JP5017741B2 - Packaging material having hot water resistance, and composite container and bag-like container using the same - Google Patents

Description

【００４７】
【発明の効果】
本発明により、優れた耐水物性および耐熱水物性有し、かつ印刷適正に優れた繊維構造物からなる包装材料およびこれを用いたボイル殺菌処理、レトルト殺菌処理、熱水処理等による調理が可能な、美粧性に優れた複合容器及び袋状容器を提供することが可能となった。
本発明の繊維構造物からなる包装材料は、従来の印刷再現性を大幅に向上した浴室で使用される金属容器やプラスチックボトルへのラベル、熱水調理・殺菌される食品の紙容器の蓋材、底材やラベルに好適に使用されるものである。
【００４８】
また、内装プラスチック容器と外装繊維構造物容器からなる複合容器において、外装容器に本発明の繊維構造物からなる包装材料を適用することで、優れた印刷再現性、耐水物性および耐熱水物性を有するボイル殺菌処理、レトルト殺菌処理および熱水処理による調理が可能な複合容器及び袋状容器を提供できる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a packaging material composed of an impregnated fiber structure obtained by impregnating a resin into a sheet-like fiber structure having a low basis weight, which has water resistance and heat resistance, and excellent printability, and a composite container using the same It relates to a bag-like container.
Water-resistant containers such as laundry detergent, softener, shampoo, rinse, and other toiletries and cosmetics, and boil sterilization treatment for beverages and foodstuffs, retort sterilization treatment, sterilization and cooking by hot water treatment It is used as a packaging material for lids, bottoms, labels, etc. of containers that contain contents that require the use of It is also used as a packaging material for composite containers and bag-like containers.
In addition, since the printed layer is provided on one surface of the impregnated fiber structure and has printability, the composite container using the packaging material of the present invention can provide a composite container having excellent cosmetic properties.
[0002]
[Prior art]
In recent years, environmental problems have become serious, and containers and packaging materials need to be easily disposed of, and demand for easy incineration, recyclability, or recycled materials is increasing. Bottles, tray-shaped paper containers, composite containers made of paper and plastic, building materials such as decorative panels and wallpaper, and so-called paper products that significantly reduce the amount of plastic used in the industrial materials field such as labels, In the container field, various composite containers that can separate paper and plastic at the time of disposal have been proposed.
[0003]
In order to cope with environmental problems and resource saving, for example, composite containers made of paper and plastic have been developed. On the other hand, excellent water resistance and strength properties are required for such a composite container.
[0004]
In order to improve the water resistance of the composite container, as a method of making the fiber structure such as paper used in the composite container water-resistant, a method of subjecting the fiber structure to water resistance with an internal additive, a plastic to the fiber structure There is a method of applying a water resistance treatment by film lamination or resin coating.
The method of applying water resistance treatment to fiber structures such as paper with an internal additive is a high basis weight cardboard that can withstand severe heat-resistant water treatment such as boiling and retort, and can be used as a container frame for tray molds and cups. Is not currently found in stuff. In addition, there is a problem that a large papermaking facility is required to impart a water resistance function to the fiber structure paper with an internal additive.
[0005]
On the other hand, in a method of applying a water resistance treatment by laminating a plastic film onto a fiber structure such as paper or applying a resin, a coating method such as gravure printing, spraying, and blurring is the simplest method.
However, especially when the paper is thick, the conventional coating method does not allow the resin to uniformly penetrate the entire thickness direction of the paper, and a problem arises in that a part of the paper layer is not subjected to water-resistant treatment. was there.
[0006]
In order to solve the above-mentioned problems, water resistance treatment is applied to all layers in the thickness direction of the fiber structure by applying a resin whose viscosity is appropriately adjusted from both sides of the fiber structure such as paper. It is possible to apply.
However, there are currently limitations on the selection of materials such as resin and paper depending on the viscosity of the resin used and the surface state of the fiber structure such as paper.
Generally, the clay layer is designed so that the ink resin or the like is fixed without penetrating the surface layer of the clay layer, and does not require the performance of allowing the resin to penetrate from the surface to the fiber layer.
However, it is difficult to perform a water-resistant treatment by resin coating on a high basis weight paperboard having a strong and strong strength, such as used in a tray container having a thick clay coat layer.
Therefore, it is necessary to select a method for performing double-sided coating using a fiber structure such as paper without a clay coat layer as a base material.
In addition, using this method and base material is the most cost-effective, and the base material has very good permeability, making adjustments according to required hot water performance easy by increasing or decreasing the coating amount. In addition, manufacturing control and quality control can be improved.
[0007]
Generally, high basis weight called paperboard (about 150g / m²The above paper is sprayed with a water-soluble adhesive such as starch on a thin sheet-like fiber structure (paper) in the paper making process, and is superposed with three layers and five layers (multi-layered) to obtain a thick high It is a paperboard with a basis weight.
The one-layer fiber structure is formed into a sheet in a muddy state of pulp slurry dissolved with water, and each fiber is in a state of being rolled up on the surface.
In paperboards that require printability, a clay layer is applied. Generally, before and after the drying process immediately after the multi-layering, which is a papermaking stage before applying the clay layer, the clay layer In order to coat the surface smoothly, first, the surface is smoothed by a mirror calender roll or the like.
However, since the surface is still rough, a clay coat layer is provided by passing a unit capable of coating with a high coating amount, such as a comma coater and an air knife, twice.
The clay coat layer obtained through this step improves the sealing of the fiber structure such as paper and the smoothness of the surface, and makes it possible to perform tone printing (photograph-like printing).
The surface condition of a fiber structure or a pulp mold that is a three-dimensional structure without a clay coat layer is not so smooth (since it is not necessary to apply a clay layer), and the clay Because there are no layers, it is very rough and can only display content components such as characters and POS printing such as barcodes. It is.
[0008]
[Problems to be solved by the invention]
The present invention has been made in view of the above problems, and has a packaging material comprising a fiber structure having excellent water resistance and heat resistance, and excellent printability, and boil sterilization treatment and retort sterilization using the same. An object is to provide a composite container and a bag-like container excellent in cosmetics, which can be cooked by treatment, hot water treatment, and the like.
[0009]
[Means for Solving the Problems]
  The present invention is for solving the above-mentioned problems, and the invention according to claim 1 of the present invention has a basis weight of 200 g / m having a printing layer composed of a clay coat layer having a Beck smoothness of 50 sec or more on one side. m² belowSheet-like cellulose fiber structure that meets the requirementsBecauseOne layer of resin selected from polyurethane resin, polyisocyanate resin, acrylic resin, epoxy resin, and nitrified cotton resin, or two or more resins are mixed in the entire fiber layer of the cellulose fiber structure. 3 g / m of resin²An impregnated cellulose structure (A) having a printed layer to be impregnated.The wet tensile strength of the impregnated cellulose structure (A) is 9.8 N / 15 mm or more, and the dimensional change before and after wetting is 1% or less.This is a packaging material having hot water resistance.
[0010]
  The invention according to claim 2 of the present invention is the packaging material having hot water resistance according to claim 1, wherein the cellulose fiber structure is provided.Is an impregnated cellulose structure (B) formed by laminating an adhesive layer with an adhesive on the outermost layer opposite to the printed layer (clay coat layer)It is the packaging material which has hot water resistance characterized by being.
[0012]
  The invention according to claim 3 of the present invention is claimed in claim1For packaging materials with hot water resistanceLeaveThe impregnated cellulose structureBut thatAn impregnated cellulose structure in which one or more thermoplastic films are laminated on the surface opposite to the printing layer (clay coat layer) (CIt is a packaging material having hot water resistance.
[0014]
  Claims of the invention4The invention according to claim1The impregnated cellulose structure (A) in the packaging material having hot water resistance according to claim 1 or claim2The impregnated cellulose structure (B) in the packaging material having hot water resistance according to claim or claim3The impregnated cellulose structure (C) in the packaging material having hot water resistance according to, LaIt is a composite container having hot water resistance, characterized in that it is used as one or more kinds selected from any of bell materials.
[0015]
  The invention according to claim 5 of the present invention has a basis weight of 500 g / m having a printing layer composed of a clay coating layer having a Beck smoothness of 50 sec or more on one side. ² A sheet-like cellulose fiber structure satisfying the following range, wherein all the fiber layers of the cellulose fiber structure are made of polyurethane resin, polyisocyanate resin, acrylic resin, epoxy resin, and nitrified cotton resin. 3 g / m of a resin selected from one selected resin or a mixture of two or more resins ² An impregnated cellulose structure (A) having a printing layer to be impregnated, the wet tensile strength of the impregnated cellulose structure (A) is 9.8 N / 15 mm or more, and the dimensional change before and after wetting is 1% A composite container having hot water resistance, wherein the following impregnated cellulose structure (A) is used as one or more kinds selected from any one of a cover material, a bottom material and a label material of the container.
[0016]
  Claims of the invention6The invention according to claim5In the composite container having hot water resistance according to the above, the containerBodyIs a composite container having hot water resistance, which is a plastic container.
[0017]
  The invention according to claim 7 of the present invention is the impregnated cellulose structure (A) in the packaging material having hot water resistance according to claim 1 or the claim.2The impregnated cellulose structure (B) in the packaging material having hot water resistance according to claim or claim3A bag-like container obtained by molding the impregnated cellulose structure (C) in the packaging material having hot water resistance according to the above into a bag shape such as a pouch or a bag.
[0018]
<Action>
The packaging material having water resistance according to the present invention has a printing layer composed of a clay coat layer having a Beck smoothness of 50 sec or more on one side, and has a basis weight of 200 g / m.²It is an impregnated cellulose structure (A) having a printing layer obtained by impregnating a resin into the entire fiber layer of the cellulose fiber structure using a sheet-like cellulose fiber structure satisfying the following ranges.
The entire surface of the fiber structure is treated with a resin having hot water resistance to coat the surface of the cellulose fiber, and the structure is formed by hydrogen bonding between the cellulose functional unit of the cellulose fiber structure and the functional unit of the resin. By significantly improving the strength as a body, excellent water resistance and hot water resistance can be imparted. Specifically, the tensile breaking strength in the wet state of the impregnated fiber structure is 9.8 N / 15 mm or more. In addition, since the dimensional change in the wet state after humidity control is 1% or less with respect to the size before humidity control, it can sufficiently withstand expansion and contraction of the container, etc., hot water treatment, etc. It is suitably used as a packaging material that can be cooked by boil sterilization, retort sterilization, and hot water treatment without causing deformation.
Further, since the printing layer composed of a clay coat layer having a Beck smoothness of 50 sec or more is provided, it is suitably used for a label having excellent printability and capable of high quality printing.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail.
The packaging material having water resistance according to the present invention has a printing layer composed of a clay coat layer having a Beck smoothness of 50 sec or more on one side, and has a basis weight of 200 g / m.²A sheet-like cellulose fiber structure satisfying the following ranges is used, and the entire fiber layer of the cellulose fiber structure is impregnated with a resin.
The packaging material according to the present invention is used for exterior materials such as lids, bottom materials, labels, etc., which are used in places where printability of containers having water resistance is required, and is basically provided in the outermost layer. It is what
Strength properties to withstand the expansion of the inner container of the composite container when exposed to conditions such as wet conditions or hot water treatment, and minimum dimensional changes necessary to prevent the occurrence of wrinkles in the printed part Is required.
In the case of printing, when applying printing called tone, such as photo-like printing of contents or gradation printing that requires gradation reproducibility, the Beck smoothness that is an index of surface roughness is not more than 50 sec. Ink transfer and the like cannot be reproduced well.
For strength properties, 200 g / m²For the following fiber structures, all layers must be impregnated by adjusting the resin system and coating amount so that the tensile break strength in a wet state of 1 hour or more in room temperature water is 9.8 N / 15 mm or more. .
Regarding the dimensional change, if the elongation rate of the dimension in the wet state with room temperature water is 1% or less with respect to the dimension in the initial state, there is no breakage, wrinkles, etc. before and after wetting, and the printing is appropriate. An excellent packaging material can be obtained.
[0020]
The fiber structure used in the water-resistant packaging material of the present invention includes 100% virgin pulp, 100% recycled waste paper, a mixture of them in any proportion, NBKP material, LBKP Various types of paper, such as wood, plant fiber materials such as kenaf, baccarat and bamboo other than wood pulp, and synthetic resin pulp, can be used according to the desired water resistance level.
The paper here includes non-woven fabrics, cloths and the like, and is not limited to the so-called paper type by papermaking.
The kind of clay, the particle diameter of clay, the coating method, etc. used for the clay coat can be appropriately selected.
[0021]
As the basis weight of the fiber structure, first, since the clay coat layer as the printing surface is on one side, it is difficult to impregnate the fiber layer from the clay surface with the resin. Therefore, 200g / m that can be processed from one side²The fiber structure of the following basis weight can be preferably used, and in the basis weight, depending on the use and the level of hot water sterilization, when used for lids, bottom materials, labels, etc. Those that do not cause problems are preferably selected and used.
[0022]
As the smoothness value of the fiber structure required for having printability, the value required for the POS print level such as characters and barcodes may be 15 sec or more in Beck smoothness. In this case, 50 sec or more, preferably 200 sec or more is required, and this can be realized by a clay coat layer.
In general, the clay coat layer and the fiber structure of the sheet-like fiber structure (paper) are also bonded with an adhesive such as starch or PVA, but as it is, there is no hot water resistance.
According to the present invention, the resin impregnates the fiber structure, and the strength between the fibers and, further, the connection between the fibers and between the clay coat layers, the entire water saving resistance is ensured.
[0023]
These sheet-like fiber structures are impregnated with a resin capable of imparting water resistance and hot water resistance as secondary processing after papermaking.
As the impregnation and coating method by external addition, a dipping method in which a fiber structure is immersed in an impregnating agent and an excessive amount of the impregnating agent can be temporarily applied, or preferably, a predetermined amount of the impregnating agent is applied or impregnated. There are gravure coating method and roll coating method.
Any method that can supply the impregnating resin to the sheet-like fiber structure can be selected arbitrarily depending on the type of the sheet-like fiber structure and the impregnating resin used.
Furthermore, since these processes are performed in a secondary process, the process can be performed with a small amount of an impregnating material as compared with the papermaking process, so that the process can be performed at a low cost.
[0024]
As resins that can impart water resistance and hot water resistance, in addition to thermosetting resins such as urethane resins and isocyanate resins, acrylic resins, polyester resins, epoxy resins, and nitrified cotton resins can be used alone or It can be used in combination, and the above resin materials can be combined or mixed depending on the required hot water temperature and function level.
[0025]
As for the treatment of the fiber structure subjected to the water-resistant treatment, if there is an untreated portion, it breaks or the like.
However, it can be appropriately adjusted according to the required water resistance level and function, such as selecting the resin according to the resin concentration gradient or layer in the processing section.
[0026]
If it is 9.8 N / 15 mm or more as a tensile breaking strength in a wet state, it can be sufficiently extinguished by the movement of water in hot water, expansion and contraction of containers and the like.
In general, in the case of a fiber structure that has not been subjected to water-resistant treatment, hydrogen bonding, which is the basic bonding force between fibers, is caused by the entry of water, which inhibits the bonding force and moves the fiber itself. It can also be destroyed by the movement of water in the water, and when it is attached to a container or the like, it cannot withstand expansion and contraction.
[0027]
If the dimensional change in the wet state is 1% or less, it can be preferably used without causing problems such as wrinkles and detachment from the container due to deformation after the hot water treatment.
[0028]
An adhesive layer or a plastic film is provided on the outermost exterior for use in a container exterior material or the like, but a material according to the required water resistance and heat resistant water level can be selected as appropriate.
Examples of the adhesive include anchor coating agents such as isocyanate (urethane), polyethyleneimine, polybutadiene, and organic titanium, or polyurethane, polyacryl, polyester, epoxy, poly, and the like. Known anchor coating agents such as vinyl acetate, cellulose and other laminating adhesives, adhesives, and the like can be used.
As a coating method, a general method can be used.
As a plastic film, in addition to polyolefin resin such as polyethylene resin and polypropylene resin, polyester resin, barrier resin layer such as polyamide resin and ethylene-vinyl alcohol copolymer, or a single piece of a punched product thereof, Resin films on which inorganic substances typified by Al, AlOx, and SiOx are vapor-deposited, or composite films that combine these can also be used for the purpose of imparting appearance, oxygen barrier properties, water vapor barrier properties, and fragrance retention properties.
It is not limited to the laminated structure. Lamination methods include, for example, wet lamination method, dry lamination method, solventless dry lamination method, extrusion lamination method, T-die coextrusion molding method, coextrusion lamination method, etc. It can be done by the method.
If necessary, for example, corona treatment, frame processing, etc. may be performed.
Sealing or adhesion can be performed through an adhesive layer, a plastic film, or the like provided by the present invention.
[0029]
In the present invention, the exterior material itself may be used alone as a container like a pouch.
It can also be used as exterior materials such as labels, lids, and bottom materials for plastics, metals, paper containers, etc. in bathrooms, toilets, and kitchens. Moreover, it can be preferably used as an outer packaging material of a container mainly composed of a fiber structure having hot water resistance.
[0030]
When using this packaging material in combination with a container, the tray itself must also have hot water resistance.
When the container is made of a fiber structure (paper), it can be obtained by the resin, coating method and the like described so far.
In order to be used as a container body, the fiber structure itself needs to use a fiber structure having a high basis weight and a strong strain strength and tensile strength.
Therefore, the basis weight of the fiber structure used for the container body may be determined according to the state of the contents, the internal volume, etc., but is 500 g / m.²You can choose from the following:
When combined with the packaging material of the present invention, the dimensional change (elongation) should be less than 1% so that no detachment due to wet dimensional change will occur, and no breakage will occur. What is necessary is just to process by the resin described so far, the coating method, etc. so that it may become a container with a tensile strength of 9.8N / 15mm or more.
[0031]
The shape of the container is typically a shape having an opening above, a cup shape having a trunk and a bottom, a tray shape, a top, a cylinder having a trunk and a bottom, a top, a trunk and a bottom. There are tetrahedron, hexahedron, or roof type shape, so-called milk pack shape with body and bottom, mountain-shaped top, bag shape, bottle shape, so-called triangular milk shape with trihedral shape, etc. Although it can be selected, other shapes may be used. The container forming method using water-resistant paper may be a well-known method according to the shape of the container.
[0032]
【Example】
Hereinafter, specific examples of the present invention will be shown and described.
[0033]
<Example 1>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 150 sec.²The sheet-like fiber structure was used, and this was impregnated with an isocyanate resin mainly composed of an adduct of isophorone diisocyanate by a gravure coating method. Impregnation amount is about 3 g / m²Met. Printing on the clay coat layer was able to apply a printed matter required at a very high level of tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 22 N / 15 mm, There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
As a composite container, a polypropylene sheet having a thickness of 160 μm was used as an interior, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also excellent with no defects.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0034]
<Example 2>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 50 sec.²A sheet-like fiber structure was used, and a resin in which a polyurethane resin was mainly used and an isocyanate resin was mixed as a curing agent was impregnated in all layers by a gravure coating method. Impregnation amount is about 3 g / m²Met. Printing on the clay coat layer was able to apply printed matter that required a certain level of tone reproducibility such as vivid illustrations such as vegetables. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 20 N / 15 mm, There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
As a composite container, a polypropylene sheet having a thickness of 160 μm was used as an interior, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec and can print characters, barcodes, etc., but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also excellent with no defects.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0035]
<Example 3>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 150 sec.²A sheet-like fiber structure was used, and an acrylic resin was impregnated in all layers by a gravure coating method. Impregnation amount is about 3 g / m²Met. Printing on the clay coat was able to produce the required printed matter with a very high tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 15 N / 15 mm. There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
As a composite container, a polypropylene sheet having a thickness of 160 μm was used as an interior, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also excellent with no defects.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0036]
<Example 4>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 150 sec.²A sheet-like fiber structure was used, and all layers were impregnated by a gravure coating method with a resin in which an acrylic resin was mainly used and a polyisocyanate resin was mixed as a curing material. Impregnation amount is about 3 g / m²Met. Printing on the clay coat was able to produce the required printed matter with a very high tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 20 N / 15 mm. There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
As a composite container, a polypropylene sheet having a thickness of 160 μm was used as an interior, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also excellent with no defects.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0037]
<Example 5>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 150 sec.²A sheet-like fiber structure was used, and all layers were impregnated by a gravure coating method with a resin in which an acrylic resin was mainly used and an epoxy resin was mixed as a curing agent. Impregnation amount is about 3 g / m²Met. Printing on the clay coat was able to produce the required printed matter with a very high tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes to evaluate the physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 18 N / 15 mm, There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
As a composite container, a polypropylene sheet having a thickness of 160 μm was used as an interior, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also excellent with no defects.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0038]
<Example 6>
A basis weight of 70 g / m provided with a clay coat layer having a Beck smoothness of 150 sec.²The sheet-like fiber structure was impregnated with an epoxy resin by a gravure coating method. Impregnation amount is about 3 g / m²Met. Printing on the clay coat was able to produce the required printed matter with a very high tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 10 N / 15 mm. There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
The composite container has a polypropylene sheet with a thickness of 160 μm inside, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also good with no wrinkles.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0039]
<Example 7>
A basis weight of 70 g / m provided with a clay coat layer having a Beck smoothness of 150 sec.²The sheet-like fiber structure was impregnated with a nitrified cotton resin by a gravure coating method. Impregnation amount is about 3 g / m²Met. Printing on the clay coat was able to produce the required printed matter with a very high tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 10 N / 15 mm. There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
The composite container has a polypropylene sheet with a thickness of 160 μm inside, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment. Moreover, the state of the lid was also excellent with no defects.
A composite container that can withstand use in a washstand and kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0040]
<Example 8>
A basis weight of 50 g / m provided with a clay coat with Beck smoothness of 150 sec on one side²A fiber structure in which a polyisocyanate resin is impregnated in all layers by a gravure coating method, and a basis weight of 50 g / m.²A Beck smoothness of 15 sec and a fiber structure in which a polyisocyanate resin was impregnated in all layers by a gravure coating method and a clay coating layer was not provided was prepared by applying a polyurethane resin and bonding them together. Printing on the clay coat layer was able to apply a printed matter required at a very high level of tone reproducibility. CPP was constituted on the outermost surface of the printed matter.
When the packaging material prepared above was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change was 1% or less, and the tensile breaking strength in the wet state after taking out was 10 N / 15 mm. There was no damage. A packaging material that can be used as an exterior material that can withstand use in a washstand or kitchen, and that can withstand cooking in hot water and boil sterilization processes, has been obtained.
Next, two pieces of this package were bonded together and used as a pouch.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, there was no damage during and after hot water treatment. It was good with no wrinkles.
A container that can withstand use in a washbasin or kitchen, and that can withstand use in hot water cooking and boil sterilization processes as a food container has also been obtained.
[0041]
<Comparative Example 1>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 15 sec.²The sheet-like fiber structure was then impregnated with a polyisocyanate resin by a gravure coating method. Impregnation amount is about 3 g / m²Met.
Printing on the clay coat layer was possible only for POS level printing such as characters and barcodes. There was no problem with the physical properties in the hot water state.
[0042]
<Comparative example 2>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 15 sec.²The sheet-like fiber structure was impregnated with a polyisocyanate resin by a gravure coating method, but only 90% was impregnated in the thickness direction. Impregnation amount is about 2.5 g / m²Met.
Printing on the clay coat layer was possible only for POS level printing such as characters and barcodes. During the treatment with hot water at 95 ° C., the correlation between the impregnated layer and the non-impregnated layer was broken.
[0043]
<Comparative Example 3>
Basis weight of 35 g / m provided with a clay coat layer with Beck smoothness of 15 sec.²The sheet-like fiber structure was impregnated with a polyisocyanate resin by a gravure coating method, but only 90% was impregnated in the thickness direction. Impregnation amount is about 2.5 g / m²Met.
Printing on the clay coat layer was possible only for POS level printing such as characters and barcodes. It was destroyed during the treatment with hot water at 95 ° C.
[0044]
<Comparative example 4>
A basis weight of 120 g / m provided with a clay coat layer having a Beck smoothness of 15 sec.²The sheet-like fiber structure was impregnated with a rosin resin by a gravure coating method, but only 90% was impregnated in the thickness direction. Impregnation amount is about 3 g / m²Met.
Printing on the clay coat layer was possible only for POS level printing such as characters and barcodes. After treatment with hot water at 95 ° C., dimensional changes of 4% or more occurred, and wrinkles were generated. The tensile breaking strength in the wet state after taking out was 5 N / 15 mm, and there was only strength that could be broken if touched carelessly with a finger or the like. CPP was constituted in the outermost layer.
Next, it was used as a cover material for a composite container mainly composed of a fiber structure impregnated with all layers of resin.
As a composite container, a polypropylene sheet having a thickness of 160 μm was used as an interior, and a basis weight of 290 g / m impregnated with polyisocyanate as an exterior skeleton.²A tray-shaped composite container having a full capacity of 330 ml was used. The fiber structure used in the composite container has a Beck smoothness of 15 sec, and printing of characters, barcodes, etc. is possible, but tone printing that displays the contents has poor reproducibility. The lid member and the composite container were integrated with an impulse sealer via the lid member and the container film.
When the container was immersed in hot water at 95 ° C. for 60 minutes and evaluated for physical properties, the dimensional change of the container was 1% or less, and there was no damage during and after the hot water treatment, but the lid was damaged.
As described above, the printing level is low, and it cannot withstand use in a washstand or kitchen, and sterilization treatment such as retort and boiling.
[0045]
Wet tensile rupture strength of the fiber structures obtained in Examples 1 to 8 and Comparative Examples 1 to 4, measurement results of dimensional changes, printing state of sheet-like fiber structures before and after hot water treatment, ink adhesion, Table 1 shows the result of visual observation of the state of the container as the composite container.
[0046]
[Table 1]

[0047]
【The invention's effect】
According to the present invention, a packaging material composed of a fiber structure having excellent water resistance and heat resistance, and excellent printability, and cooking by boil sterilization treatment, retort sterilization treatment, hot water treatment, etc. using the same is possible. Thus, it has become possible to provide a composite container and a bag-like container having excellent cosmetic properties.
The packaging material comprising the fiber structure of the present invention is a metal container or plastic bottle label used in bathrooms with greatly improved reproducibility in conventional printing, and a paper container lid for food that is cooked and sterilized with hot water. It is preferably used for bottom materials and labels.
[0048]
Moreover, in a composite container composed of an interior plastic container and an exterior fiber structure container, by applying the packaging material composed of the fiber structure of the present invention to the exterior container, it has excellent printing reproducibility, water resistance and heat resistance water physical properties. A composite container and a bag-like container that can be cooked by boil sterilization, retort sterilization, and hot water treatment can be provided.

Claims (7)

A sheet-like cellulose fiber structure having a printed layer composed of a clay coat layer having a Beck smoothness of 50 sec or more on one side and a basis weight of 200 g / m ² or less, and the fibers of the cellulose fiber structure 3 g / m ^{2 of} a resin obtained by mixing one type of resin selected from polyurethane-based resins, polyisocyanate-based resins, acrylic resins, epoxy resins, and nitrified cotton-based resins, or two or more types of resins in all layers. An impregnated cellulose structure (A) having a printing layer to be impregnated, the wet tensile strength of the impregnated cellulose structure (A) is 9.8 N / 15 mm or more, and the dimensional change before and after wetting is 1% A packaging material having hot water resistance, characterized by:   The packaging material having hot water resistance according to claim 1, wherein the cellulose fiber structure is formed by laminating an adhesive layer made of an adhesive on the outermost layer opposite to the printed layer (clay coat layer). A packaging material having hot water resistance, which is a structure (B).   The packaging material having hot water resistance according to claim 1, wherein the impregnated cellulose structure is formed by laminating one or more thermoplastic plastic films on the surface opposite to the printing layer (clay coat layer). A packaging material having hot water resistance, which is a product (C).   The impregnated cellulose structure (A) in the packaging material having hot water resistance according to claim 1, or the impregnated cellulose structure (B) in the packaging material having hot water resistance according to claim 2, or the hot water resistance according to claim 3. A composite container having hot water resistance, characterized in that the impregnated cellulose structure (C) in the packaging material having the above is used as one or more kinds selected from any one of a cover material, a bottom material and a label material of the container. A sheet-like cellulose fiber structure having a printed layer composed of a clay coat layer having a Beck smoothness of 50 sec or more on one side and a basis weight of 500 g / m ² or less, and the fibers of the cellulose fiber structure 3 g / m ^{2 of} a resin obtained by mixing one type of resin selected from polyurethane-based resins, polyisocyanate-based resins, acrylic resins, epoxy resins, and nitrified cotton-based resins, or two or more types of resins in all layers. An impregnated cellulose structure (A) having a printing layer to be impregnated, the wet tensile strength of the impregnated cellulose structure (A) is 9.8 N / 15 mm or more, and the dimensional change before and after wetting is 1% The following impregnated cellulose structure (A) is used as one or more kinds selected from any one of a lid material, a bottom material, and a label material of a container. A composite container having hot water.   6. The composite container having hot water resistance according to claim 5, wherein the container body is a plastic container. The impregnated cellulose structure (A) in the packaging material having hot water resistance according to claim 1 or the impregnated cellulose structure (B) in the packaging material having hot water resistance according to claim 2 or the packaging having hot water resistance according to claim 3. A bag-like container, wherein the impregnated cellulose structure (C) in the material is formed into a bag shape such as a pouch or a bag.