formed by using various laminated bodies in order to secure the sealing property, storability, rigidity, strength, etc. of the container. General specifications are PE / paper / PE, PE / paper
There are / PE / AL / PET / PE, PE / paper / PE / SiO _x vapor deposition PET / PE, etc. LDPE and MDPE are used as PE for the sealant.
{Abbreviations, PE: polyethylene, LDPE: low-density polyethylene, MDPE: medium density polyethylene, AL: Aluminum foil, PET: polyester, SiO _x: silica}. Polyethylene (hereinafter referred to as PE) is often used as the sealant. High-pressure process low-density polyethylene (hereinafter referred to as LDPE) is most often used because of its advantages such as processability when forming a laminate and good heat-sealing properties when molding a container. is there. But LDPE
Since it contains a large amount of low molecular weight components, the taste is changed by elution of part of the low molecular weight components and conversely by adsorption of the content components. In addition, medium density polyethylene (hereinafter referred to as MDPE) is LDPE
Although the low molecular weight component is not included, it is necessary to raise the sealing temperature during box making. Sealing at high temperatures may oxidize the resin and adversely affect the taste of the contents.

[0004]

[Problems to be Solved by the Invention] Mineral water,
Provided is a paper container for emphasizing the taste of contents such as mugi tea, oolong tea, juice, and sake, which is made of a material capable of obtaining stable workability and sealing property without adversely affecting the taste.

[0005]

For the purpose of the present invention, it was possible to obtain the following paper container having good filling and sealing properties, content resistance and slip properties. The paper container is as follows. That is, an ethylene-α-olefin copolymer layer polymerized using a single-site catalyst, a density of 0.925 or more, a PE of MI0.2 to 10, a density of 0.900 to 0.925, and a MI0.2 to 20.
A three-layer film formed by the co-extrusion method in the order of PE was molded from a material laminated with the base material of the paper container by the dry lamination method such that the ethylene-α-olefin copolymer layer was the innermost layer. It is a paper container, and the present invention also includes provision of irregularities of 1 to 10 μm on the resin surface of the innermost layer.

[0006]

FIG. 1 is a sectional view of an embodiment of a laminate constituting a paper container according to the present invention. Naturally, the material of the sealant layer in contact with the content directly affects the taste of the content, and the present inventors have found that the resin has good sealing suitability and does not contain a low molecular weight component, etc. Focusing on the ethylene-α-olefin copolymer (hereinafter referred to as S-PE) polymerized using a system catalyst, we decided to use it for the liquid contact layer. The S-PE is a good sealant that does not have an offensive odor, etc. when evaluated simply as a liquid contact layer, and does not selectively absorb contents components, but is directly applied to the base material when molded into a paper container. , S-PE is laminated, the taste is slightly inferior, and it was not always possible to obtain a stable container in the sealing process. Therefore, the base material and the S-PE
It was found that by interposing a resin layer between the layers, it was easy to obtain the sealing property as a paper container, and an experiment was carried out by laminating various resins. As a result, it was found that using PE with a density of 0.925 to 0.965 and MI 0.2 to 10 was effective for improving the sealing performance.

Further, the density of 0.925 to 0.965 and MI 0.2 to 10
By stacking PE having a density of 0.900 to 0.925 and MI 0.2 to 20 on PE, the fluidity of the sealing resin in the carton molding process is improved (the sealing resin becomes easy to move),
It has been found that the hermeticity can be further improved. The above three layers can be formed into a film by coextrusion, and can be formed more stably and at a lower cost than laminating them individually. As a method for forming a three-layer coextrusion film, either T die casting or inflation may be used.

As a method of laminating the sealant layer on a substrate, a method of directly coating the sealant layer on a substrate by an extruder, or a method of sandwich laminating or dry laminating a sealant formed by another method with polyethylene Etc. In the method of directly coating the sealant layer on the base material, since the extrusion processing temperature is high, the resin forming the sealant layer is easily oxidized and the taste of the contents is apt to give offensive odor. In the case of sandwich laminating a sealant formed by another method with polyethylene, since it is a sandwich lamination by an extrusion method, the extrusion processing temperature at the time of lamination is also high, and the above-mentioned oxidation to the contents due to an odor is indirectly generated. It tends to cause odor migration problems.
In addition, a sufficient laminating strength cannot be obtained, and a peeling phenomenon may occur at the laminating interface. When the polyethylene is laminated by the dry lamination method instead of the sandwich lamination, there is no problem of the oxidative odor due to the resin extrusion processing temperature as in the above method.

As a method for laminating the obtained three-layer coextruded film, an experiment was conducted on the above-mentioned sandwich lamination and dry lamination with polyethylene. However, there was an indirect transfer of oxidative odor. With the latter method, there was no problem due to an offensive odor and stable sealing was possible. For dry lamination, the density is 0.900 to 0.
A 42 dyne (by Dow method) treatment was applied to the laminated surface of PE of 925, MI 0.2 to 20 by corona discharge.

When the surface treatment of the film by the corona discharge is performed, wrinkles are likely to be formed at the time of making the roll when the sealant film (S-PE) is smooth in the wound state of the three-layer coextrusion film. This is because the slippage between the sealant film and the corona discharge treated surface is poor, in the usual film formation, a lubricant is added, but like the contents intended in the present invention, the taste When importance is attached to the above, it is desirable not to use the above-mentioned additive, because the taste may be deteriorated by the additive.
Further, the sealant film and the corona-treated laminated surface may be wound up and may block when stored for a long period of time. If the slipperiness of the surface of S-PE is poor,
Even in the case of forming the carton, for example, attachment / detachment to / from the mandrel in the filling and packaging machine may be hindered. Therefore,
As a result of various studies, the present inventors have made it possible to form the above-mentioned 3 by forming minute unevenness on the sealant film (S-PE).
It has been found that troubles due to blocking and slippage can be prevented at the time of forming a layered film, laminating, and carton molding.

The method of providing the unevenness is not limited to a particular method. For example, in the case of film formation by the T die casting method, a chill roll having an uneven surface may be used. Regarding inflation, in the case of inflation film formation, unevenness can be formed by mixing an inorganic material such as shirasu balloon or micro silica into the resin. The measurement of the unevenness includes the following examples,
A three-dimensional surface roughness / contour shape measuring machine (manufactured by Nippon Denki Co., Ltd.) was used. In this method, the surface of an object is three-dimensionally measured by a direct contact needle method. As for the unevenness provided by the present invention, when the height difference between the convex portion and the concave portion is 1 to 10 μm, slipping as a film is good and no blocking trouble occurs in the wound state as a film. Unevenness is 1 μm
In the following, the effect is not so remarkable, and unevenness of 10 μm or more may be provided, but the effect is not changed.

[0012]

EXAMPLE An example of material composition according to the present invention and a comparative example were prepared according to the following specifications and various evaluations were made. In the examples and the comparative examples, the substrates had the same specifications, and differences due to the sealant layer and the laminating method were evaluated. That is,
The conditions are below the mark. As the resin of the liquid contact layer, the superiority of S-PE to the taste was confirmed, so the same grade S-PE was used for each of the following specifications. Shoulder numbers indicate thickness μm
(However, paper is g / m ² ). PE and PE represent coextrusion polyethylene, and PE-X represents sandwich lamination polyethylene. Base material (common) PE ³⁰ / Paper ³⁵⁰ / EMAA ²⁰ / AL ⁹ / DL / PET ¹² Example 1 PE / Paper / EMAA / AL / DL / PET DL / PE ³⁰ / S-PE ³⁰ Example 2 PE / Paper / EMAA / AL / DL / PET DL / PE ¹⁵ / PE ¹⁵ / S-PE
³⁰ (Flat) Example 3 PE / paper / EMAA / AL / DL / PET DL / PE ¹⁵ / PE ¹⁵ / S-PE
³⁰ (Concavo-convex processing of 7 μm) Comparative example 1 PE / paper / EMAA / AL / DL / PET PE-X ¹⁵ / PE ¹⁵ / S-PE ³⁰ Comparative example 2 PE / paper / EMAA / AL / DL / PET PE-X ¹⁵ / PE ¹⁵ / S-PE ³⁰ Main resin grade used in Examples and Comparative Examples. PE: Mitsubishi Chemical LC500 (MI4.0 d 0.918) PE: Mitsubishi Chemical YK30 (MI4.0 d 0.920) PE: Mitsubishi Chemical UF840 (MI1.5, d 0.930) S-PE: Dow Chemical AFFINITY PF1140 (MI1.5, d 0.8
95) PE-X: Mitsubishi Chemical YK30 (MI4.0 d 0.920)

As a result of laminating the examples and comparative examples, a wrinkle at the time of forming a three-layer coextruded film (flat) containing S-PE of the present invention and blocking at winding and a packaging machine mandrel in a carton forming process There were no specifications that were particularly problematic, except that the attachment / detachment to / from was a little bad. The obtained laminated material was punched out as a blank of a predetermined shape of a 1.8 liter Gobeltop type container, the end portion was skived and hemmed, and a sleeve was prepared by a frame sealer. Taste deterioration test Regarding taste deterioration, a carton with a capacity of 1.8 liters was formed by a packaging machine, filled with mineral water heated to 80 ° C, and stored at room temperature (20 ° C) in a cool and dark place for 1 month.
A sensory test was conducted by 15 panelists. As the filling and packaging machine, "DR-10 (trade name of DNK Co., Ltd.)" was used in both the following examples and comparative examples. As a display of sensory test results, deterioration of taste is
The number of people is shown in 3 grades: large, small, and nothing. The results are shown in Table-1.
It is on the street.

FIG. 2 is an explanatory view of a method for confirming the level of hermeticity at the top of the Gobel top container. The hermeticity depends on the hermeticity test method using a seal check solution. That is, a carton was formed from a laminate of each specification, mineral water heated to 80 ° C. was filled, and a hermetic seal was made. After 24 hours, the carton is cut horizontally at its body, the filled mineral water is discarded, the top and bottom of the carton are turned upside down, and a seal check solution is put inside to center the degree of leakage or seepage. The seal part SC and the step seal part SD were checked. The level of sealability can be determined by the level of penetration of the seal check liquid. When the seal check liquid permeates to the tip C-3 of the center seal portion SC, the sealing property is incomplete, and the seal check liquid stops at C-1, and if it does not permeate further, it is a complete seal. Seal check liquid: "Ageless check liquid (trade name, manufactured by Mitsubishi Gas Chemical Co., Inc.)" Display of discrimination level × ───── Almost sealed, but there is a few% chance of leakage of the seal check liquid. There is. △ ───── There is no leak in the static test, that is, seal check, but there is concern about the degree of sealing by checking the cross section of the seal part (there is a risk of leak due to poor transport conditions and impact of strength) Be done). ○ ───── It is a nearly perfect seal and will not leak unless there is an excessive accident. ◎ ───── Completely sealed. There is no leakage. As is clear from the results, the density of 0.925
The carton with the specification of 0.2 to 10 PE can obtain a reliable sealing property even when the sealing temperature is about 20 to 30 ° C lower than the specification with only the low density polyethylene on the laminating side. It was

Blocking, Mechanical Suitability The films of Experimental Example 1 and Experimental Example 2 were found to have wrinkles due to poor slippage during winding in the film forming process by the coextrusion method. In Experimental Example 3, due to the unevenness of the sealing surface, there was no hindrance to the winding up during film formation and the attachment / detachment to / from the mandrel during carton molding. Since the film used in the comparative example was not surface-treated, there was no problem with slippage.

[0016]

EFFECT OF THE INVENTION An ethylene-α-olefin copolymer polymerized using a single-site catalyst is used as a seal layer, a density of 0.925 to 0.965 and a PE of MI 0.2 to 10 in the intermediate layer, and a density of 0.900 in the laminating side layer. It is a paper container characterized by being formed by a laminate obtained by laminating a base material with a film obtained by co-extruding PE in the order of 0.925 to PE of MI 0.2 to 20 and providing a seal layer with irregularities of 1 to 10 μm. The slipperiness is good, the ethylene-α-olefin copolymer has a narrow molecular weight distribution, and the content of low molecular weight substances is small, so that the resin odor is hardly transferred to the contents. Also, the ethylene-α
-The olefin copolymer has excellent low-temperature sealing properties and can be sealed at low temperatures. Therefore, the problem of transfer of resin-oxidized odor to the contents due to overheating during sealing has been eliminated. By using MDPE or HDPE for the intermediate layer, the adsorption of contents components is reduced and the change in taste is reduced. When the PE on the laminating side is made of low-density PE, the filling of the center seal portion in the sealing process becomes more stable. That is, the low-density PE improves the movement of the sealing resin and contributes to the hermeticity. Further, by laminating the coextruded three-layer film and the substrate by dry laminating, taste and contents resistance are improved, and stable laminating strength is obtained. The ethylene of the three-layer coextruded film
By providing irregularities of 1 to 10 μm on the surface of the α / olefin copolymer layer, it is possible to prevent blocking during film winding when forming the three-layer film, and obtain a wrinkle-free film. The slipperiness in the carton state is also improved. As described above, the paper container of the present invention is a material that does not affect the change in the taste of the contents in which flavor is important and exhibits excellent mechanical suitability in a filling and packaging machine.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of an embodiment of a laminated body constituting a paper container according to the present invention.

FIG. 2 is an explanatory diagram of a method for confirming the level of hermeticity.

[Description of sign]

 1 Paper 2 Surface PE 3 Sandwich lamination layer 4 Aluminum foil 5 Dry laminate layer 6 Polyester film 7 Dry laminate layer 8 Density 0.900 to 0.925, MI 0.2 to 20 polyethylene layer 9 Density 0.925 or more, MI 0.2 to 10 polyethylene layer 10 S-PE P Printing SC Center seal part SD Step difference seal part B Press mark by press pad C-1 to C-3 Standard of bleeding degree of seal check

Claims (3)

[Claims] 1. An ethylene-α-olefin copolymer layer polymerized using a single-site catalyst, having a density of 0.925 to 0.96.
5, polyethylene layer with MI 0.2-10 and density 0.900-0.
925, so that the ethylene-α · olefin copolymer layer is the innermost surface of a coextruded film composed of polyethylene layers of MI 0.2 to 20 so that it is formed by a laminate laminated with a substrate. Characteristic paper container. 2. The paper container according to claim 1, wherein the coextruded film and the base material are laminated by dry lamination. 3. The surface of the ethylene-α-olefin copolymer layer is provided with irregularities in the range of 1 to 10 μm in the direction normal to the film surface.
The paper container as described.