JP3996943B1 - Printed laminate and method for producing the same - Google Patents

Abstract

In a laminate in which a film and a sheet-like substrate are bonded together, the laminate is flexible in texture, and a clear printed image can be easily and economically formed, and the obtained printed layer is rubbed. Provided are a printed laminate that is less prone to detachment of a printing layer itself and bleeding due to fluffing, and a method for producing the same. In addition, various materials such as packaging materials excellent in aesthetics using the laminate, and products such as heating elements such as warmers and heating tools, raincoats, bags, rugs, and medical sheets are provided.
A film having a printing layer made of an adhesive composition containing a colorant, and a sheet-like substrate laminated with the film through the printing layer, and at least of the film and the sheet-like substrate. One of the laminates is transparent or translucent.
[Selection figure] None

Description

  The present invention relates to a laminate in which layers are bonded by a printed adhesive composition, in particular, a laminate on which patterns, characters, images, etc. are printed, and a product using the laminate (for example, a package for a heat generating composition-containing bag). Material, a storage bag, a heating element, and the like) and a method of manufacturing the laminated body.

As a method for printing on the laminate, (1) a method for producing a laminate by forming an adhesive layer on a printing surface after printing on a sheet constituting the laminate, and (2) 2. Description of the Related Art Conventionally, a method of printing on the surface of a laminate after manufacturing the laminate has been performed.
The method (1) is the most general, but has a problem that the texture becomes hard. The method (2) has a problem that printing becomes gradually unclear due to rubbing during use of the product because the printed surface is often the surface of the final product. This problem is particularly important when printing is applied to surfaces that are inferior in retention of printing ink, such as paper, cloth, nonwoven fabric, and the like.

  For example, it is generally used for a heating element composed of a breathable bag containing a heat generating composition that generates heat upon contact with air, which is widely used as a medical device for reducing pain due to heat and a warmer for cold protection. The laminated body including a nonwoven fabric and a porous film, and the laminated body of a nonwoven fabric and a non-breathable film are obtained by bonding a film and a breathable base material such as a nonwoven fabric through a porous adhesive layer. There existed what performed the printing process on the outer surface (for example, patent document 1). In order to improve the problems such as dropping of the printed layer due to rubbing, etc., and stagnant printed content due to fluffing, the porous film and a non-woven fabric or other breathable substrate are bonded via a breathable adhesive layer. A method of coloring a laminated porous substrate (for example, Patent Document 2) in which one or both of the porous film and the breathable substrate have a printed layer on the adhesive surface side, or the breathable adhesive layer itself ( For example, Patent Document 3) has been proposed.

  However, what adhere | attaches the air permeable base material which has a printing layer, and a porous film with an air permeable adhesive layer has the problem that the clearness of a printed image is insufficient, or the number of processes increases and it is not economical. . In addition, in the method of coloring the breathable adhesive layer itself, since the fiber-forming adhesive substance is heated and melted and sprayed and developed through hot air, it is difficult to perform normal printing to form various patterns. There is a problem that even if it can, a satisfactory aesthetic product is difficult to obtain, and the texture becomes hard.

JP-A-8-131472 JP 2000-42021 A JP 2000-126217 A

  An object of the present invention is a laminate in which a film and a sheet-like base material are bonded to each other, and is a laminate having a soft texture. A clear printed image can be easily and economically formed, and the obtained printed layer An object of the present invention is to provide a printed laminate that hardly causes the printed layer itself to fall off due to rubbing and bleeding due to fluffing, and a method for producing the same. In addition, the present invention provides various materials such as packaging materials having excellent aesthetics using the laminate, and products such as heating elements such as warmers and heating tools, raincoats, bags, rugs, and medical sheets. Also aimed at.

In order to achieve the above-mentioned problems, the present inventors have intensively studied to arrive at the present invention.
That is, the present invention includes a film having a printing layer made of the adhesive composition comprising a wearing colorant, and a sheet-like substrate that is laminated to the film through the printing layer, the film and sheet-like base A laminate characterized in that at least one of the materials is translucent ; and an adhesive composition containing a colorant is printed on a film to form a printed layer, and the printed layer and the sheet-like substrate are Provided is a method for producing a laminate, wherein at least one of the film and the sheet-like base material is translucent, comprising superposing and adhering.
In particular,
[1] A film having a printed layer made of an adhesive composition containing a colorant, and a sheet-like substrate laminated with the film via the printed layer, the film being opaque or translucent, A packaging material comprising a laminate having air permeability, wherein the sheet-like base material is translucent paper or non-woven fabric;
[2] The packaging material according to [1], wherein the film is a non-porous film;
[3] The packaging material according to [1], wherein the film is a porous film;
[4] The packaging material according to [1], wherein the printed layer is formed on the entire surface of the film;
[5] The packaging material according to [1], wherein the printing layer is partially formed on the film;
[6] The packaging material according to any one of [1] to [5], wherein the printing is gravure printing;
[7] The packaging material according to any one of [1] to [6], wherein the paper or the nonwoven fabric is used on the outside;
[8] The packaging material according to any one of [1] to [7], which is used for a bag for containing a heat-generating composition that contains water and generates heat in the presence of air;
[9] A heating element comprising at least one surface containing the exothermic composition in the exothermic composition containing bag formed of the packaging material according to [8];
[10] An adhesive composition containing a colorant is printed on an opaque or translucent film to form a printed layer, and this printed layer is superimposed on a sheet-like substrate that is a translucent paper or nonwoven fabric. The method for producing a packaging material according to any one of [1] to [8], comprising bonding .

The laminate of the present invention has the following effects.
(1) Since the printing layer formed on the film is made of the adhesive composition, the printed image can be formed and the sheet-like substrate can be bonded in one layer. Conventionally, the printing process and the bonding process are separated, but in the present invention, printing and bonding (laminating) can be performed simultaneously, and the process is simplified, which is economical.
(2) The laminate composed of a film and paper or nonwoven fabric has wettability with the fibers constituting the paper or nonwoven fabric because the image printed on the film is in direct contact with the paper or nonwoven fabric and the image is also an adhesive. The printed image looks clear.
(3) Since only the printed part is adhered (partial lamination), the texture is soft.
(4) Since the printing layer is located not on the surface of the laminate but in the intermediate layer between the film and the sheet-like substrate, there is no peeling of the printing layer due to surface rubbing or the like, and clear printing is maintained for a long time.
(5) A printed pattern (image) rich in design can be easily formed. Further, since the printed portion is also in close contact with the laminated sheet-like substrate, the design is clear.
(6) When a laminate having air permeability is produced, the location of the printed image closes the pores of the porous film, so that the air permeability can be adjusted by selecting the printing area. In particular, stable airflow control can be achieved by printing with gravure printing. Since the printed part is colored, air permeability can be verified by observing the coloring.

Any conventionally known film can be used as the film used in the laminate of the present invention. The film may be a non-porous film (non-porous film) or a porous film. Moreover, the film itself may be a single layer or a multilayer. Examples of the resin constituting the film include polyethylene, polypropylene, polyester, polyamide, polyvinyl alcohol, polyvinyl chloride, polyvinylidene chloride, polyurethane, polystyrene, ethylene-vinyl acetate copolymer, polycarbonate, and hydrochloric acid rubber. It is done.
The thickness of the film is not particularly limited, whether it is a non-porous film or a porous film. The resin constituting the film, the type / configuration of the film, the thickness, and the like can be appropriately selected by those skilled in the art according to the intended use and purpose of the laminate.

  When it is desired that the film be breathable, a porous film may be used, but a breathable film that is perforated by a needle hole or the like in a non-porous film can also be used. In general, a stretched porous film is preferred. Micropores (for example, average pore diameter of 0.1 to 3 μm) are formed by stretching the film in which the inorganic material is kneaded, and air permeability is exhibited. By controlling the pore diameter, the air permeability can be controlled. The pore diameter can be easily changed by changing manufacturing conditions such as stretching conditions. A commercially available product can be used as the porous film. Since the air permeability of the air permeable film is controlled to be smaller by subsequent printing, the air permeability of the film at this time is not particularly limited. For example, the laminate is a packaging material for a bag for containing a heat generating composition. When it is used, it is preferably 500 to 60,000 seconds / 100 cc by JIS P-8117 method (Gurley method), more preferably 1,000 to 50,000 seconds / 100 cc. A white or milky white olefinic (particularly polyethylene) stretched porous film is preferred.

The sheet-like substrate to be bonded to the film may be a sheet, and may be a cloth (woven fabric, non-woven fabric) or paper .

However, the combination of the film and the sheet-like substrate is selected so that the film is opaque or translucent and the sheet-like substrate is translucent . Here, the term “transparent or translucent” means that the color of the printing layer below it or the image represented by the printing layer is visible. That is, the laminate of the present invention, when viewed sheet over preparative shaped substrate side or al, or even from either side, configured to show through the printed layer.
Transparent or semi-transparent means, specifically, an average of three times when a sheet-like base material is measured at an illuminance of 10,000 lux ± 5% in accordance with a “curtain shading test” (JIS L1055-1987) A method. Is preferably 80% or less, more preferably 65% or less, and particularly preferably 50% or less. If it is 80% or less, the image on the printed layer can be seen through, and if it is 65% or less, the image can be seen more clearly.

  When it is desired that the sheet-like substrate is breathable, the sheet-like substrate is generally a nonwoven fabric or paper. As the paper, any paper such as Japanese paper, cardboard, craft paper or the like can be used. As the nonwoven fabric, any conventionally used nonwoven fabric can be used, including artificial fibers such as nylon, vinylon, polyester, rayon, acetate, acrylic, polyethylene, polypropylene, polyvinyl chloride, and natural fibers such as cotton, hemp, silk, etc. Nonwoven fabrics in the form of spunbond, thermal bond, spunlace and the like can be mentioned. For example, when the laminate of the present invention is a packaging material for accommodating a heat generating composition, generally a nonwoven fabric such as nylon, polyester, rayon or the like is preferably used.

  The laminate of the present invention is obtained by laminating the above film and a sheet-like base material such as a nonwoven fabric through a printing layer (adhesive layer). This printing layer has a colorant on the film. The adhesive composition is transferred.

  Examples of the colorant used in the adhesive composition include organic and inorganic pigments and dyes used in general inks, paints, and recording agents. Organic pigments include azo, phthalocyanine, anthraquinone, perylene, perinone, quinacridone, indigo, thioindigo, dioxazine, isoindolinone, quinophthalone, azomethine azo, pyrrole, dictopyrrolopyrrole, Examples thereof include pigments such as isoindoline-based, metal complex salts, and fluorescent pigments. Examples of inorganic pigments include carbon black, titanium oxide, zinc oxide, zinc sulfide, barium sulfate, calcium carbonate, chromium oxide, silica, bengara, aluminum, kaolin clay, talc, mica (mica), and the like. Examples of dyes include water-soluble dyes such as acid dyes, acid mordant dyes, direct dyes, and reactive dyes, and oil-soluble dyes such as monoazo, disazo, metal complex, anthraquinone, phthalocyanine, triallylmethane, and perylene dyes. Etc. Among these, a pigment is preferable, and an inorganic pigment is more preferable in terms of heat resistance. Moreover, you may apply a commercial item as a coloring agent. Commercial pigments often contain a dispersant.

The adhesive composition in the present invention may be any of a hot melt type, a solution type, and an emulsion type, and may be either a solvent type or an aqueous type, and can be appropriately selected depending on circumstances. With regard to the solvent system, the deterioration of the working environment is regarded as a problem, and there is a problem of environmental pollution caused by the solvent due to a large capital investment for countermeasures. From the point of no such problem, the adhesive composition is preferably an aqueous system.
The adhesive component in the adhesive composition adheres the film and the sheet-like base material, and is preferably made of a material that can provide such a function. From the viewpoint of printability, in the present invention, components that are used in printing ink and that have good adhesion can be preferably used. For example, one or more of the materials listed below are used in combination. When the following resins are appropriately used in consideration of compatibility, improvements in printing quality, adhesiveness, and other various resistances can be expected.

  Specifically, solvent-based adhesives include non-chlorinated polyolefin, acrylic resin, polyamide, polyurethane, ketone resin, polyvinyl butyral, epoxy resin, ethylene / vinyl acetate resin, vinyl acetate resin, vinyl chloride / vinyl isobutyl ether. A copolymer etc. are mentioned.

  Water-based adhesives include water-based and water-dispersed systems, and water-based resins used for water-based paints, inks, water-based binders and the like are preferably used. Specific examples of the water-based adhesive include maleic acid / styrene copolymer, maleic acid / (meth) acrylic acid ester copolymer, acrylic acid / styrene copolymer, acrylic acid / (meth) acrylic acid ester. Examples thereof include a copolymer, polyurethane, polyamide resin, casein, polyvinyl alcohol, and one or a combination of two or more cellulose ethers such as hydroxyethyl cellulose, hydroxypropyl cellulose, and carboxymethyl cellulose. Water-dispersed adhesives include polyvinyl acetate, poly (meth) acrylic ester, polyvinyl chloride, ethylene / vinyl acetate copolymer, vinyl acetate / acrylic ester copolymer, styrene / acrylic ester copolymer Examples thereof include vinylidene chloride / acrylic acid ester copolymer, vinyl chloride / vinyl acetate copolymer, and polyurethane. A water-dispersed resin is preferred from the viewpoint of water resistance.

  Examples of the dispersion form include emulsification and suspension. Preferably, the dispersion form is fine emulsification (emulsion). In this case, a dispersant, a protective colloid, and a surfactant may be added, or those synthesized by soap-free emulsion polymerization may be used. In the case of an emulsion, even at a high concentration, the viscosity is low, the workability is good, and a small film thickness is obtained, and the drying property is also good. Among the above acrylic resin emulsion can be preferably used, in particular acrylic resin emulsion obtained by emulsion polymerization of monomers selected from one or more of acrylic acid, methacrylic acid, acrylic ester, methacrylic ester, and the like, and Other monomers that can be copolymerized with these monomers, for example, acrylic resin copolymer emulsions obtained by emulsion copolymerization with styrene, vinyl acetate, acrylonitrile, N-methylolacrylamide, glycidyl methacrylate, etc. are particularly preferably used. it can.

  In addition, when printing images on polyolefin films such as polypropylene, the same materials used for gravure inks such as polyurethane, polyamide / nitrified cotton, and chlorinated polyolefin can be used. From the viewpoint of properties, a chlorinated polypropylene (hereinafter referred to as chlorinated PP) adhesive composition can be used. Chlorinated PP, which is the main resin of chlorinated PP inks, disperses organic pigments and inorganic pigments used as colorants, while overwhelming other resins in terms of adhesion to polyolefin films and PP extrusion laminate strength. It has the disadvantage of poor properties. Therefore, for dispersion of pigments, ethylene / vinyl acetate copolymer (EVA), vinyl chloride / vinyl isobutyl ether copolymer, chlorinated ethylene, which are compatible with chlorinated PP and have relatively good pigment dispersibility. / Resin such as vinyl acetate copolymer fat (chlorinated EVA) is used.

  The adhesive composition according to the present invention contains the above colorant and adhesive, but in order to improve printing quality and various resistances, an organic solvent, a crosslinking agent, a wax, and a pigment dispersant are used as necessary. Additives such as leveling agents, antifoaming agents, surfactants and plasticizers can be added. In particular, if the adhesive composition is water-based, additives such as a friction resistance improver, a thickener, and an anti-blocking agent can be used to impart the properties.

  The organic solvents are mainly alcohol organic solvents such as methanol, ethanol, n-propanol, isopropanol, butanol, ketone organic solvents such as acetone, methyl ethyl ketone, methyl isobutyl ketone, methyl acetate, ethyl acetate, propyl acetate, acetic acid. Ester organic solvents such as butyl, aliphatic hydrocarbon organic solvents such as n-hexane, n-heptane and n-octane, and alicyclic hydrocarbons such as cyclohexane, methylcyclohexane, ethylcyclohexane, cycloheptane and cyclooctane Based organic solvents. These organic solvents are used by appropriately mixing in consideration of drying properties and the like. In particular, organic solvents that can be used in aqueous adhesive compositions include water-miscible solvents such as lower alcohols such as methanol, ethanol, n-propanol, and isopropanol, ethylene glycol, propylene glycol and their alkyl ethers, and glycerin. And can be used together as necessary for the purpose of improving the transferability and leveling of the components.

  The mixing ratio of each component of the adhesive composition used for printing is preferably 0.3 to 10 parts by weight of the colorant and 0 to 20 parts by weight of the additive with respect to 100 parts by weight of the adhesive (solid content). More preferably, the colorant is 0.5 to 5 parts by weight and the additive is 0 to 15 parts by weight.

The adhesive composition in the present invention can be produced by mixing a colorant, an adhesive and the like and dissolving and / or dispersing them in a medium such as an organic solvent or water. When using a medium, specifically, a pigment dispersion in which a pigment and an adhesive are dispersed in an organic solvent or water is produced, and other compounds are blended with the obtained pigment dispersion as necessary. Thus, an adhesive composition can be produced. The particle size distribution of the pigment in the pigment dispersion is adjusted by appropriately adjusting the size of the grinding media of the disperser, the filling rate of the grinding media, the dispersion processing time, the discharge speed of the pigment dispersion, the viscosity of the pigment dispersion, etc. can do. As the disperser, generally used, for example, a roller mill, a ball mill, a pebble mill, a bead mill, an attritor, a sand mill and the like can be used.
When this adhesive composition is applied to printing to be described later, the viscosity is further adjusted with water or a solvent so as to be optimal for printing to which the viscosity is applied.

The printed layer in the present invention is a layer made of the above-mentioned adhesive composition printed on a film, and is located in an intermediate layer between the film and the sheet-like substrate. This printed layer may be formed over the entire film or may be formed on a part of the film (the portion printed between the film and the sheet-like substrate (print layer) and not printed) Both of the parts may be present).
The printed layer is substantially non-breathable. Therefore, the portion where the printed layer is present in the laminate has little or no breathability. In particular, when printing on a porous film, the pores of the porous film are blocked by the printing of the adhesive composition, thereby reducing the air permeability. By controlling the area), the air permeability of the porous film before printing can be lowered and controlled to a predetermined air permeability. The same applies to a breathable sheet-like substrate other than the porous film. The printing area varies depending on the desired degree of air permeability control, and an image may be determined according to the degree.
On the other hand, a certain printing area is required from the viewpoint of reliable adhesion between the film and the sheet-like substrate. In the case of producing a breathable laminate, the printing area is preferably 10 to 95%, more preferably 15%, based on the total printable area of the film, in terms of both adhesion and breathability control. ~ 80%. When the printing area is 10% or more, the laminating property is better, and when it is 95% or less, the air permeability and the texture are flexible.

  Regardless of the control by the printing area, the air permeability of the entire laminate can be changed in the direction in which the air permeability increases, for example, by punching with a needle after manufacturing the laminate. In this way, a breathable laminate can also be obtained from a combination of a non-porous (or non-breathable) film and a non-breathable sheet-like substrate.

  An image can be formed by the printing layer. Here, the image means a picture, a character, a pattern (certain figure, point, straight line, curve, etc.) or a repetition thereof (for example, checkered pattern, polka dot pattern, etc.). Multicolor printing may be performed using several different colored adhesive compositions.

  The printing method may be any known method such as gravure printing, engraving printing, intaglio printing method such as gravure offset printing, stencil printing method such as silk screen printing, relief printing method such as flexographic printing, and flat plate method such as offset printing. Although it can be a system, gravure printing is preferable in consideration of the clear quality of the printed pattern on the film in the present invention and the bonding step with the next sheet-like substrate (particularly in the case of a nonwoven fabric or the like). The printing conditions conform to the normal usage conditions of the printing press.

  Next, a sheet-like base material is laminated and bonded onto the printed film. Examples of the method include known methods such as hot melt, dry, and wet methods. From the standpoint of clarity, the dry and wet methods are preferred.

Since the laminate of the present invention thus obtained has the same printed layer and adhesive layer, the resin content is less and the texture is softer than conventional laminates having both the printed layer and adhesive layer. It is. Also in the laminate of the present invention, the texture in which the printing layer is partially formed becomes softer as much as the resin content is smaller than that in which the printing layer is entirely formed.
In the laminate of the present invention, the image printed on the film is very clear. The reason why the image looks clear is inferred as follows. In printing on sheet-like substrates in the prior art, especially air-permeable sheet-like substrates, there is a gap between the fibers, and coarseness is also caused by use, so the printed image is not clear, on the other hand, after forming the printed image on the film When the adhesive is applied, an image is seen through the sheet-like base material and the adhesive layer, and the sharpness is still lacking. On the other hand, in the laminate of the present invention that can be printed and bonded in a single layer, the image can be seen only through the sheet-like substrate, and the printed image is also an adhesive, so the sheet-like substrate The wettability with the fibers constituting the film is good, and the printed image can be seen more clearly optically. Although the above has described the case where the sheet-like substrate is transparent or translucent, the same is basically true when the film is translucent.

The laminate of the present invention can be applied to a very wide range of purposes and uses by appropriately selecting the combination of a film and a sheet-like substrate, the printing method and printing area, the air permeability of the entire laminate, and the like. It is possible.
For example, the laminate of the present invention, such as those produced using the nonwoven fabric as a sheet-like substrate can be used as a packaging material having the appearance and function. Specifically, it can be used as a packaging sheet for various products such as food, clothing, and books, and as an exterior material for a high-end cosmetic box. When a highly decorative paper such as Japanese paper is used as the sheet-like substrate, a packaging sheet suitable for wrapping flower pots and bouquets can be obtained.
Furthermore, the laminate of the present invention produced using a non-porous film or a breathable film as a film and a nonwoven fabric as a sheet-like base material has both waterproofness of the film surface and flexible touch and sweat absorption of the nonwoven surface, and It can be used as a simple raincoat with a beautiful appearance and as a fabric for various bags .
The laminate of the present invention can also be used as various medical or hygienic sheets. For example, the laminate of the present invention produced using a nonwoven fabric and a film can be applied to medical sheets, surgical masks, surgical clothes, and the like.

  The specific example illustrated above is one end of the use of the laminate of the present invention, and the laminate of the present invention can be used for the same use as described above with a configuration different from the above. It can be used in various configurations for many uses other than those described above.

  One example of the maximum use of the advantages of the laminate of the present invention is as a packaging material for a heat generating composition-containing bag. As the laminate of the present invention particularly suitable for the exothermic composition-containing bag, those using a conventionally used porous film and nonwoven fabric can be used. What is necessary is just to control the air permeability of a laminated body in the range comparable as what is used now.

  The adhesive strength between the porous film and the nonwoven fabric in the breathable sheet for the exothermic composition-containing bag is preferably 2.0 (N / 25 mm) or more, more preferably 3 by the following test method (T peel test). 0.0 (N / 25 mm) or more. When the adhesive strength is 2.0 (N / 25 mm) or more, there is no problem of peeling in actual use even if it is used as a heat-generating composition-containing bag. In addition, naturally the adhesive force of a film and a sheet-like base material can differ from the above by the use etc. of a laminated body.

(Adhesive strength test method)
A test piece having a width of 25 mm and a length of 150 mm is attached to an autograph (AGS-50NG, manufactured by Shimadzu Corp.) with a chuck distance of 50 mm, and is performed at a peeling rate of 23 ° C. and 300 mm / min.

  The exothermic composition enclosed in the exothermic composition-containing bag formed with at least one surface by the laminate of the present invention is a composition that generates heat in contact with oxygen, and a conventionally known one can be used, and its manufacturing method is also It is well known. In general, metal powder such as iron powder that generates heat due to oxidation reaction and water are essential components, and water retention such as activated carbon, inorganic chlorides such as salt and potassium chloride, and water-absorbing polymers, vermiculite, sawdust, silica-based substances, etc. A composition containing an agent or the like is used. For example, assuming that the weight of the exothermic composition is 100%, iron consists of 35 to 80% by weight, activated carbon 1 to 10% by weight, chloride 1 to 10% by weight, water 5 to 45% by weight, and water retaining agent 1 to 45% by weight. Things. The exothermic composition is generally a powder (including particulates), but may be formed into a sheet by means of alcohol inclusion, pressurization or the like (for example, JP-A 2000-60886, WO 00 / 13626).

The manufacturing method of the heating element of the present invention may be a normal manufacturing method. For example, the heating composition may be enclosed after the heating composition containing bag is produced, and the heating composition is placed on one side of the packaging material. Thereafter, the packaging material on the other surface may be laminated to form a bag. The latter is preferable from the viewpoint of efficiency. Further, one or both sides of the bag may be a breathable sheet or one side may be a non-breathable sheet, but at least one side of the exothermic composition-containing bag is preferably a breathable sheet.
The heating element thus obtained may be a so-called “do not stick” type heating element that does not use an adhesive, or may be used as a “sticking” type heating element that is attached to clothes or skin. Conventionally known materials and methods can be used for the pressure-sensitive adhesive, heat seal and the like in the production of the heating element of the present invention.

  In the heating element of the present invention, when an adhesive is used, the surface of the adhesive layer is covered with a release sheet when not used. Any material may be used for the release sheet as long as it is conventionally used for a coating sheet for an adhesive layer of a heating element, that is, a release sheet. The heating element of the present invention (however, in the case of using an adhesive, remains covered with a release sheet) is stored in an outer bag. The outer bag is made of a moisture-resistant and air-impermeable material. Since the outer bag is non-breathable, the heating element cannot be contacted with air (oxygen) and therefore does not undergo a chemical reaction and is stored without generating heat. When the outer bag is opened, air (oxygen) passes through the breathable sheet and reaches the exothermic composition, thereby starting a chemical reaction and releasing reaction heat. A typical example of the outer bag material is a laminate of an aluminum thin layer and a polymer film. The heating element of the present invention is usually stored sealed in a bag that is substantially impermeable to oxygen until use after production.

Hereinafter, the present invention will be described in more detail with reference to examples, but the present invention is not limited thereto. Parts represent parts by weight.

(Manufacture of adhesive composition-1)
4.0 parts by weight (0.60 parts by weight as a pigment) and an acrylic pigment containing a dispersant (a quinacridone pigment manufactured by Nippon Paint Co., Ltd., trade name “Nippe Color Max W Eco”, pigment concentration 15%, sinker red) 196 parts by weight (100 parts by weight as a solid content) of a system emulsion adhesive (trade name “Rikabond AP-60L”, manufactured by Chuo Rikagaku Kogyo Co., Ltd., solid content 51.0%), kneaded using a sand mill, and water-based Adhesive composition-1 was obtained.

(Manufacture of adhesive composition-2)
8.2 parts by weight (2.05 parts by weight as a pigment) of a pigment diluted with an organic solvent (trade name “MULTILACA-431 RED”, pigment concentration 25%, manufactured by Toyo Ink Manufacturing Co., Ltd.) and a polyester solvent adhesive ( Manufactured by Toyo Morton Co., Ltd., main agent: 50% solid content of trade name “AD-502”: 286 parts by weight, curing agent: 75% solid content of trade name “CAT-10”: 20 parts by weight, diluent: ethyl acetate: 510 parts by weight) 816 parts by weight (100 parts by weight as a solid content) were added and kneaded using a sand mill to obtain a solvent-based adhesive composition-2.

Example 1
After adjusting the viscosity of the adhesive composition-1 to an appropriate printing viscosity, a polyethylene porous film (manufactured by Kojin Co., Ltd., air permeability: 10,000) was obtained by a gravure printing machine engraved with a lattice pattern having a plate depth of 80 μm. Second / 100 cc, JIS P-8117) at a printing speed of 50 m / min (printing area 17%). Polyester spunlace-based non-woven fabric 7830A (manufactured by Shinwa, weight per unit area: 30 g / m ² ) on a polyethylene porous film printed in a semi-dry state through a dryer (temperature of 40 ° C. to 50 ° C. for 15 seconds) Then, the laminate A of the present invention (air permeability: 25,000 seconds / 100 cc) was dried by passing through a drier (temperature of 40 ° C. to 50 ° C. for 30 seconds). JIS P-8117) was obtained.
A red lattice pattern was clearly visible through the nonwoven fabric.

(Example 2)
In the same manner as in Example 1 except that the adhesive composition-2 was used instead of the adhesive composition-1, and the polka dot engraving was used instead of the lattice engraving, the laminate B ( Air permeability: 25,000 seconds / 100 cc, JIS P-8117) was obtained (printing area 27%).
A red polka dot pattern was clearly visible through the nonwoven fabric.

(Example 3)
Example 1 except that a non-breathable low-density polyethylene film (manufactured by J Film Co., Ltd., 40 μm thick) was used instead of the polyethylene porous film, and a grass pattern engraving was used instead of the lattice engraving. In the same manner as above, a laminate C of the present invention was obtained (printing area 20%).
A red grass pattern was clearly visible through the nonwoven fabric.

(Example 4)
The heating element (95 mm × 130 mm) of the present invention was produced as follows.
Non-breathable low density polyethylene on the laminate A (breathable substrate A) obtained in Example 1 above and the polyester spunlace nonwoven fabric 7840 (polyester spunlace, manufactured by Shinwa Co., Ltd., basis weight: 40 g / m ² ). A non-breathable sheet laminated with a film made by J Film Co., Ltd. (40 μm thick) is laminated with the polyethylene surfaces facing each other inside, and after heat-sealing the three sides of the periphery, 20 g of exothermic composition (iron powder 55. 0 parts, activated carbon 7.0 parts, NaCl 2.0 parts, water 29.9 parts, "Sunfresh ST-571" (manufactured by Sanyo Chemical Co., Ltd., water absorbent resin) 3.0 parts, vermiculite 3.1 parts) And the other one of the peripheral part was heat-sealed.
A heating agent I of the present invention was produced by applying an adhesive to a non-breathable non-woven fabric and pasting a release sheet thereon.

(Example 5)
Non-breathable low-density polyethylene film (J film, 40μ thickness) is laminated on one side of a polyester spunlace nonwoven fabric 7840 (same as above), and an adhesive is applied on the opposite side, and a release sheet is formed thereon. Place the non-breathable sheet with the film face up, fill the exothermic composition 20g on it, and laminate B (breathable substrate B) obtained in Example 2 from there. It covered so that it might overlap, and the four peripheral parts were heat-sealed, and the heat generating body II of this invention was produced.

(Example 6)
The laminate C of the present invention obtained in Example 3 was perforated with a needle to obtain a breathable laminate.
A heating element III of the present invention was produced in the same manner as in Example 4 except that this perforated laminate C was used instead of the laminate A.

(Comparative Example 1)
A grid pattern was printed on a polyester spunlace nonwoven fabric 7830A using a gravure printing machine with gravure ink (trade name: “Fine Star” manufactured by Toyo Ink Co., Ltd.) (printing area 17%). On the other hand, a mixed liquid having a composition obtained by removing the pigment from the composition of the adhesive composition-1 on a porous film (manufactured by Kojin Co., Ltd., air permeability 10,000 seconds / 100 cc, corona discharge treated, surface tension 40 dyne). In the same manner as in Example 1, a grid pattern was printed by a gravure printing machine, and the printed surface of the spunlace nonwoven fabric printed above was laminated thereon to laminate a comparative laminate D (air permeability: 25, 000 seconds / 100 cc).
A comparative heating element IV was produced in the same manner as in Example 4 except that this laminate D was used instead of the laminate A.

(Comparative Example 2)
A lattice pattern is printed on a porous film (manufactured by Kojin Co., Ltd., air permeability of 10,000 seconds / 100 cc) using a composition in which the viscosity of the adhesive composition-1 is adjusted to an appropriate printing viscosity (printing) Area 17%), a hot melt adhesive is sprayed in the form of a thread (adhesive application area 18%), and a polyester spunlace-based nonwoven fabric 7830A is further laminated thereon to obtain a laminate E (air permeability: 30, 000 seconds / 100 cc).
A comparative heating element V was produced in the same manner as in Example 4 except that this laminate E was used in place of the laminate A.

(Comparative Example 3)
Instead of spraying the hot melt adhesive in the form of thread, Comparative Example 2 except that the liquid of the composition excluding the pigment from the composition of the adhesive composition-1 was applied on the entire surface (adhesive application area 100%) The laminated body F was obtained similarly. This laminate F was perforated with a needle to obtain a breathable laminate.
In Example 4, a comparative heating element VI was produced in the same manner as in Example 4 except that this perforated laminate F was used instead of the laminate A obtained in Example 1.

(Test example)
About the said laminated bodies A-F, the clarity of the printed pattern was evaluated. Moreover, the adhesive force of the laminated bodies A to F was measured by the T peel test.
Furthermore, about exothermic body I-VI, the release sheet was peeled off and the texture was evaluated.
The texture and clearness were evaluated by 25 people, and the number of people who felt that the texture was soft and tactile and the number of people who felt that the image was clear by naked eye determination were described.
The results are shown in Table 1.

(Example 7)
After adjusting the viscosity of the adhesive composition-1 to an appropriate printing viscosity, a gravure printing machine in which a flower pattern of plate depth 80 μm is engraved on a polyethylene porous film (manufactured by Kojinsha) with a thickness of 100 μm Was printed at a printing speed of 50 m / min (printing area 30%). Further, the polyethylene porous film was passed through a dryer (temperature of 40 ° C. to 50 ° C. for 15 seconds), and a polyester spunlace nonwoven fabric 7830A was bonded thereon, and further, the dryer (temperature of 40 ° C. to 50 ° C. for 30 seconds). ) To obtain a laminate of the present invention (breathable sheet, air permeability: 300 seconds / 100 cc).
This sheet is breathable but impervious to water. A raincoat having a nonwoven fabric inside was produced using this sheet. When I tried it on, it was comfortable because it was soft and not tidy, and the red floral pattern was clearly visible from the inside and outside.

(Example 8)
In Example 7, a non-porous polyethylene film (manufactured by J Film Co., 30 μm) was used instead of the polyethylene porous film, and the reverse side was seen through instead of the polyester spunlace nonwoven fabric 7830A (shading ratio: 56. 7%) was used, and the others were carried out in the same manner as in Example 7 to obtain a laminate (non-breathable sheet) of the present invention.
When this was cut into 50 cm x 50 cm and used as a bouquet wrapping, a red floral pattern was clearly visible through Japanese paper.

Claims (10)

A film having a printing layer made of an adhesive composition containing a colorant, and a sheet-like substrate laminated with the film via the printing layer, the film being opaque or translucent, A packaging material comprising a breathable laminate , wherein the substrate is translucent paper or nonwoven fabric . The packaging material according to claim 1 , wherein the film is a non-porous film. The packaging material according to claim 1 , wherein the film is a porous film. 2. The packaging material according to claim 1, wherein the printed layer is formed on the entire surface of the film. The packaging material according to claim 1, wherein the printed layer is partially formed on the film. The packaging material according to any one of claims 1 to 5, wherein the printing is gravure printing. The packaging material of any one of Claims 1-6 used so that the said paper or a nonwoven fabric may become an outer side. The packaging material according to any one of claims 1 to 7, which is used for a bag for containing a heat-generating composition containing moisture and generating heat in the presence of air. A heating element comprising at least one surface containing a heat generating composition in a heat generating composition containing bag formed of the packaging material according to claim 8. An adhesive composition containing a colorant is printed on an opaque or translucent film to form a printed layer, and the printed layer and a sheet-like substrate that is a translucent paper or non-woven fabric are superposed and bonded. The manufacturing method of the packaging material of any one of Claims 1-8 containing these.