JP2012111124A - Packaging container made of corrugated board, and package - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a packaging container made of a corrugated board for packaging a heavy load whose total weight is ≥40 kg, which is suitable for container transportation.SOLUTION: The packaging container made of a corrugated board is formed of a corrugated board sheet: obtained by pasting a plurality of flute layers in which each front side liner and each back side liner have a corrugated height of ≥4.5 mm and an intermediate liner present being pasted between the flute layers; and having a strength in short column test of ≥15 kN/m. The front side liner is a water shielding liner having a moisture vapor transmission rate of ≤300 [g/(m×24h)] and Cobb water absorbency of ≤5 g/m, and the packaging container made of a corrugated board is formed in such a manner that the side of the water shielding liner serves as the outer side face. Further, the package is obtained by packaging a metallic article, a vaporizing rust preventive chemical and/or a desiccant using the packaging container made of the corrugated board.

Description

  TECHNICAL FIELD The present invention relates to a corrugated cardboard packaging container that is particularly preferably used as a heavy weight packaging container loaded on a container during transportation, and a package using the container.

Conventionally, corrugated packaging boxes are widely used for transporting all kinds of articles such as machine products, home appliances, foodstuffs, daily necessities. In general, the packaged articles are further accommodated in a container and transported, particularly in the case of long-distance or large-scale transportation.
A container for transportation is generally a box with a standardized shape made of iron or aluminum, and it is used for international sea freight, for railways, for domestic coastal ships, for air freight, etc. There are various standards, and the transshipment between different types of transportation means such as ships, railroads, and trailers that comply with the standards can be performed easily. In addition, since container handling is mechanized, the labor, cost, and time during transportation can be greatly reduced, and the risk of theft and fouling is reduced.

Although transportation by containers suitable for large quantities and long distances is extremely cost-effective, generally the interior environment during transportation fluctuates greatly because the temperature and humidity of the container are not adjusted. When shipping overseas by container, the temperature inside the container reaches 60 ° C at maximum because it may pass through the equator. In addition, the humidity may be 100% or more, and a large amount of condensed water may be generated inside the container.
The packaged contents may be damaged by such humidity and dew condensation water, and particularly when metal such as iron such as machine products is included, the generation of rust has been a big problem.

  Furthermore, when the container for packing the contents is made of corrugated cardboard, the box compressive strength is greatly reduced under extreme high humidity conditions or condensed water, and in the worst case, the box may be crushed.

When a heavy article is packaged using a cardboard packaging container, a packaging container using a corrugated cardboard sheet having a structure and strength characteristics dedicated to the heavy article is necessary.
For example, when packing an article having a total weight of 40 kg or more, the number of flutes of the cardboard sheet is two layers or more, the thickness is 10 mm or more, the short column (ASTM D 2808) is 15 kN / m or more, and the cardboard is constituted. The basis weight of the surface layer liner is mainly a cardboard sheet having a configuration of 360 g / m ² or more.

  In order to prevent the rust of the contents in the cardboard packaging container, the contents are packaged with a plastic film together with a vaporizable rust inhibitor and / or a desiccant, and further packed with a cardboard packaging container. Further, there has been a method of packing the contents packaged with a vaporizable rust-proof film described in Japanese Patent Publication No. 2829314 (Patent Document 1) with a cardboard packaging container.

  However, these conventional techniques increase the work burden of packaging with a plastic film or a rust-proof film during packaging. In addition, after arrival at the destination and opening, there was a problem in terms of cost and environment that the used plastic film or rust preventive film became waste.

  Moreover, there exists Unexamined-Japanese-Patent No. 2000-167952 (patent document 2) as a rust prevention technique which does not use a plastic film or a rust prevention film. In this conventional technology, due to the presence of a moisture-proof liner coated with a moisture-proof agent, even if there is a sudden increase in humidity in the container, the increase in humidity in the cardboard box is mitigated, and the generation of condensed water on the contents surface is generated. And the occurrence of rust is greatly reduced. However, in order to use as a heavy-weight packaging corrugated cardboard packaging container for loading a container, a corrugated cardboard packaging container that can further improve strength and water shielding performance and exhibit rust prevention properties has been demanded.

Japanese Patent Publication No. 2829314 Japanese Patent Laid-Open No. 2000-167952

  The present invention further improves the above-mentioned problems and provides a cardboard packaging container for heavy goods packaging suitable for container transportation and having a total weight of 40 kg or more.

In order to solve the above problems, the present invention adopts the configurations described in the following (1) to (4).
(1) A front liner, a back liner, a plurality of flute layers each having a height of 4.5 mm or more, and an intermediate liner existing between the flute layers, and a short column having a short column of 15 kN / m or more. A cardboard packaging container formed from a sheet, wherein the front liner has a water vapor transmission rate of 300 g / m ² · 24 h or less, and Cobb water absorption (JIS P 8140: contact time = 30 minutes is 5 g / m ² or less) A corrugated cardboard packaging container which is a liner and is formed so that the water-impervious liner side of the corrugated cardboard sheet is an outer surface.

(2) The water-impervious liner applies a paint mainly composed of a synthetic resin emulsion and a pigment on the surface of a liner base paper having a basis weight of 350 g / m ² or more, and has a solid content of 3 to 30 g / m ² . The cardboard packaging container according to the preceding item (1).

(3) The pigment ratio of the water shielding layer is 30 to 60% by mass, and the pigment is a flat pigment having an average particle diameter of 3 μm or less and an aspect ratio of 6 or more, an average particle diameter of 5 to 15 μm, and an aspect ratio. 3. The corrugated packaging container according to item (2), which is composed of 3 or less particulate pigment, and the ratio of the tabular pigment to the particulate pigment is 95: 5 mass% to 60:40 mass%.

(4) A package comprising a metal article and a vaporizing rust inhibitor and / or a desiccant packaged using the cardboard packaging container described in any one of (1) to (3). .

  According to the present invention, it is possible to provide a corrugated cardboard packaging container for packing heavy items having a total weight of 40 kg or more, which is more suitable for container transportation than the conventional products.

It is a schematic diagram of the corrugated cardboard sheet used in the present invention.

Hereinafter, the present invention will be described more specifically.
The corrugated cardboard sheet used in the corrugated cardboard packaging container according to the present invention is composed of a front liner, a back liner, a plurality of flute layers each having a height of 4.5 mm or more, and an intermediate liner existing between the flute layers. . Generally, among such corrugated cardboard sheets, two flute layers are called double-sided cardboard sheets, and three layers are called double-sided cardboard sheets.
The front liner is composed of a water-impervious liner having a moisture permeability (J.TAPPI 7-76) of 300 g / m ² · 24 h or less and a Cobb water absorption of 5 g / m ² or less. In the present invention, the Cobb water absorption (JIS P 8140) contact time is 30 minutes.
The above-described water-blocking liner does not use a plastic film, and the liner base paper is used as a base paper to provide a water-blocking layer composed of a synthetic resin emulsion and a pigment. This is desirable because it can be recycled as used paper.
Moreover, the basic weight of liner base paper used as the said base paper can use normal liner base paper. From the viewpoint of strength, it is desirable to use a craft liner base paper having a basis weight of 350 g / m ² or more and a blending ratio of kraft pulp of 70% or more. Further, it is more desirable to use a liner base paper having a Cobb water absorption of 100 g / m ² or less.
In addition, when providing a water shielding layer with a synthetic resin emulsion, it is preferable that the liner base paper has a water repellency (J. TAPPI 68) of R2 or less because of good wettability with respect to the coating liquid and pinholes during coating. This is desirable because the number of occurrences is reduced.

Moreover, it is desirable that the water shielding layer composed of the synthetic resin emulsion and the pigment has a solid content of 3 to 30 g / m ² . If it is less than 3 g / m ² , pinholes are likely to occur during coating, and it is difficult to impart sufficient water barrier properties. On the other hand, if it exceeds 30 g / m ² , the water shielding effect reaches its peak with respect to the coating amount, which is not economical.
Further, the ratio of the pigment in the water shielding layer is desirably 30 to 60% by mass.

The synthetic resin emulsion used for the water shielding layer in the present invention preferably uses a styrene / butadiene copolymer and / or a styrene / acrylic copolymer.
The pigment is desirably blended by mixing a flat pigment having an average particle diameter of 3 μm or less and an aspect ratio of 6 or more and a particulate pigment having an average particle diameter of 5 to 15 μm and an aspect ratio of 3 or less. Here, the aspect ratio is a value obtained by dividing the average particle system by laser diffraction method by the average thickness of the tabular pigment. The particle size measurement by the laser diffraction method can be measured by “Laser diffraction type particle size distribution analyzer SALD2000J” manufactured by Shimadzu Corporation.

The above-mentioned flat pigment is useful for improving the moisture-proof property of the water-shielding layer, that is, reducing the moisture permeability. Is preferred.
Specific examples of the flat pigment used in the present invention include kaolin, talc, mica, sericite, and aluminum hydroxide. In particular, delami type kaolin is preferably used.
When the above particulate pigment is blended in the water shielding layer, the particulate pigment is exposed and roughened on the surface of the water shielding layer, and the contact area with the corrugator's heat roll and hot plate is reduced. The problem of fusion between the synthetic resin and the hot roll or hot plate is suppressed, and the operation with the corrugator becomes easy.
When such an average particle size is less than 5 μm, the effect of suppressing fusing troubles may not be exhibited. When the particle size is 15 μm or more, the surface property of the water shielding layer may be deteriorated and the water shielding property may be lowered. Therefore, the average particle diameter of the particulate pigment is preferably 5 to 15 μm.
Specifically, calcium carbonate, silica, clay and the like are used as the particulate pigment in the present invention.
A desirable blending ratio of the flat pigment and the particulate pigment is 95: 5 mass% to 60:40 mass%.

As the backing liner of the present invention, a commonly used liner base paper for corrugated cardboard can be used, but a liner base paper having a Cobb water absorption of 100 g / m ² or less and a basis weight of 360 g / m ² or more can be used. desirable. It is also possible to use a water-impervious liner obtained in the same manner as the front liner as the back liner.
Further, as an intermediate liner existing between a plurality of flute layers, a commonly used liner base paper for corrugated cardboard can be arbitrarily selected and used. The use of a basis weight of 160 g / m ² or more is particularly desirable from the viewpoint of the strength of the cardboard sheet.

  Further, the corrugated cardboard packaging container according to the present invention is formed so that the front liner side of the corrugated cardboard sheet obtained above is the outside of the container. As a result, even when the corrugated cardboard packaging container of the present invention is stored in a container and transported, even if water is condensed due to condensed water generated in the container etc. Since the penetration can be prevented, the strength of the corrugated cardboard packaging container can be prevented from being lowered.

As the core base paper constituting the flute layer of the present invention, a general core base paper generally used for corrugated cardboard or an underwater-resistant core base paper can be used. The basis weight is preferably 160 g / m ² or more from the viewpoint of the strength of the cardboard sheet.

  The above-mentioned front liner, back liner, intermediate liner, and flute layer of core base paper are bonded by a conventional method to obtain a corrugated cardboard sheet used in the present invention. In addition, when bonding a front liner and a flute layer, the surface and the flute layer which do not have the water-blocking property of a front liner shall be bonded. In addition, general starch paste or water-resistant starch paste can be arbitrarily selected and used for adhesion between each liner and the core.

Moreover, when producing a corrugated board sheet | seat by bonding, the step height of each flute layer shall be 4.5 mm or more. Further, the thickness of the entire sheet is desirably 10 mm or more.
Moreover, the short column which is the strength characteristic of the corrugated cardboard sheet used in the present invention is 15 kN / m or more. When the short column is 15 kN / m or more, the calculated value of the box compression strength of the McKee type or the like becomes 300 kg or more, and it can be sufficiently used for packaging for heavy objects whose contents are 40 kg or more.

Hereinafter, the present invention will be described in detail based on examples and comparative examples.
<Example 1>
A liner paper (469 g / m ² , water repellency = R0, water vapor transmission rate = 2000 g / m ² · 24 h, Cobb water absorption = 90 g / m ² ) made by US International Paper Co. (hereinafter IP) is used as a base paper, and On the surface, a paint composed of a synthetic resin emulsion and a pigment having the following composition is applied with a Mayer bar, and the coating amount after drying is applied so that the solid content is 20 g / m ² to obtain a waterproof liner. It was.
The obtained water-impervious liner has a water vapor transmission rate of 200 g / m ² · 24 h and a Cobb water absorption of 3 g / m ² . This is the surface liner (the liner that is the outer surface of the box during box making).
[Paint composition]
46% by mass of styrene / butadiene copolymer
(Nippon Zeon Corporation, HOJ4072)
Styrene / acrylic copolymer 9% by mass
(BASF, John Krill 734)
Brazil Kaolin 36% by mass
(Imeris, Capim-DG, tabular pigment, average particle size = 1.15 μm, aspect ratio 10-40)
Calcium carbonate 9% by mass
(Bihoku Powder Chemical Co., Ltd., BF300, particulate pigment, average particle size = 8 μm, aspect ratio 3 or less)
Next, the liner liner paper (469 g / m ² , water repellency = R 0, water vapor transmission rate = 2000 g / m ² ) made of IP as a base paper with a surface liner as a back liner (a liner that is the inner side of the box during box making) · 24h, Cobb water absorption = 90g / m ^2), manufactured by Oji paperboard as an intermediate liner ^{(Ltd.) ONRK170 (170g / m 2)} , using manufactured by Oji paperboard ^(Ltd.) HS160 (160g / m ²⁾ as the center core A double-sided corrugated cardboard sheet (thickness 10.3 mm, short column = 24 kN /) having two flute layers (each step height = 4.6 mm) using a water resistant starch paste usually used as an adhesive. m) was obtained.
Using the double-sided cardboard sheet, a 0201 type (JIS-Z1507) cardboard box with the front liner as the outside and a box size of 400 * 300 * 250 was produced.
A packaged body in which cast iron having a size of about 100 * 100 mm was put and packed in the cardboard box was obtained.

<Example 2>
Except that the cast iron with a size of about 100 * 100mm was packed in a cardboard box together with two quicklime desiccants (5g) and three vaporizable rust preventives, Kires Beam (2g). A package was obtained in the same manner as in Example 1.

<Comparative Example 1>
Liner base paper ONRK280 (280g / m ² , water repellency = R0, moisture permeability = 2500g / m ² · 24h, Cobb water absorption = 250g / A cardboard sheet was obtained in the same manner as in Example 1 except that m ² ) was used.
Further, a cardboard box was produced in the same manner as in Example 1, and similarly, cast iron having a size of about 100 * 100 mm was put and packed to obtain a package.

<Comparative example 2>
A corrugated cardboard sheet was obtained in the same manner as in Example 1, except that IP liner liner paper (469 g / m ² ) without a water shielding layer was used as the surface liner.
Further, a cardboard box was produced in the same manner as in Example 1, and similarly, cast iron having a size of about 100 * 100 mm was put and packed to obtain a package.

<Comparative Example 3>
In a corrugated cardboard box obtained in the same manner as in Comparative Example 2, a cast iron having a size of about 100 * 100 mm is packed in a 40 μm-thick polyethylene bag together with three vaporizable rust preventive agents, Killes Beam (Cyrest Inc., 2 g). Thus, a package was obtained.

<Comparative example 4>
In a corrugated cardboard box obtained in the same manner as in Comparative Example 2, a cast iron having a size of about 100 * 100 mm was packed with a vaporizable rust preventive film (manufactured by Aicello Chemical Co., Ltd., Boselon 103) to obtain a package. .

<Comparative Example 5>
A liner paper made of Oji Paperboard ONRK280 (280 g / m ² , water repellency = R 0, moisture permeability = 2500 g / m ² · 24 h, Cobb water absorption = 250 g / m ² ) is used as a base paper, and the surface has the following composition: A paint composed of a synthetic resin emulsion and a pigment was applied with a Mayer bar, and the coating amount after drying was applied so that the solid content was 20 g / m ² to obtain a water shielding liner.
The obtained water-impervious liner has a water vapor transmission rate = 100 g / m ² · 24 h and a Cobb water absorption = 30 g / m ² . This is the surface liner (the liner that is the outer surface of the box during box making).
[Coating composition]
50% by mass of styrene / butadiene copolymer
(Nippon Zeon Corporation, HOJ4072)
Coupling agent 0.5% by mass
(Shin-Etsu Chemical Co., Ltd., KBM603)
Muscovite 50% by mass
(Yamaguchi Mica Industry Co., Ltd., flat plate filling, average particle size = 22 μm, aspect ratio = 20-30)
Next, liner base paper ONRK280 (280g / m ² , water repellency = R0, moisture permeability = 2500g / m ² · 24h, Cobb water absorption) manufactured by Oji Paperboard Co., Ltd. = 250 g / m ² ), ONRK170 (170 g / m ² ) manufactured by Oji Paperboard Co., Ltd. as the intermediate liner, and HS160 (160 g / m ² ) manufactured by Oji Paperboard Co., Ltd. as the middle core, usually as an adhesive A double-sided corrugated cardboard sheet (thickness = 10.0 mm, short column = 14.5 kN / m) having two flute layers (each step height = 4.6 mm) is prepared using the water-resistant starch paste used. Obtained.
Using the double-sided cardboard sheet, a 0201 type (JIS-Z1507) corrugated cardboard box having a box inner dimension of 400 * 300 * 250 was produced with the front liner as the outside.
A packaged body in which cast iron having a size of about 100 * 100 mm was put and packed in the cardboard box was obtained.

<Evaluation of occurrence of pinholes in front liner>
For the surface liner (water-blocking liner) manufactured in Example 1 and the surface liner (water-blocking liner) manufactured in Comparative Example 5, the surface liner was cut to 46 * 31 cm, and the base paper so that the water-blocking layer was on the inside The edge was bent and the inner dimensions were 40 * 25 cm in a boat shape with water at a depth of 5 mm and left for 24 hours, after which pinholes in the water shielding layer were observed.
As a result, the number of pinholes in the water shielding layer of the surface liner of Example 1 was 1 or less, and in Comparative Example 5, 4 or more pinholes were generated.

<Evaluation of cardboard boxes and packaging>
Each packaging body obtained in the examples and comparative examples is put in a variable air-conditioning room, and the conditions of 50 ° C. and 95% RH are repeated every 12 hours starting from 25 ° C. and 70% RH conditions. The presence or absence of dew condensation water was evaluated. The results are shown in Table 1.
Moreover, it evaluated similarly about what was changed from the conditions of 50 degreeC and 95% RH to 25 degreeC and 70% RH conditions at the time of a start. The results are shown in Table 2.

  From Table 1 and Table 2, in Example 1, the temperature and humidity change in the cardboard box is gradual, and there is no generation of condensed water on the cast iron surface. On the other hand, in the comparative example, the temperature and humidity change is abrupt, and dew condensation water is generated on the cast iron surface 24 hours and 36 hours after the change of the variable air-conditioning chamber conditions. In addition, when dew condensation water is generated, the possibility of rusting of cast iron increases when a longer time has passed.

  Next, in the packaging bodies of the examples and comparative examples, the packaging workability is evaluated, and the packaging body is put in a variable air-conditioning room, and the conditions of 25 ° C./70% RH and 50 ° C./95% RH are set for 12 hours. The contents and the state of the cardboard box after 7 consecutive days were evaluated, and the results are shown in Table 3.

<Evaluation explanation of Table 3>
* 1) In packaging work, ◎ indicates that there is no work other than packaging in a cardboard box, ○ indicates that there is little increase in work other than cardboard packaging, and x indicates that work other than cardboard packaging significantly increases.
* 2) Corrugated cardboard where 軟 is almost free of soft spots, ◎, soft spot with 1-2 spots is △, and soft spots are 3 or more.
* 3) ◎ indicates that the cast iron has almost no rust, △ indicates that the rust is generated in several places, and X indicates that the rust is generated on the entire surface.

  As shown in Table 3, since the present invention has a rust prevention effect even without a desiccant or a vaporizable rust preventive agent in the cardboard, the work burden at the packaging site can be greatly reduced, and the materials Savings are possible. If it is necessary to further enhance the rust prevention effect or extend the rust prevention effect, it is also possible to insert a packaged desiccant and / or a vaporizable rust inhibitor into the cardboard for packaging.

Claims (4)

A front column, a back liner, a plurality of flute layers each having a height of 4.5 mm or more, and an intermediate liner existing between the flute layers are bonded, and a short column is formed from a cardboard sheet of 15 kN / m or more. A corrugated packaging container, wherein the front liner has a moisture permeability of 300 g / m ² · 24 h or less and a cobb water absorption of 5 g / m ² or less, and the corrugated cardboard sheet has a water shielding liner side outside. A cardboard packaging container, characterized by being formed to be a side surface. The water-impervious liner coats a surface of a liner base paper having a basis weight of 350 g / m ² or more with a paint mainly composed of a synthetic resin emulsion and a pigment, and a water-impervious layer having a solid content of 3 to 30 g / m ² The cardboard packaging container according to claim 1, wherein   The pigment ratio of the water shielding layer is 30 to 60% by mass, and the pigment is a flat pigment having an average particle diameter of 3 μm or less and an aspect ratio of 6 or more, an average particle diameter of 5 to 15 μm and an aspect ratio of 3 or less. The cardboard packaging container according to claim 2, comprising a particulate pigment, wherein the ratio of the flat pigment to the particulate pigment is 95: 5% by mass to 60: 40% by mass.   A package comprising a metal article and a vaporizing rust preventive and / or a desiccant packaged using the cardboard packaging container according to any one of claims 1 to 3.

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