JP2009078846A - Bag for microwave oven cooking - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bag for microwave oven cooking which is formed of a biodegradable material with a shading property, and capable of reducing internal pressure in a packaging bag without affecting a content therein, and preventing the burst of a bag body by heating in the microwave oven, and has biodegradability and excellent disposal characteristics after use. <P>SOLUTION: The bag for microwave oven cooking is composed of a packaging bag formed of a laminate in which at least a base film and a heat-sealable polybutylene succinate resin film with the shading property are laminated on each other. Further, a high-temperature softening resin layer which constitutes the packaging bag having predetermined seal strength in a temperature environment lower than room temperature, and is softened in a temperature environment higher than room temperature which causes the lowering of seal strength is provided between the base film and the heat-sealable polybutylene succinate resin film constituting a seal part of the outer peripheral end of the packaging bag. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a microwave cooking bag, and more specifically, has a light-shielding property and the like, is excellent in hermeticity and excellent in protecting contents, and has an effect on the contents when heated in a microwave oven. Reduces internal pressure inside the packaging bag without giving it, prevents rupture of the bag due to heating in the microwave oven, and after use it has biodegradability and is extremely useful for cooking in a microwave oven with excellent disposal properties It relates to bags.

Conventionally, frozen foods, chilled foods, etc. are usually packaged and packaged with packaging materials such as plastic film or other packaging materials, or molded containers (trays), and sealed. It is frozen in the housed state, and further transported and stored in the frozen state.
Thus, in the above frozen foods and chilled foods, during the production, transportation and storage, or during the sale of products, the contents are protected, particularly as a measure for preventing fat oxidation, from the ultraviolet region to the visible region. Therefore, it is required to have a light-shielding property that shields sunlight or fluorescence.
Moreover, when eating the food etc. which are the contents, such frozen foods and chilled foods, for example, the package may be heated or cooked with a microwave oven etc., and then the foods etc. which are the contents may be eaten. is there.
By the way, when the package is heat-treated in a microwave oven or the like, the internal pressure of the sealed packaging bag or molded container increases due to the expansion of air, the generation of water vapor from the food, etc. There is a possibility that an unfavorable situation may occur in which the contents are scattered due to the explosion or rupture of a bag or a molded container.
In order to solve this problem, various technical means have been developed and proposed. However, the present applicant also firstly made the outer layer from a heat-resistant thermoplastic resin film. Proposing a microwave oven-compatible packaging material and a microwave oven-compatible plastic container using the laminated plastic film in which the inner layer is made of a sealant film and the intermediate layer is provided with a release agent layer (For example, see Patent Document 1).
Further, as another example, the applicant of the present invention, in a package in which a packaging material made of a heat-adhesive resin layer having an easily peelable inner layer is sealed with a thermal bonding portion, at least one place on the inner peripheral edge of the packaging body A package body characterized in that it has a projecting portion that projects from the inner peripheral edge to the inside of the package body and is thermally bonded, and a cutting blade or a notch is formed in the projecting portion. (For example, see Patent Document 2).
In the past, as a light-shielding material constituting a packaging bag or the like, aluminum foil or an aluminum vapor deposition film has been used as the most common material.
JP-A-9-272180 Japanese Patent Laid-Open No. 11-208739

However, in the frozen foods and chilled foods as described above, the packaging bags and the like usually use a plastic (resin) film as a base film, and a laminate of this and a heat-sealable resin film. Alternatively, it is manufactured by using a laminated material of a plastic (resin) film, a barrier base film, and a heat seal resin film as a base film, and making the bag. .
Thus, a plastic (resin) film or a heat-sealable resin film as a base film constituting the laminated material as described above is made of polyethylene, polypropylene, polyamide, fossil raw material, It is made of existing plastic materials such as polyester. When these are used, CO ₂ increases, so simply taking measures and studying such as separation and recycling is not sufficient to reduce the environmental load. It is thought that there is.
Plastic materials are light and durable and are used in large quantities in everyday life.
However, if a durable and long-lasting plastic material is released to nature, it may accumulate without being decomposed and cause various adverse effects.
In addition, since the plastic material is mainly made of fossil raw materials, it leads to an increase in CO _{2 and} may affect the global environment due to global warming and the like.
Therefore, while using it as a material, its form is maintained, and even if released to the natural environment after use, the development of biodegradable materials that are decomposed by microorganisms etc. is urgently released and released to the natural world, Various attempts have been made to preserve the natural environment by using this biodegradable material for applications that are difficult to recover.

In addition, when the above aluminum foil or aluminum vapor deposition film is used as a light-shielding material, the aluminum foil, aluminum vapor deposition film, etc. has a barrier property that prevents the transmission of oxygen gas, water vapor, etc., and also has sunlight or fluorescence. Although it is a very useful material, aluminum foil or the like lacks bending resistance, and therefore, not only has a problem that pinholes are easily generated and the barrier properties thereof are impaired. When used as a packaging container, when it is disposed of as garbage, for example, when it is disposed of by incineration, etc., metal such as aluminum remains, which may damage the incinerator, and is not suitable for disposal. This is undesirable because it causes problems such as destruction and lacks environmental suitability. .
Furthermore, when using an aluminum foil or an aluminum vapor deposition film, for example, using a metal detector or the like to detect a metal piece (foreign matter) or the like mixed in the contents, There is also a problem that it is extremely difficult for the aluminum foil or the aluminum vapor deposition film to react with a metal detector and detect the metal piece (foreign matter) for inspection.
Therefore, the present invention uses a biodegradable material for the packaging bags used for the above frozen foods and chilled foods, etc., instead of the existing plastic materials mainly composed of the above fossil raw materials, and provides light shielding. It has excellent properties, etc., and when heated in a microwave oven, the internal pressure in the packaging bag is reduced without affecting the contents to prevent the bag body from rupturing due to heating in the microwave oven. The present invention proposes an extremely useful microwave cooking bag having decomposability and excellent disposal suitability.

  As a result of various studies to improve the above-mentioned problems, the present inventor has paid attention to a polylactic acid resin as a biodegradable resin as a base film, and as a heat-sealable resin film, Focusing on polybutylene succinate resin as a degradable resin, first, at least a polylactic acid resin film as a substrate film and a polybutylene succine having light-shielding properties as a heat-sealable resin film A laminated material obtained by laminating a resin film, and further between the polylactic acid resin film and the polybutylene succinate resin film having a light-shielding property, and an outer peripheral end constituting the packaging bag The portion corresponding to the seal portion of the part has a predetermined seal strength in a temperature environment below room temperature to form a packaging bag, but softens and seals in a high temperature environment above room temperature. Strength A high temperature softening resin layer that brings about a decrease is provided in a pattern shape to constitute a laminated material, and then the laminated material is used and the surface of the polybutylene succinate resin film having the light shielding property is opposed to each other. Overlapping and making bags to produce packaging bags, and then filling and packaging the contents of food, etc. in the above packaging bags, frozen in a sealed state, frozen foods and chilled foods Or the like, or by filling and packaging food or the like that has been frozen in advance into the above packaging bag to produce frozen food or chilled food, etc. It has light-shielding properties during manufacturing, transportation, storage, or as a product for sale, and has excellent protection performance for the contents.When eating the food that is the contents, the frozen foods and chilled foods mentioned above are used. The electron len in the usual way When heated or cooked in the above, the polybutylene succinate having light-shielding properties constituting the outer peripheral end seal portion in a temperature environment higher than room temperature by heating or cooking in the above microwave oven The polybutylene succinate resin film having light shielding properties in the vicinity of the resin film is broken and the polylactic acid resin film constituting the seal portion of the outer peripheral end portion and the polybutylene succinate resin having light shielding properties The above high-temperature softening resin layer softens between the layers of the film, causes delamination, and constitutes an open portion that can connect the inside and the outside of the packaging bag, thereby providing an automatic release function of the internal vapor pressure. When heated in a microwave oven, the internal pressure in the packaging bag is reduced without affecting the contents, preventing the bag from exploding or bursting due to microwave heating. In addition, after use, the present invention has been completed by finding a very useful microwave cooking bag having biodegradability and excellent disposal suitability.

  That is, the present invention uses a laminate in which at least a base film and a polybutylene succinate resin film having a light-shielding property are laminated, and the surfaces of the polybutylene succinate resin film are opposed to each other. The packaging bag is made together and further, between the base film and the polybutylene succinate resin film constituting the seal part of the outer peripheral end of the packaging bag, at room temperature or lower. In a temperature environment, a packaging bag is configured with a predetermined seal strength, but it is softened in a temperature environment higher than room temperature and is provided with a high-temperature softening resin layer that causes a decrease in seal strength. The polybutylene succinate resin film is formed in the vicinity of the polybutylene succinate resin film constituting the seal portion of the outer peripheral end in the temperature environment higher than the room temperature. The above high temperature softening resin layer is softened between the base film and the polybutylene succinate resin film constituting the seal portion at the outer peripheral end and the interlayer is peeled off, resulting in delamination. The present invention relates to a microwave cooking bag, characterized in that it constitutes an open portion that allows electrical conduction between the inside and the outside of the bag, and in the above microwave cooking bag, if necessary, the above-mentioned lamination The present invention relates to a microwave cooking bag characterized in that an intermediate base film made of a gas barrier film or the like capable of preventing permeation of oxygen gas, water vapor and the like is further laminated in a laminated structure of materials.

The microwave oven cooking bag according to the present invention is excellent not only in sunlight or fluorescence, but also in the protection performance of the contents, has strength and the like, and has weather resistance, heat resistance, Excellent durability such as pressure resistance, water resistance, impact resistance, etc. In addition, it has excellent laminating strength, heat seal strength strength, etc. In addition, it is excellent in cosmetics without impairing the packaging appearance, and also has biodegradability, so when it is disposed of after use, it does not decompose in the natural environment and does not generate harmful substances. In addition, it has an advantage that it is extremely excellent in disposal processing suitability, environmental suitability, etc., and metal piece (foreign matter) detection by a metal detector or the like is easy.
In particular, the microwave oven cooking bag according to the present invention mainly uses biodegradable resins such as polylactic acid resin and polybutylene succinate resin, and constitutes a laminated material using these as main materials. It has the advantage of being biodegradable on its own and degrading in the natural environment.
The microwave cooking bag according to the present invention is a functional resin layer such as a high-temperature softening resin layer interposed in a laminated structure constituting a packaging bag when heated or cooked in a microwave oven by a normal method. However, the polybutylene succinate resin in the vicinity of the polybutylene succinate resin film constituting the seal part of the outer peripheral end in a temperature environment higher than room temperature by heating or cooking of the microwave oven When the film is broken, the high-temperature softening resin layer is softened between the polylactic acid resin film and the polybutylene succinate resin film constituting the seal portion at the outer peripheral end, causing delamination, Constructs an open section that allows the inside and outside of the packaging bag to conduct electricity, thereby providing an automatic opening function for internal vapor pressure, which affects the contents when heated in a microwave oven. It lowers the internal pressure of the packaging bag without and has the advantage that it is possible to prevent 暴爆, rupture of the bag due to microwave heating.
Thus, the microwave oven cooking bag according to the present invention can be used to manufacture packaging products such as frozen foods and chilled foods in various forms by filling and packaging various foods and drinks in the packaging bag. It can be done.

Hereinafter, the present invention will be described in more detail with reference to the drawings.
First, FIG. 1 and FIG. 2 are schematic cross-sectional views showing one example of a laminated structure of laminated materials constituting the microwave cooking bag according to the present invention. FIG. 3 and FIG. It is a schematic perspective view which shows an example of the structure about the bag for microwave oven cooking which concerns on this invention which made a bag using the laminated material which concerns on this invention shown in FIG. 5, FIG. 5 concerns on this invention shown in FIG. It is a schematic cross-sectional view showing the outline of the mechanism of the automatic opening function of the internal steam pressure when packaging products such as frozen foods and chilled foods manufactured using a microwave cooking bag are heated in a microwave oven. There is.

First, in the present invention, the laminated material constituting the microwave cooking bag according to the present invention will be described. As the laminated material A according to the present invention, for example, as shown in FIG. A laminated material in which a polylactic acid resin film 1 and a polybutylene succinate resin film 2 having a light shielding property as a heat-sealable resin film are laminated, and further, the polylactic acid resin film 1 and the light shielding material. In a portion corresponding to the seal portion of the outer peripheral end portion constituting the packaging bag, in a layer between the polybutylene succinate resin film 2 having a property and a predetermined temperature in a temperature environment of room temperature or lower. A packaging bag having a seal strength is provided, but a high temperature softening resin layer 3 that is softened in a temperature environment higher than room temperature and causes a decrease in the seal strength is provided in a pattern shape. Consisting of The one in which the basic structure.
In FIG. 1, reference numeral 4 represents a desired printed pattern layer made up of characters, symbols, figures, etc., for example.

Moreover, in this invention, when another example is illustrated about the laminated material which comprises it about the microwave oven cooking bag which concerns on this invention, as another laminated material which concerns on this invention, as shown, for example in FIG. In the laminated material A according to the present invention shown in FIG. 1 above, a polylactic acid resin film 1 as a base film and a polybutylene succinate resin film 2 having a light-shielding property as a heat-sealable resin film. Further, for example, a laminated material in which an intermediate base film 5 made of a functional base film such as a gas barrier film capable of preventing permeation of oxygen gas, water vapor and the like is laminated, It is an interlayer between the above-mentioned intermediate substrate film 5 and the polybutylene succinate resin film 2 having a light-shielding property, and corresponds to a seal portion at an outer peripheral end portion constituting the packaging bag. The high-temperature softening resin that has a predetermined seal strength in a temperature environment below room temperature and constitutes a packaging bag, but softens in a high temperature environment above room temperature and causes a decrease in seal strength. A laminate A ₁ according to the present invention having a configuration in which the layer 3 is provided in a pattern shape can be exemplified.
In FIG. 2, reference numeral 4 represents a desired printed pattern layer made up of, for example, characters, symbols, figures, and the like.

The above exemplification illustrates one or two examples of the laminated structure of the laminated material according to the present invention, and it goes without saying that the present invention is not limited thereto.
For example, in the laminated material according to the present invention, in addition to the polylactic acid resin film as described above, a polybutylene succinate resin film having a light-shielding property, an intermediate substrate film, etc., for example, depending on its purpose, Furthermore, the laminated material which uses other base film etc. arbitrarily and consists of the various laminated structure which laminated | stacked them can also be used.
In the above, as a lamination method for laminating a polylactic acid resin film, a light-blocking polybutylene succinate resin film, an intermediate substrate film, etc., for example, for laminating with a laminating adhesive or the like An adhesive layer is provided, and then a dry laminating lamination method for laminating via the laminating adhesive layer, or an adhesion assistant layer such as an anchor coating agent, a melt-extruded resin layer, etc. are provided, Subsequently, it can carry out by the melt extrusion laminating method etc. which laminate | stack through the adhesion assistant layer by this anchor coating agent etc., a melt extrusion resin layer, etc.

  Next, in the present invention, the microwave cooking bag according to the present invention, which is manufactured by using the laminated material according to the present invention as described above, and manufacturing the bag, will be described as such a microwave cooking bag. As shown in FIG. 3, the case where the laminated material A according to the present invention shown in FIG. 1 is used will be described. First, the two laminated materials A according to the present invention are used. The polybutylene succinate resin films 2 and 2 having light-shielding properties constituting the laminated materials A and A are overlapped with each other, and then the light-shielding poly as a heat-sealable resin film. Heat seal the opposite ends of the butylene succinate resin films 2 and 2 to form the side seal portions 21 and 21 and the bottom seal portion 22 respectively. And the side seal portions 21, 21, Heat sealing is performed so that the high-temperature softening resin layer 3 is present in at least one of the seal portions 22 and the like, and an opening 23 is formed above the heat seal resin layer 3 to form the present invention. A three-sided seal type microwave cooking bag B according to the present invention, which is made using the laminated material A, can be manufactured.

Thus, in the present invention, as shown in FIG. 4, the three-side seal type microwave cooking bag B according to the present invention manufactured as described above is used, and from the opening 23, for example, a food or drink The contents 24 such as others are filled, and then the opening 23 is heat sealed to form the upper heat seal 25, and the microwave cooking bag B according to the present invention is used. The semi-wrapped product C according to the present invention manufactured as described above was manufactured, and then the semi-wrapped product C was manufactured using the microwave cooking bag B according to the present invention after being subjected to a normal freezing treatment or the like. Packaging products D such as frozen foods and chilled foods according to the present invention can be manufactured.
In addition, although not shown in the above, the three-side seal type microwave cooking bag according to the present invention produced above is used, and the contents of the food and drink, etc., which are frozen in advance from the opening, for example, The refrigeration according to the present invention manufactured by using the microwave cooking bag according to the present invention, in which the opening is heat sealed and the upper heat seal portion is formed. Packaged products such as food and chilled foods can also be manufactured.
The above illustration is an example of a microwave cooking bag according to the present invention, a packaged product such as frozen food and chilled food using the same, and the present invention is not limited thereby. For example, although not illustrated as a form of the packaging bag, for example, a pillow packaging form, a gusset packaging form, a standing (self-supporting) pouch packaging form, or a packaging bag form suitable for the contents can be taken. Is.
Further, in the present invention, the laminated material according to the present invention shown in FIG. 2 is used, the bag is made in the same manner as described above, and the microwave cooking bag, the frozen food, the chilled food according to the present invention in the same manner as described above. It is possible to manufacture packaged products such as foods.

  And in this invention, as shown in FIG. 5, about the packaging products D, such as the frozen food which concerns on this invention manufactured using the microwave cooking bag B which concerns on this invention as mentioned above, and a chilled food, In order to eat the food as the contents 24, when the packaged product D such as frozen food, chilled food, etc. is put into a microwave oven and heated or heat-treated, the microwave oven is heated or cooked at a temperature higher than room temperature. In the environment, the polybutylene succinate resin film 2 having the light shielding property in the vicinity of the light shielding polybutylene succinate resin film 2 constituting the seal portion of the outer peripheral end portion is, for example, A crack P or the like is generated there, and the polylactic acid resin film 1 which is broken and constitutes the seal portion 21 at the outer peripheral end portion and a polybutylene succinate resin film having a light shielding property. The high temperature softening resin layer 3 is softened between the two layers 2, causes delamination, and constitutes an open portion Q that can conduct the inside and the outside of the microwave cooking bag B according to the present invention, Thereby, the function of automatically opening the internal steam pressure is provided, and when heating in the microwave oven, the internal pressure in the microwave cooking bag B is lowered without affecting the contents 24, and the bag is heated by the microwave oven. It makes it possible to prevent body explosions and explosions.

Next, in the present invention, the microwave cooking bag according to the present invention as described above, the laminated material for producing the same, the material constituting the packaged product such as frozen food, chilled food, the production method thereof, etc. will be described. First, in the present invention, the laminated material according to the present invention constituting the microwave cooking bag according to the present invention will be described. First, as the base film constituting the laminated material according to the present invention, for example, biodegradation A polylactic acid resin film that is an adhesive resin can be used.
Thus, as the above-mentioned polylactic acid resin film, for example, it is a polymer mainly composed of L-, D-, or DL-lactic acid units, has transparency, and has similar physical properties as a soft type polyolefin-based resin. A film or sheet of a polylactic acid resin made of a biodegradable polyester having the above can be used.
Specifically, as the polylactic acid resin constituting the polylactic acid resin film, for example, the melt flow rate (MFR) is about 1.0 to 20.0 g / 10 minutes, preferably 1.5 to 12 Within a range of about 0.0 g / 10 min (190 ° C., 2.16 kg), a density of about 1.10 to 1.30 g / cm ³ , a melting point of about 150 to 170 ° C., In the crystal type, a polylactic acid resin in the range of Tg = 50 to 70 ° C. can be used.
In the present invention, melt flow rate (MFR) is measured from a method based on JIS K6921 (190 ° C.), and the density is measured from a method based on JIS K7112.
The same applies hereinafter.

In the present invention, as the above-mentioned polylactic acid resin film or sheet, for example, one or more of the above polylactic acid resins are used, and an extrusion method, a cast molding method, a T-die method, a cutting method, an inflation method are used. -A method of forming the above-mentioned various resins independently using a film-forming method such as an ionization method or the like, or a method of forming a multilayer co-extrusion film using two or more types of various resins Furthermore, a film or sheet of polylactic acid resin is produced by a method of using two or more kinds of resins, mixing them before forming a film, and forming a film, and if necessary, for example, Alternatively, a polylactic acid resin film or sheet formed by stretching in a uniaxial or biaxial direction using a tenter system, a tuber system, or the like can be used.
In the present invention, the film thickness of the polylactic acid resin film or sheet is preferably about 6 to 200 μm, more preferably about 9 to 100 μm.

It should be noted that one or more of the above-mentioned polyethylene lactic acid resins are used, and when forming the film, for example, film processability, heat resistance, weather resistance, mechanical properties, dimensional stability, antioxidant properties, slipperiness Various plastic compounding agents and additives can be added for the purpose of improving and modifying mold release properties, flame retardancy, antifungal properties, electrical properties, strength, etc. Can be optionally added from a very small amount to several tens of percent depending on the purpose.
In the above, as a general additive, for example, a lubricant, a crosslinking agent, an antioxidant, an ultraviolet absorber, a light stabilizer, a filler, a reinforcing agent, an antistatic agent, a pigment, and the like can be used. Furthermore, a modifying resin or the like can be used.

Thus, in the present invention, as the above-mentioned polylactic acid resin, since the polylactic acid resin is a hard resin having a relatively high melting point, it is given flexibility and improved film forming suitability and the like. It is also possible to use a mixed resin obtained by kneading a polylactic acid resin and a softening modifier by adding one or more softening modifiers that can improve impact resistance and the like It is.
Specifically, as the polylactic acid resin, a polylactic acid resin obtained by kneading a polylactic acid resin and a softening modifier at a blending ratio of 51 to 99 parts by weight of the former and 1 to 49 parts by weight of the latter; A mixed resin with a softening modifier can be used.
Specifically as said softening modifier, 1 type or 2 types, such as other aliphatic polyester resins other than a polylactic acid resin, the plasticizer for polylactic acid resins, or a polyester-type elastomer, for example. The above can be used.

Thus, in the above, as the aliphatic polyester resin other than the polylactic acid resin, for example, a polymer mainly composed of an aliphatic dicarboxylic acid unit and an aliphatic diol unit can be used. Specifically, for example, polybutylene succinate, polybutylene adipate, polybutylene sebacate, polybutylene succinate adipate, and the like can be used.
In the present invention, the above aliphatic polyester resin is mainly added as a softening modifier for the above polylactic acid resin, and among such aliphatic polyester resins, in particular, polybutylene. It is preferred to use a succinate. The polybutyl succinate has a melt flow rate (MFR) of about 1.0 to 30.0 g / 10 min, preferably 3.0 to 20.0 g / 10 min ( 190 ° C, 2.16 kg), polybutylene succinate with a density of about 1.20 to 1.30 g / cm ³ and a melting point of about 80 to 120 ° C. can do.
Thus, as the above polybutylene succinate, specifically, 1.4-butanediol and succinic acid are used as the main components, and they are aliphatic products obtained by direct dehydration polycondensation. A biodegradable polyester made of a polyester resin and having a physical property similar to that of a polyolefin resin can be used.
In the present invention, part or all of the aliphatic dicarboxylic acid units can be modified with aromatic dicarboxylic acid units.

Next, in the above, as the plasticizer for polylactic acid resin, for example, adipic acid ester or the like can be used.
Thus, as the above-mentioned adipic acid ester, for example, a plasticizer comprising a diesterified product of adipic acid and a higher alcohol can be used.
Specifically, a plasticizer for a polylactic acid resin (trade name, DAIFACTY-101) made of adipic acid ester manufactured by Daihachi Chemical Industry Co., Ltd. can be used.

In the above, as the polyester elastomer, for example, a polyester portion having a high melting point (T _m ) as a hard segment and a polyester having a low melting point (T _m ) to a low glass transition temperature (T _g ) or A polyester elastomer having a polyester portion as a soft segment can be used.
Specifically, a product name made by Toray DuPont Co., Ltd., a polyester elastomer such as High Retort 4057, or the like can be used.

  Next, in the present invention, a polybutylene succinate resin film having a light shielding property as a heat-sealable resin film constituting the laminated material according to the present invention will be described. A polybutylene sac having such a light shielding property will be described. For example, as shown in FIG. 6, the cine resin film comprises a coextruded multi-layer laminated film 41, and at least one layer constituting the co-extruded multi-layer laminated film 41 is mainly polybutylene succinate. A light-blocking polybutylene succinate resin layer 42 made of a resin composition containing a black pigment as a component, or at least one layer containing polybutylene succinate as a main component; a black pigment and a white pigment; And the black pigment content is 0.1% to 5.0% by weight based on the polybutylene succinate, An example is a coextruded multilayer laminated film P composed of a light-shielding polybutylene succinate resin layer 42a with a resin composition in which the content of the color pigment is 1 to 30 times the content of the black pigment. it can.

Thus, a specific example of the polybutylene succinate resin film having light-shielding properties according to the present invention will be illustrated. As shown in FIG. 7, the polybutylene succinate is a main component, as shown in FIG. A light-shielding polybutylene succinate resin layer 42 or a polybutylene succinate resin layer 42 as a main component, and further containing a black pigment and a white pigment, and the content of the black pigment However, the polybutylene succinate is 0.1 to 5.0% by weight, and the white pigment content is 1 to 30 times the black pigment content. Comprising a light-blocking polybutylene succinate resin layer 42a by the resin composition, and further comprising polybutylene succinate as a main component on both sides of the light-blocking polybutylene succinate resin layer 42 or 42a, More White polybutylene succinate resin layer comprising a white pigment and a resin composition having a white pigment content of 1.0 wt% to 30.0 wt% with respect to polybutylene succinate A coextruded multilayer laminated film P ₁ having a laminated configuration of a coextruded multilayer laminated film 41 in which 43 and 43 are laminated can be exemplified.

Next, another specific example of the polybutylene succinate resin film having a light-shielding property according to the present invention will be exemplified. As shown in FIG. 8, the polybutylene succinate is mainly composed of a polybutylene succinate and further black. A light-blocking polybutylene succinate resin layer 42 or a polybutylene succinate resin layer 42 made of a resin composition containing a pigment, further containing a black pigment and a white pigment, and containing the black pigment The amount is 0.1% to 5.0% by weight with respect to the polybutylene succinate, and the white pigment content is 1 to 30 times the black pigment content. A light-shielding polybutylene succinate resin layer 42a made of a resin composition comprising: and further comprising polybutylene succinate as a main component on both sides of the light-shielding polybutylene succinate resin layer 42 or 42a. , Further A white polybutylene succinate resin comprising a white pigment and a resin composition comprising a white pigment content of 1.0 wt% to 30.0 wt% with respect to the polybutylene succinate Layers 43 and 43 are laminated, and transparent or translucent by a resin composition containing polybutylene succinate as a main component on both sides of the white polybutylene succinate resin layers 43 and 43. Examples thereof include a coextruded multilayer laminated film P ₂ having a laminated structure of a coextruded multilayer laminated film 41 in which polybutylene succinate resin layers 44 and 44 are laminated.

Further, with respect to the polybutylene succinate resin film having light-shielding properties according to the present invention, when another specific example is illustrated, as shown in FIG. 9, the polybutylene succinate is a main component, A light-blocking polybutylene succinate resin layer 42 made of a resin composition containing a black pigment, or a polybutylene succinate as a main component, further containing a black pigment and a white pigment, and the black pigment The content of the polybutylene succinate is 0.1% to 5.0% by weight, and the white pigment content is 1 to 30 times the black pigment content. A light-blocking polybutylene succinate resin layer 2a made of a double resin composition, and a polybutylene succinate as a main component on both sides of the light-blocking polybutylene succinate resin layer 42 or 42a. When The resin composition according to transparent or semi-transparent polybutylene succinate containing Te - coextruded multilayer laminate film P ₃ having a laminated structure of a preparative resin layer 44 coextruded multilayer laminate film 41 formed by laminating can be exemplified.

Furthermore, another specific example of the polybutylene succinate resin film having light-shielding properties according to the present invention is illustrated. As shown in FIG. 10, the polybutylene succinate is a main component, as shown in FIG. A light-shielding polybutylene succinate resin layer 42 or a polybutylene succinate resin layer 42 as a main component, and further containing a black pigment and a white pigment, and the content of the black pigment However, the polybutylene succinate is 0.1 to 5.0% by weight, and the white pigment content is from 1 to 30 times the black pigment content. A light-blocking polybutylene succinate resin layer 42a made of the resin composition, and further comprising polybutylene succinate as a main component on one surface of the light-blocking polybutylene succinate resin layer 42 or 42a. When Further, a white polybutylene succine comprising a resin composition containing a white pigment and having a white pigment content of 1.0 to 30.0% by weight based on the polybutylene succinate. In addition, both sides of the surface of the light shielding polybutylene succinate resin layer 42 or 42a and the surface of the white polybutylene succinate resin layer 43 are laminated. A coextruded multi-layer film comprising a laminated structure of a co-extruded multi-layer film 41 in which transparent or translucent polybutylene succinate resin layers 44, 44 are laminated with a resin composition containing polybutylene succinate as a main component. A laminated film P ₄ can be exemplified.

The above illustrations are a few examples of the polybutylene succinate resin film having light-shielding properties according to the present invention, and it goes without saying that the present invention is not limited thereto. It is.
In the polybutylene succinate resin film having light-shielding properties according to the present invention, although not shown, a white polybutylene succinate resin layer or a transparent or translucent polybutylene succinate resin layer is They can be laminated in any combination. Further, in the polybutylene succinate resin film having light-shielding properties according to the present invention, the white polybutylene succinate resin layer or the transparent or translucent polybutylene succinate resin layer may be a single layer. It can also be laminated in multiple layers.
Furthermore, in the present invention, although not shown in the drawings, it is possible to design and manufacture coextruded multilayer laminated films having various forms by arbitrarily laminating other base materials depending on the purpose of use, application, etc. It is.

  By the way, the polybutylene succinate resin film having light-shielding properties according to the present invention is basically a light-shielding material and also acts as a heat-sealable resin film, and has excellent light-shielding properties. It is aluminum-free, and also has excellent laminating strength, heat seal strength, etc., and has other strengths such as weather resistance, heat resistance, water resistance, etc. In particular, it is excellent in light-shielding property or light-shielding property. For example, it blocks the transmission of sunlight or fluorescence by the sun or a fluorescent lamp, and is filled and packaged with a photosensitive material as an industrial member requiring complete light-shielding. It is extremely useful as a packaging material and acts as a light-shielding or light-shielding layer that prevents the contents from being decomposed or altered, or causing light deterioration such as discoloration or others. Acts as a heat sealant layer at times, has contents filling and packaging suitability, storage suitability, etc. In addition, polybutylene succinate resin is the main material, so biodegradation in the natural environment It does not generate harmful substances during incineration disposal after use, and is extremely excellent in disposal and environmental suitability and does not react to metal (foreign matter) detectors. It has the advantage that.

The polybutylene succinate resin film having light-shielding properties according to the present invention will be described in more detail. In the polybutylene succinate resin film having light-shielding properties according to the present invention, the light-shielding polybutylene succinate resin film is provided. The resin layer basically works synergistically with the white polybutylene succinate resin layer, absorbs sunlight or fluorescence from the sun or fluorescent lamp, etc., and blocks its transmission. It acts as a light blocking or light blocking layer.
Next, in the polybutylene succinate resin film having light-shielding properties according to the present invention, the white polybutylene succinate resin layer is basically composed mainly of the above-mentioned light-shielding polybutylene succinate. The protective layer or concealing layer that protects or conceals the resin layer, and acts as a light-blocking or light-blocking layer that reflects or diffuses sunlight or fluorescent light from the sun or fluorescent lamps and blocks its transmission. Furthermore, when a printed pattern such as a desired character, symbol, pattern, figure, etc. is directly or indirectly formed on the white polybutylene succinate resin layer, the white polybutylene The succinate resin layer acts as a base layer that sharpens the printed pattern such as desired characters, symbols, pictures, figures, etc. constituting the printed pattern. The butylene succinate resin layer constitutes a laminated material as a packaging material, which will be described later. It acts as a layer or the like.

Furthermore, in the polybutylene succinate resin film having light-shielding properties according to the present invention, the transparent or translucent polybutylene succinate resin layer is basically mainly composed of the above-mentioned light-shielding polybutylene succinate. -Act as a protective layer for protecting the resin layer or white polybutylene succinate resin layer, and in some cases, act as a concealing layer for concealing these, For example, when a desired pattern of characters, symbols, patterns, figures, etc. is directly or indirectly formed on the butylene succinate resin layer, the transparent or translucent polybutylene succinate is used. The resin layer acts as a base layer that sharpens the printed pattern such as desired characters, symbols, patterns, figures, etc. constituting the printed pattern, and is also transparent or translucent. The ribylene succinate resin layer constitutes a laminated material as a packaging material, which will be described later, and, for example, a heat-sealable resin that forms a seal portion when a bag is made using the laminated material. It acts as a layer or the like.
In addition, the polybutylene succinate resin film having light-shielding properties according to the present invention uses a polybutylene succinate and constitutes a coextruded multi-layer laminated film as a main material, so that It is biodegradable and has the advantage of degrading in the natural environment.
Furthermore, since the polybutylene succinate resin film having light-shielding properties according to the present invention is aluminum-free, it is suitable for disposal without generating harmful substances when incineration disposal after use, It is extremely excellent in environmental suitability and the like, and has the advantage of facilitating inspection of metal pieces (foreign matter) using a metal detector or the like.

Next, in this invention, as polybutylene succinate resin which comprises the polybutylene succinate resin film which has the light-shielding property based on this invention, melt flow rate (MFR) is 1.0- Within a range of about 30.0 g / 10 min, preferably 3.0-20.0 g / 10 min (190 ° C., 2.16 kg), the density is about 1.20-1.30 g / cm ^3. A film or sheet of polybutylene succinate having a position and a melting point in the range of about 80 to 120 ° C. can be used.
Thus, as the above polybutylene succinate, specifically, 1.4-butanediol and succinic acid are used as the main components, and they are aliphatic products obtained by direct dehydration polycondensation. A biodegradable polyester made of a polyester resin and having a physical property similar to that of a polyolefin resin can be used.

In the present invention, the polybutylene succinate resin can be used alone, but other biodegradable resins such as polylactic acid resin are about 1 to 30% by weight. It can also be added and used.
Thus, in the present invention, by adding another biodegradable resin such as polylactic acid resin as described above, it is effective in improving physical properties such as workability and rigidity.
In the present invention, when other biodegradable resins such as polylactic acid resin are added in an amount of 30% by weight or more, rigidity and the like are increased, and impact resistance and the like may be lowered. is there.
In the present invention, the polybutylene succinate resin includes, for example, an adipic acid ester, a polyester rubber, a styrene rubber, etc. as a plasticizer component in addition to the polylactic acid resin as described above. A small amount of a rubber component or the like can be added.

In the present invention, as the polybutylene succinate resin, for example, a polybutylene succinate resin and a polyolefin resin are blended in an amount of 10 to 50 parts by weight of the latter with respect to 50 to 90 parts by weight of the former. A mixed resin having a ratio, preferably a mixed resin formed by mixing the former 60 to 80 parts by weight with the latter 20 to 40 parts by weight can be used. In the above, if the polybutylene succinate resin is less than 50 parts by weight, the seal strength may be lowered, and if it exceeds 90 parts by weight, This is not preferable because the seal becomes a complete seal and the seal strength is too high.
In addition, in the above, if the olefin resin is less than 10 parts by weight, the seal becomes a complete seal and the seal strength is too high, which is not preferable, and exceeds 50 parts by weight. In such a case, the seal strength may be low, which is not preferable.

In the above, examples of the polyolefin resin include low density polyethylene, linear low density polyethylene, ethylene / α-olefin copolymer polymerized using a single site catalyst, medium density polyethylene, high density polyethylene, and polypropylene. One or more of ethylene-propylene copolymer, ethylene-vinyl acetate copolymer, ethylene-acrylic acid copolymer, ethylene-methacrylic acid copolymer, or ionomer resin can be used. .
Thus, in the present invention, as the polyolefin resin, a polyethylene resin having similar physical properties as the above-mentioned polybutylene succinate resin, excellent in melt tension and stretchability, etc., and having extrudability that will be described later. It is preferable to use it.
In the present invention, specifically, as the low density polyethylene, for example, the density is about 0.910 to 0.929 g / cm ³ , and the melt flow rate (MFR) is 1.0 to 10 Low density polyethylene in the range of 0.0 g / 10 quantile can be used. Thus, the above low density polyethylene includes, as a monomer, ethylene, propylene, 1-butene, 1-pentene, 4-methyl-1-pentene, 1-hexene, 1-heptene, 1-octene. , 1-nonene, 1-decene, and other α-olefins, for example, high pressure method, slurry method, solution method, gas phase method, and other polymerization methods, ethylene alone, or An ethylene homopolymer obtained by copolymerizing ethylene and another olefin, a copolymer of ethylene and another olefin, or the like can be used.
In the present invention, the melt flow rate (MFR) is measured from a method based on JIS K6921, and the density is measured from a method based on JIS K7112.

The linear low density polyethylene has a density of about 0.900 to 0.930 g / cm ³ and a melt flow rate (MFR) of about 0.50 to 10.0 g / 10 minutes. Linear low density polyethylene in the range can be used.
Thus, as the above linear low density polyethylene, monomers are ethylene, propylene, 1-butene, 1-pentene, 4-methyl-1-pentene, 1-hexene, 1-heptene, 1 Α-olefins such as octene, 1-nonene, 1-decene, etc. are used, for example, Ziegler-Natta system or Cr system catalyst is used, for example, low pressure method, slurry method, solution method A homopolymer of ethylene or ethylene and other olefins having no long chain branching by copolymerizing ethylene alone or ethylene and other olefins using a polymerization method such as gas phase method, etc. And a copolymer thereof can be used.

Further, the ethylene / α-olefin copolymer polymerized using the single site catalyst has a density of about 0.890 to 0.930 g / cm ³ , and a melt flow rate (MFR) Polyethylene in the range of 0.50 to 10.0 g / 10 quantile can be used.
Thus, the ethylene / α-olefin copolymer polymerized using the above single site catalyst includes, for example, a catalyst by a combination of a metallocene complex and an alumoxane, such as a catalyst by a combination of zirconocene dichloride and methylalumoxane. That is, an ethylene / α-olefin copolymer obtained by copolymerizing ethylene and α / olefin using a metallocene catalyst (single site catalyst) can be used.
The above metallocene catalyst is also called a single-site catalyst because the current catalyst is called a multi-site catalyst with non-uniform active sites (below, the active sites are uniform). The metallocene catalyst has the same meaning as the single-site catalyst.)
Specifically, as an ethylene / α-olefin copolymer polymerized using a metallocene catalyst, trade names “Carnel” manufactured by Mitsubishi Chemical Corporation and trade names “Evolu” manufactured by Mitsui Petrochemical Industries, Ltd. -", Trade name" EXACT "manufactured by EXXON CHEMICAL, USA, trade name" Affinity ", trade name" DOF CHEMICAL ", USA An ethylene / α-olefin copolymer polymerized using a metallocene catalyst such as “ENGAGE” can be used.

The ethylene / α-olefin copolymer polymerized using the metallocene catalyst will be described in more detail. Specifically, for example, a catalyst comprising a combination of a metallocene transition metal compound and an organoaluminum compound, that is, a metallocene catalyst ( An ethylene / α-olefin copolymer obtained by copolymerizing ethylene and α / olefin can be used.
In addition, said metallocene catalyst may be supported and used for an inorganic substance. In the above, examples of the metallocene transition metal compound include a transition metal selected from group IVB, specifically, titanium (Ti), zirconium (Zr), hafnium (Hf), cyclopentadienyl group, substituted cyclohexane. 1 to 2 of a pentadienyl group, an indenyl group, a substituted indenyl group, a tetrahydroindenyl group, a substituted tetrahydroindenyl group, a fluoronyl group, and a substituted fluorenyl group, or two of these groups Those covalently bonded are bonded, and in addition, hydrogen atom, oxygen atom, halogen atom, alkyl group, alkoxy group, aryl group, acetylacetonate group, carbonyl group, nitrogen molecule, oxygen molecule, Those having a ligand such as a Lewis base, a substituent containing a silicon atom, and an unsaturated hydrocarbon can be used. .
In the above, as the organoaluminum compound, alkylaluminum, chain or cyclic aluminoxane, or the like can be used.
Here, as the alkylaluminum, for example, triethylaluminum, triisobutylaluminum, dimethylaluminum chloride, diethylaluminum chloride, methylaluminum dichloride, ethylaluminum dichloride, dimethylaluminum fluoride, diisobutylaluminum hydride, diethylaluminum hydride, ethylaluminum sesquichloride. Etc. can be used.
The chain or cyclic aluminoxane can be produced, for example, by bringing alkyl aluminum into contact with water.
For example, it can be produced by adding alkylaluminum at the time of polymerization and adding water later, or by reacting crystallization water of a complex salt or adsorbed water of an organic / inorganic compound with alkylaluminum.
Next, in the above, as the inorganic material for supporting the metallocene catalyst, for example, silica gel, zeolite, silicon earth or the like can be used.

Next, in the above, as the polymerization method, for example, various polymerization methods such as bulk polymerization, solution polymerization, suspension polymerization, and gas phase polymerization can be used.
In addition, the polymerization may be any method such as a batch method or a continuous method.
In the above, polymerization conditions are polymerization temperature, −100 to 250 ° C., polymerization time, 5 minutes to 10 hours, reaction pressure, normal pressure to 300 kg / cm ² .
Further, in the present invention, examples of the α-olefin that is a comonomer copolymerized with ethylene include propylene, 1-butene, 3-methyl-1-butene, 4-methyl-1-pentene, 1-hexene, 1-octene, decene, etc. can be used.
The above α · olefin fin may be used alone or in combination of two or more.
Moreover, the mixing ratio of the above-mentioned α-olefin is, for example, 1 to 50% by weight, preferably 10 to 30% by weight.
Therefore, in the present invention, the physical properties of the ethylene / α-olefin copolymer polymerized using the metallocene catalyst are, for example, molecular weight, 5 × 10 ^{3 to} 5 × 10 ⁶ , density, 0.890 to 0 930 g / cm ³ , melt flow rate [MFR], 0.1 to 50 g / 10 quantile.
In the present invention, the ethylene-α / olefin copolymer polymerized using the above metallocene catalyst includes, for example, an antioxidant, an ultraviolet absorber, an antistatic agent, an antiblocking agent, a lubricant (fatty acid amide, etc.). ), Flame retardants, inorganic or organic fillers, dyes, pigments and the like can be optionally added and used.

Next, in the present invention, as the black pigment constituting the light-blocking polybutylene succinate resin film according to the present invention, for example, it absorbs sunlight, fluorescence, or the like made of the sun or a fluorescent lamp (mainly Absorbs the visible region from the near ultraviolet), prevents or blocks its transmission, prevents decomposition or alteration of the contents packed in the packaging bag, or light deterioration such as discoloration, etc. Specifically, for example, it is desirable to use one or a mixture of two or more kinds of colorants such as various black type inorganic or organic dyes and pigments. In the present invention, examples of colorants such as various black inorganic and organic dyes and pigments include iron black, graphite, or carbon black, and electrically conductive materials (polyaniline, polypyrrole). -1) or 2 or more types of black pigments such as other can be used.
Therefore, in the present invention, the carbon black as the black pigment is a carbon black as a special pigment of benzpyrene free which avoids the incorporation of benzpyrene, which has recently been pointed out to be carcinogenic. Is preferably used.
In the present invention, the black pigment is used in an amount of about 0.1 wt% to 5.0 wt%, preferably 0.5 wt% to 3.0 wt%, relative to the polylactic acid resin forming the resin composition. It is desirable to add about%.

Next, in the present invention, as the white pigment constituting the polybutylene succinate resin film having light-shielding properties according to the present invention, for example, sunlight or fluorescent light such as the sun or a fluorescent lamp is reflected or diffused. It prevents or permeates the permeation and prevents the degradation or alteration of the contents filled and packaged in the packaging bag, or the light deterioration such as discoloration, etc. Specifically, for example, white type It is desirable to use a mixture of one or more colorants such as various inorganic or organic dyes and pigments.
In the present invention, the above-mentioned various colorants such as white inorganic and organic dyes and pigments include, for example, basic lead carbonate, basic lead sulfate, basic lead silicate, zinc white, sulfide. One or more of white pigments such as zinc, lithopone, antimony trioxide, anatase-type titanium oxide, rutile-type titanium oxide, calcium carbonate, zinc oxide, barium sulfate, etc. can be used.
Thus, the amount of the white pigment used is preferably about 1 to 30 times the content of the black pigment when the light-shielding polylactic acid resin layer is formed. Is formed in an amount of about 1.0 to 30.0% by weight, preferably about 3.0 to 20.0% by weight, based on the polylactic acid resin forming the resin composition. It is desirable to use it.

  Next, in the present invention, each resin composition constituting the light-blocking polybutylene succinate resin film according to the present invention will be described. First, the light-blocking polybutylene succinate according to the present invention will be described. Examples of the resin composition for forming the light-shielding polybutylene succinate resin layer constituting the resin film include one or more of the above polybutylene succinate resins as the main component of the vehicle. In addition, one or more of the above black pigments are added, and the content of the above black pigment is about 0.1% by weight to 5.0% by weight with respect to the polybutylene succinate resin. Preferably, it is added at a blending ratio of 0.5 wt% to 5.0 wt%, and if necessary, for example, when forming the film, for example, film processability, heat resistance, weather resistance, mechanical Properties and dimensions One kind of various plastic compounding agents and additives for the purpose of improving and modifying qualitative, antioxidant, slippery, releasability, flame retardancy, antifungal properties, electrical properties, strength, etc. Or, optionally, two or more kinds, and if necessary, a solvent, a diluent and the like are added and kneaded sufficiently to form a light-blocking polybutylene succinate resin layer according to the present invention. Product can be prepared.

  In the present invention, the resin composition for forming the light-blocking polybutylene succinate resin layer constituting the light-blocking polybutylene succinate resin film according to the present invention includes, for example, the above polybutylene. One or more succinate resins are used as the main component of the vehicle, and one or more of the above black pigments and one or more of the above white pigments are added thereto. And content of said black pigment consists of 0.1 weight%-5.0 weight% with respect to polybutylene succinate resin, and content of said white pigment is said black pigment Is added at a blending ratio of about 1 to 30 times, preferably about 3 to 15 times, and if necessary, for example, film formation, heat resistance, etc. , Weather resistance, mechanical properties, dimensions One kind of various plastic compounding agents and additives for the purpose of improving and modifying qualitative, antioxidant, slippery, releasability, flame retardancy, antifungal properties, electrical properties, strength, etc. Or, optionally, two or more kinds, and if necessary, a solvent, a diluent and the like are added and kneaded sufficiently to form a light-blocking polybutylene succinate resin layer according to the present invention. Product can be prepared.

  Next, in the present invention, as the resin composition for forming the white polybutylene succinate resin layer constituting the polybutylene succinate resin film having light-shielding properties according to the present invention, for example, the above-mentioned poly One or more butylene succinate resins are used as the main component of the vehicle, to which one or more of the above white pigments are added, and the content of the above white pigment is 1 For example, film processing, heat resistance, weather resistance, mechanical properties, and dimensional stability may be added when forming the film, if necessary. In order to improve, modify, and improve antioxidant properties, slipperiness, mold release properties, flame retardancy, antifungal properties, electrical properties, strength, etc., one or more of various plastic compounding agents and additives Optionally add two or more, and if necessary Solvent, adding a diluent or the like, and sufficiently kneaded, white polybutylene succinate according to the present invention - it is possible to prepare a resin composition for forming a preparative resin layer.

Next, in the present invention, as a resin composition for forming a transparent or translucent polybutylene succinate resin layer constituting the polybutylene succinate resin film having light-shielding properties according to the present invention, for example, One or more of the above polybutylene succinate resins are used as the main component of the vehicle, and if necessary, for example, when forming the film, for example, film processability, heat resistance and weather resistance. Various plastic compounding agents for the purpose of improving and modifying mechanical properties, dimensional stability, antioxidant properties, slipperiness, mold release properties, flame retardancy, antifungal properties, electrical properties, strength, etc. 1 or 2 or more types of additives and additives are optionally added, and further, if necessary, a solvent, a diluent, etc. are added and kneaded sufficiently, and the transparent or translucent polybutylene sac according to the present invention. Resin forming the cine resin layer Narubutsu can be adjusted.
In the present invention, the resin composition for forming the transparent or translucent polybutylene succinate resin layer according to the present invention includes, for example, the above light-shielding polybutylene succinate resin layer, In order to conceal the white polybutylene succinate resin layer, for example, one or more colorants such as chromatic dyes and pigments are added, and at least the polybutylene succinate is added to the vehicle. A resin composition containing as a main component can be prepared.
In the above, as colorants such as chromatic dyes / pigments, for example, azo dyes / pigments, anthraquinone dyes / pigments, phthalocyanine dyes / pigments, quinacridone dyes / pigments, dioxazine dyes / pigments, etc. Inorganic pigments such as organic dyes / pigments, yellow lead, chrome vermilion, bitumen, petal, etc. can be used.
Of course, in the present invention, the above-mentioned white pigment can also be used.

  In the present invention, in each resin composition constituting the polybutylene succinate resin film having a light-shielding property according to the present invention, examples of the plastic compounding agent and additive include, for example, a lubricant, a crosslinking agent, and the like. Agent, antioxidant, UV absorber, light stabilizer, filler, reinforcing agent, antistatic agent, flame retardant, flame retardant, foaming agent, antifungal agent, pigment, dye, dispersant, surfactant, antiblocking An additive, etc. can be used, and further, a modifying resin or the like can also be used. Further, as the addition amount, from a very small amount to several tens of weight%, depending on the purpose, It can be added arbitrarily.

Furthermore, in the above, as the compounding agent or additive, specifically, a lubricant having its own lubricity and little migration in the resin can be used. For example, liquid paraffin, white Vaseline, petroleum wax, microcrystalline wax, montan wax, polyethylene wax and the like, higher fatty acids having 8 to 22 carbon atoms, or higher fatty acid aluminum, higher fatty acid calcium, higher fatty acid magnesium higher fatty acid zinc, higher fatty acid lithium Higher fatty acids or metal salts thereof, linear aliphatic monohydric alcohols having 8 to 18 carbon atoms, glycerin, sorbitol, propylene glycol, pentaerythritol, triethylene glycol, etc. Aliphatic alcohols, higher fatty acids having 4 to 22 carbon atoms and straight chain aliphatics having 8 to 18 carbon atoms Esters with polyhydric alcohols, butyl acetyl citrate, di-2-ethyl-hexyl adipate, azelaic acid-n-hexyl, ethanediol montanate, poly (1.3-butanediol adipate) ester, acetylricino Methyl ester, poly (1.3-butylene glycol, 1.4-butylene glycol, octyl alcohol adipate) ester, ester of sugar sugar and fatty acid ester, hydrogenation Edible oils and fats, castor oil, spam acetyl wax, glycerides of acetylated monoglyceride sugar, ethylene bis-fatty acid amide represented by, for example, ethylene bisoleyl amide having 16 to 18 carbon atoms, higher fatty acid amide having 8 to 22 carbon atoms , Stearyl erucamide, erucic acid amide, oleyl palmitoamide, etc. 1 to 2 types of fatty acid amides, and other types such as methylhydrodiene polysiloxane, dimethyl polysiloxane, methylphenyl polysiloxane, silicone oil jarodine such as polyoxyalkylene dimethylpolysiloxane, and glycerin ester of maleic acid modified rosin The above can be used.
In the present invention, among the lubricants as described above, in particular, erucic acid amide, ethylene bis oleyl amide, stearic acid amide, oleic acid amide, methylene bis stearic acid amide, etc. themselves have lubricity, It is a very effective material.
As the addition amount of the above-mentioned lubricant, it is preferable to add at a ratio of about 0.08 wt% to 10.0 wt% with respect to 100 parts by weight of the polybutylene succinate resin.

In the present invention, other oxides such as aluminum oxide, magnesium oxide, silica, calcium oxide, titanium oxide, and zinc oxide; hydroxides such as aluminum hydroxide, magnesium hydroxide, and calcium hydroxide; Carbonates such as magnesium and calcium carbonate, sulfates such as calcium sulfate and barium sulfate, silicates such as magnesium silicate, aluminum silicate, calcium silicate and aluminosilicate, and others such as kaolin, talc and diatomaceous earth Anti-blocking agent based on inorganic compounds, or high density polyethylene, ultra-high molecular weight polyethylene having a molecular weight of 300000 or more, polypropylene, polycarbonate, polyamide, polyester, melamine resin, diallyl phthalate resin, acrylic resin, etc. Organic consisting of fine powder It one free of compounds based antiblocking agents can be added two or more.
The addition amount is preferably about 0.01 to 3% by weight with respect to 100 parts by weight of the polybutylene succinate resin.

  Next, in the present invention, a method for producing a polybutylene succinate resin film having a light shielding property according to the present invention using each of the resin compositions as described above will be described. Each resin composition is prepared as described above, then two or more of the resin compositions are used, and then the resin compositions are, for example, T-die coextrusion machine, inflation coextrusion machine The polybutylene succinate resin film having light-shielding properties according to the present invention can be produced by coextrusion molding using a machine or the like.

  Thus, in the present invention, a specific method for producing a polybutylene succinate resin film having light-shielding properties according to the present invention using each of the resin compositions as described above will be described. First, as described above, a resin composition for forming a light-blocking polybutylene succinate resin layer according to the present invention and a resin composition for forming a white polybutylene succinate resin layer according to the present invention And then using the two resin compositions, which are co-extruded using, for example, a T-die co-extruder, an inflation co-extruder, etc., according to the present invention It consists of a co-extruded multilayer film, and the first layer is a white polybutylene succinate resin layer, the second layer is a light-shielding polybutylene succinate resin layer, and the third layer is white The polybutylene succine DOO resin layer successively with three-layer co-extrusion laminated polybutylene succinate having a light-shielding property of two or three layers according to the present invention having the structure - it is possible to manufacture the door resin film.

  Furthermore, in the present invention, another specific method for producing a polybutylene succinate resin film having light-shielding properties according to the present invention using each of the resin compositions as described above will be described. First, as described above, the resin composition for forming the light-shielding polybutylene succinate resin layer according to the present invention and the transparent or translucent polybutylene succinate resin layer according to the present invention are formed. The resin composition is then prepared, and then the two types of resin compositions are used, and these are co-extruded using, for example, a T-die co-extruder, an inflation co-extruder, etc. The co-extruded multilayer laminated film according to the invention, the first layer is a transparent or translucent polybutylene succinate resin layer, the second layer is a light-shielding polybutylene succinate resin layer, and The third layer Producing a polybutylene succinate resin film having light-shielding properties comprising two types and three layers according to the present invention, comprising a structure in which three layers are co-extruded and laminated in the order of light to translucent polybutylene succinate resin layers. be able to.

  Further, in the present invention, another specific method for producing a polybutylene succinate resin film having light-shielding properties according to the present invention using each of the resin compositions as described above will be described. First, as described above, the resin composition for forming the light-blocking polybutylene succinate resin layer according to the present invention and the resin composition for forming the white polybutylene succinate resin layer according to the present invention And a resin composition for forming a transparent or translucent polybutylene succinate resin layer according to the present invention, and then using these three types of resin compositions, for example, T Co-extrusion molding using a die co-extrusion machine, an inflation co-extrusion machine, etc., comprising the co-extrusion multilayer laminated film according to the present invention, and the first layer is a transparent or translucent polybutylene succine − The resin layer, the second layer is a white polybutylene succinate resin layer, the third layer is a light-shielding polybutylene succinate resin layer, and the fourth layer is a transparent or translucent polybutylene sac. A polybutylene succinate resin film having light-shielding properties composed of three types and four layers according to the present invention having a constitution in which four layers are coextruded and laminated in the order of the cine resin layers can be produced.

  Furthermore, in the present invention, another specific method for producing a polybutylene succinate resin film having light-shielding properties according to the present invention using each of the resin compositions as described above will be described. First, as described above, the resin composition for forming the light-blocking polybutylene succinate resin layer according to the present invention and the resin composition for forming the white polybutylene succinate resin layer according to the present invention And a resin composition for forming a transparent or translucent polybutylene succinate resin layer according to the present invention, and then using these three types of resin compositions, for example, T Co-extrusion molding using a die co-extrusion machine, an inflation co-extrusion machine, etc., comprising the co-extrusion multilayer laminated film according to the present invention, and the first layer is a transparent or translucent polybutylene succine − The resin layer, the second layer is a white polybutylene succinate resin layer, the third layer is a light-shielding polybutylene succinate resin layer, and the fourth layer is a white polybutylene succinate resin layer. And the 5th layer is the polybutylene sac which has the light shielding property which consists of 3 types 5 layers based on this invention which consists of the structure which 5 layers coextrusion laminated in order of the transparent thru | or translucent polybutylene succinate resin layer A cine resin film can be produced.

The above examples illustrate a few examples of the method for producing a light-shielding polybutylene succinate resin film according to the present invention, and the present invention is not limited thereto. is there.
In general, when the multilayer laminated film according to the present invention is formed by extrusion using each of the resin compositions as described above, for film formation, for example, at the time of product replacement (purge) Because it is burdened with work such as disassembly and cleaning of an extruder, etc., it is desired to avoid the use of colorants such as pigments in the resin composition, and it is desired to form a film without colorant addition It is. Therefore, in the present invention, as an outer layer, in order to form a laminated film in which contamination due to the colorant such as the pigment does not occur in a die that is difficult to disassemble, although the contamination due to the colorant such as the pigment of the extruder is not avoided In addition, a resin composition mainly composed of a transparent or translucent polybutylene succinate resin to which no colorant such as a pigment is added is used, whereby a resin film without a colorant such as a pigment is added to 5 μm to 100 μm. This has the advantage of protecting the dirt on the die.
In the present invention, the light-blocking polybutylene succinate resin layer, the white polybutylene succinate resin layer, and the transparent or translucent polybutylene are used in the production of the multilayer laminated film according to the present invention. The succinate resin layer or the like can be coextruded and laminated not only in one layer but also in two or more layers.
Furthermore, in the present invention, as the multilayer laminated film according to the present invention, other materials are used depending on the purpose of use, applications, etc., and these are arbitrarily coextruded and laminated to form a coextruded multilayer having various forms. A laminated resin film can be designed and manufactured.

Thus, in the present invention, the light-blocking or light-blocking layer composed of two layers of the light-blocking polybutylene succinate resin layer and the white polybutylene succinate resin layer as described above is used. This layer absorbs sunlight, etc., and reflects or diffuses sunlight, etc. in the other layer, and through the synergistic effect of the two layers, it completely transmits sunlight or fluorescent light, etc. composed of the sun or fluorescent lamps. In this way, the effect of further preventing or degrading the contents filled or packaged in the bag or preventing the light deterioration such as discoloration or the like is further increased.
Further, in the present invention, the white polybutylene succinate resin layer has an effect of a protective layer for protecting the light-shielding polybutylene succinate resin layer or the like, or a concealing layer for concealing. It can be played.
Furthermore, in the present invention, one of the above-mentioned white polybutylene succinate resin layers has a function of an underlayer of a printed pattern layer provided directly or indirectly on the layer, and printing The printed image of characters, figures, symbols, patterns, etc. that make up the pattern layer is further clarified, and the beautiful printed pattern can be reproduced or manifested, and the white polybutylene succine -The other side of the toe resin layer has an effect of having a function as a heat-sealable resin layer for forming a seal part or the like at the time of bag making or the like.
In the present invention, the transparent or translucent polybutylene succinate resin layer protects the light-shielding polybutylene succinate resin layer or the white polybutylene succinate resin layer. Acting as a protective layer, or a concealing layer to be concealed, and one of the transparent or translucent polybutylene succinate resin layers is directly or indirectly provided on the underlying layer of the printed pattern layer, etc. As a result, the printed images such as characters, figures, symbols, designs, etc. that make up the printed pattern layer can be made clearer and beautiful printed patterns can be reproduced or manifested. In addition, the other transparent or translucent polybutylene succinate resin layer also functions as a heat-seal resin layer that forms a seal part or the like during bag making. In which advantages can be attained that.

Next, in the present invention, the film thickness of the polybutylene succinate resin film having light-shielding properties according to the present invention is about 15 μm to 180 μm, preferably about 30 μm to 150 μm.
Thus, in the polybutylene succinate resin film having light-shielding properties according to the present invention, as the film thickness of each layer, first, as the light-shielding polybutylene succinate resin layer, the film thickness is 3 μm to 30 μm, Preferably, the polybutylene succinate resin layer having a thickness of about 5 μm to 20 μm and a white polybutylene succinate resin layer having a thickness of 5 μm to 30 μm, preferably about 10 μm to 20 μm. The film thickness is preferably in the range of 5 μm to 100 μm, preferably 10 μm to 80 μm.
In the above, as the film thickness of each layer, first, as the film thickness of the light-blocking polybutylene succinate resin layer, if the film thickness is less than 3 μm, the function as a light-blocking or light blocking layer or the like is reduced. It is not preferable because it may cause a problem of being greatly influenced by unevenness of thickness, and if the film thickness exceeds 30 μm, the light shielding property or light shielding property is enhanced, but the white color that conceals it. The polybutylene succinate resin layer is not preferable because it is difficult to set and select the polybutylene succinate resin layer.
Next, when the film thickness of the white polybutylene succinate resin layer is less than 5 μm, it becomes difficult to conceal the light-shielding polybutylene succinate resin layer, and the appearance is aesthetic. Etc., and when a printed pattern layer or the like is provided on the white polybutylene succinate resin layer, the tone or color tone of the printed pattern layer or the like is affected. Although it is not preferable because the function as a tosyl resin layer or the like is lowered, and when the film thickness exceeds 30 μm, the shielding property of the light-blocking polybutylene succinate resin layer is increased, but the whole This is not preferable because the thickness of the container becomes large and the influence on the environment as packaging waste or the like may increase.
Furthermore, when the film thickness of the transparent or translucent polybutylene succinate resin layer is less than 5 μm, it is difficult to perform functions such as protection and concealment, and the appearance and aesthetics are also improved. This is not preferable because the properties as a heat-sealable resin layer and the like are also deteriorated, and when the thickness exceeds 100 μm, the entire layer thickness increases and is discarded. However, it is not preferable because it is not preferable for environmental measures.

In addition, in this invention, in order to improve the close adhesiveness etc. between each layer which comprises the polybutylene succinate resin film which has the light-shielding property based on this invention, it laminates | stacks through an adhesive resin layer etc. It is something that can be done.
That is, the above-mentioned adhesive resin layer has, for example, inferior affinity, adhesion, etc. between the respective layers, and both of them may cause delamination or the like without being tightly adhered to each other. It is located between the two layers, and has an effect as an extremely excellent adhesive layer that can be laminated with both of them firmly and tightly bonded to each other.
Thus, the above-mentioned adhesive resin layer can be composed of an adhesive resin layer made of a resin composition containing one or more adhesive polyolefin resins as a main component of the vehicle.
As the above-mentioned adhesive polyolefin-based resin, a polyolefin-based resin that can be melted by heat and extruded from a T-die, specifically, for example, low density polyethylene, medium density polyethylene, high density polyethylene, linear (wire ) Low-density polyethylene, ethylene-α / olefin copolymer polymerized using metallocene catalyst, polypropylene, ethylene-vinyl acetate copolymer, ionomer resin, ethylene-ethyl acrylate copolymer, ethylene-acrylic acid copolymer Polyolefin resins such as polymers, ethylene-methacrylic acid copolymers, ethylene-propylene copolymers, methylpentene polymers, polyethylene, polypropylene, etc., such as acrylic acid, methacrylic acid, maleic anhydride, fumaric acid, etc. Acid-modified polyolefin resin modified with unsaturated carboxylic acid Other such heat - tosylate - to one free polyolefin resin having Le property can be used two or more kinds.

  As is clear from the above description, the polybutylene succinate resin film having light-shielding properties according to the present invention is a light-shielding material and also functions as a heat-sealable resin layer, and has excellent light-shielding properties. In addition, it is aluminum-free, has excellent laminating strength, heat seal strength, etc., and has strength, etc., and has various properties such as weather resistance, heat resistance, water resistance, etc. Excellent fastness, especially light-shielding or light-blocking properties, for example, blocking sunlight or fluorescent light transmission by the sun or fluorescent lamps, etc., contents are decomposed or altered, discolored, etc. It has excellent suitability as a packaging material for photosensitive materials as industrial parts that require complete light shielding. And packaging appearance It has excellent cosmetic properties without damage. Furthermore, when it is incinerated and discarded after use, it does not decompose in the natural environment and generates no harmful substances. This has the advantage that it is easy to detect a metal piece (foreign matter) by a machine or the like.

Next, in the present invention, the high-temperature softening resin layer constituting the laminated material according to the present invention will be described. Such a high-temperature softening resin layer is described in, for example, the aforementioned Japanese Patent Application Laid-Open No. 2002-302165. A high temperature softening resin layer can be used as well.
That is, in the present invention, the high-temperature softening resin layer includes an ethylene / vinyl acetate resin, a polyamide / nitrified cotton resin, or a polyamide / nitrified cotton / polyethylene WAX system having a softening temperature of 60 to 90 ° C. It consists of a thermoplastic resin such as a resin.
The seal adhesive strength in the high-temperature softening resin layer is 700 g / 15 mm or more at room temperature, but decreases to 300 g / 15 mm when heated to 90 ° C. or more.
Moreover, said high temperature softening resin layer is formed by the pattern coat method in the predetermined position on a plane using the above thermoplastic resins so that thickness may be settled in the range of 1-5 micrometers.

Next, in the present invention, the intermediate base film constituting the laminated material according to the present invention will be described. As the intermediate base film, for example, a gas barrier film that prevents permeation of oxygen gas, water vapor, or the like, or A light-shielding film having the property of shielding light such as sunlight and fluorescence, and the like can be used. This may be a single base material or a composite base material formed by combining two or more base materials. It may be.
Specifically, for example, a resin film having a thin film of an inorganic oxide such as silicon oxide or aluminum oxide, which blocks permeation of oxygen gas, water vapor, etc., a low density which prevents permeation of water vapor, water, etc. Polyvinyl alcohol that blocks the permeation of films or sheets of resin such as polyethylene, medium density polyethylene, high density polyethylene, linear low density polyethylene, polypropylene, ethylene-propylene copolymer, oxygen gas, water vapor, etc. A film or sheet of a resin such as saponified ethylene-vinyl acetate copolymer or nylon MXD6, a colorant such as a pigment to the resin, and other desired additives and kneaded to form a film Various colored resin films or sheets having the following can be used.
These materials can be used alone or in combination. The thickness of the film or sheet is arbitrary, but is usually about 5 μm to 300 μm, more preferably about 10 μm to 100 μm.

In the above, examples of the resin film that supports the vapor-deposited thin film include, for example, a polyester film, a polyamide film, a polyolefin film, a polyvinyl chloride film, a polycarbonate film, a polyvinylidene chloride film, a polyvinyl alcohol film, and ethylene. -Vinyl acetate copolymer saponified film, etc. can be used.
In the above, as the inorganic oxide constituting the vapor-deposited film layer of the inorganic oxide, for example, silicon oxide (SiO _x ), aluminum oxide, indium oxide, tin oxide, zirconium oxide, or the like may be used. it can.
Furthermore, in the present invention, the inorganic oxide may be a mixture of silicon monoxide and silicon dioxide, or a mixture of silicon oxide and aluminum oxide.
Thus, in the present invention, the inorganic oxide thin film layer is formed by forming a deposited film by a vacuum deposition method such as an ion beam method or an electron beam method, a sputtering method, or the like. be able to.
In the above, the thickness of the thin film layer of the inorganic oxide is usually preferably about 50 to 2000 mm in order to obtain a sufficient barrier property, and particularly preferably about 100 to 1500 mm in the present invention. .
In the above, when the thickness of the inorganic oxide thin film layer exceeds 1500 mm, particularly when it exceeds 2000 mm, the inorganic oxide thin film layer is liable to crack and the like, thereby reducing the barrier property. It is not preferable because it is problematic and the material cost becomes high, and less than 50 mm, particularly less than 100 mm, it is difficult to recognize the effect, which is not preferable.

Next, in the present invention, as the intermediate base film constituting the laminated material according to the present invention, for example, there is little adsorption of a fragrance component contained in the contents to be packed and packed, and the aroma retaining property is high. A resin film or sheet having properties that do not produce a taste, a bad odor, or the like can be used.
Specifically, for example, polyacrylic resin, polymethacrylic resin, polyacrylonitrile resin, polymethacrylonitrile resin, polystyrene resin, polycarbonate resin, polyethylene terephthalate resin or the like Resin obtained by copolymerizing or modifying a part of ethylene component and / or terephthalate component with other di- or higher polyhydric alcohol component or dicarboxylic acid component, or polyester such as polyethylene naphthalate resin Use films or sheets of resins such as resins, polyamide resins, saponified ethylene-vinyl acetate copolymers, polyvinyl alcohol resins, polyvinyl chloride resins, polyvinylidene chloride resins, etc. Can do.
Therefore, in the present invention, among the above-described resin films or sheets, it is desirable to use a resin film or sheet having a fragrance retaining property and a barrier property against oxygen gas or water vapor. Specifically, for example, a saponified ethylene-vinyl acetate copolymer, a polyamide-based resin, a polyacrylonitrile-based resin, a polyester-based resin, or the like is used as a resin film or a film having excellent aroma retention and barrier properties. -It is desirable to use

Furthermore, in the present invention, since packaging containers, lids, etc. are usually subjected to severe physical and chemical conditions, the packaging materials constituting the packaging containers have severe packaging suitability. And various conditions such as anti-deformation strength, drop impact strength, pinhole resistance, heat resistance, sealability, quality maintenance, workability, hygiene, etc. are required. In, a material that satisfies the various conditions as described above can be arbitrarily selected and used.
Specifically, for example, low density polyethylene, medium density polyethylene, high density polyethylene, linear low density polyethylene, polypropylene, ethylene-propylene copolymer, ethylene-vinyl acetate copolymer, ionomer resin, ethylene-acrylic acid Ethyl copolymer, ethylene-acrylic acid or methacrylic acid copolymer, methylpentene polymer, polybutene resin, polyvinyl chloride resin, polyvinyl acetate resin, polyvinylidene chloride resin, vinyl chloride-vinylidene chloride copolymer Polymer, poly (meth) acrylic resin, polyacrylonitrile resin, polystyrene resin, acrylonitrile-styrene copolymer (AS resin), acrylonitrile-butadiene-styrene copolymer (ABS resin), polyester resin, Polyamide resin, polycarbonate Known resins such as neat resins, polyvinyl alcohol resins, saponified ethylene-vinyl acetate copolymers, fluorine resins, diene resins, polyacetal resins, polyurethane resins, nitrocellulose, etc. Any resin film or sheet can be selected and used.
In addition, for example, a film such as cellophane, a synthetic paper, or the like can be used.
In the present invention, the above-described film or sheet may be any of unstretched, uniaxially or biaxially stretched.
The thickness is arbitrary, but can be selected from a range of several μm to 300 μm.
Furthermore, in the present invention, the film or sheet may be a film having any property such as extrusion film formation, inflation film formation, and coating film.

In the present invention, in the laminated material according to the present invention, an arbitrary printed pattern layer can be provided on the front surface, the back surface, or both surfaces of any material constituting the laminated material.
Thus, in the present invention, as the above-mentioned printed pattern layer, for example, on the polylactic acid resin film as the above-mentioned substrate film, for example, desired printing made of characters, figures, symbols, patterns, etc. A printed pattern layer can be formed by printing a pattern.
Thus, as the above-mentioned printed pattern layer, specifically, first, an ink vehicle composed of one or more kinds of resin or the like is a main component, and if necessary, a plasticizer and a stabilizer. , One or more additives such as antioxidants, light stabilizers, ultraviolet absorbers, curing agents, cross-linking agents, lubricants, antistatic agents, fillers, etc. are optionally added, and further dyes, A colorant such as a pigment is added, and the ink composition is prepared by sufficiently kneading with a solvent, a diluent, etc., and then the ink composition is used, for example, gravure printing, offset printing, letterpress printing, screen printing A desired printing pattern consisting of characters, figures, symbols, patterns, etc. is printed on the base film using a printing method such as printing, transfer printing, flexographic printing, etc. The printed pattern layer can be formed

  In the above, as the vehicle for ink, known ones such as sesame oil, drill oil, soybean oil, hydrocarbon oil, rosin, rosin ester, rosin modified resin, shellac, alkyd resin, phenol resin, malein Acid resins, natural resins, hydrocarbon resins, polyvinyl chloride resins, polyvinyl acetate resins, polystyrene resins, polyvinyl butyral resins, acrylic or methacrylic resins, polyamide resins, polyester resins, polyurethane resins Use one or more of epoxy resin, urea resin, melamine resin, amino alkyd resin, phenol resin, nitrocellulose, ethylcellulose, chlorinated rubber, cyclized rubber, etc. Can do.

  Next, in the present invention, a method for producing a laminated material according to the present invention using the above materials will be described. First, for example, via a primer agent layer or an adhesive layer for lamination. , Dry laminate lamination method for lamination, or extrusion lamination method for laminating various resins through a primer agent layer or anchor coat agent layer, etc., and other lamination methods Can be used to manufacture laminates according to the present invention having various forms.

Thus, in the present invention, the laminating adhesive layer constituting the laminated material according to the present invention will be described. As the laminating adhesive layer constituting the laminating adhesive layer, for example, Polyacrylate adhesives comprising polyvinyl acetate adhesive, homopolymers of ethyl acrylate, butyl, 2-ethylhexyl ester, etc., or copolymers of these with methyl methacrylate, acrylonitrile, styrene, etc. , Cyanoacrylate adhesives, ethylene copolymer adhesives made of copolymers of ethylene and vinyl acetate, ethyl acrylate, acrylic acid, methacrylic acid, etc., cellulose adhesives, polyester-based adhesives Amino resin-based adhesive made of adhesive, polyamide-based adhesive, polyimide-based adhesive, urea resin or melamine resin , Phenolic resin adhesive, epoxy adhesive, polyurethane adhesive, reactive (meth) acrylic adhesive, chloroprene rubber, nitrile rubber, rubber adhesive made of styrene-butadiene rubber, silicone It is possible to use an adhesive such as an inorganic adhesive made of a base adhesive, an alkali metal silicate, a low melting point glass, or the like.
The composition system of the above-mentioned adhesive may be any composition form such as an aqueous type, a solution type, an emulsion type, and a dispersion type, and the properties thereof are film / sheet type, powder type, solid type, etc. Any form may be used, and the adhesion mechanism may be any form such as a chemical reaction type, a solvent volatilization type, a heat melting type, and a hot pressure type.
Thus, the above adhesive can be applied by, for example, a roll coating method, a gravure roll coating method, a kiss coating method, a coating method or the like, or a printing method. The coating amount is preferably about 0.1 to 10 g / m ² (dry state).

Next, in the present invention, the anchor coat agent layer constituting the laminated material according to the present invention will be described. As the anchor coat agent constituting such an anchor coat agent layer, for example, alkyl titane is used. Various water-based or oil-based anchor coating agents such as organic titanium-based, isocyanate-based, polyethyleneimine-based, polyptadiene-based, etc. can be used.
The above-mentioned anchor coating agent can be coated using a coating method such as a roll coat, a gravure roll coat, a kiss coat, and the like. The amount is preferably 0.1 to 5 g / m ² (dry state).

Examples of the melt-extruded resin layer in the above extrusion lamination method include, for example, polyethylene resins, polypropylene resins, acid-modified polyethylene resins, acid-modified polypropylene resins, ethylene-acrylic acid or methacrylic acid copolymers. , Thermoplastic resins such as sarin resin, ethylene-vinyl acetate copolymer, polyvinyl acetate resin, ethylene-acrylic acid ester or methacrylic acid ester copolymer, polystyrene resin, polyvinyl chloride resin, etc. 1 type (s) or 2 or more types can be used.
In the above extrusion laminating method, in order to obtain stronger adhesive strength, for example, lamination can be performed through an anchor coating agent layer such as the above-described anchor coating agent. .

In the present invention, examples of the primer layer include a polyurethane resin, a polyester resin, a polyamide resin, an epoxy resin, a phenol resin, a (meth) acrylic resin, and a polyvinyl acetate resin. A primer layer can be formed using a resin composition having a main component of a vehicle, such as polyethylene resin or polyolefin resin such as polypropylene, or a copolymer or modified resin thereof, cellulose resin, or the like. .
In the present invention, for example, a primer coating layer is formed by coating using a coating method such as roll coating, gravure rolling coating, kiss coating, etc. Therefore, the coating amount is preferably about 0.1 to 10 g / m ² (dry state).
Moreover, in this invention, when performing said lamination | stacking, if necessary, pre-treatments, such as a corona treatment and an ozone treatment, can be given to a film.

Thus, in the present invention, a method for making a microwave cooking bag according to the present invention using the laminate material according to the present invention as described above will be described. Material, and the heat-sealable polybutylene succinate resin film as the heat-sealable resin layer of the inner layer is opposed to each other and folded or two of them In addition, the peripheral end portions of the packaging can be heat sealed to provide a sealing portion, and packaging bags having various forms can be made.
In the present invention, when the seal portion is formed at the end portion around the outer periphery by the above heat seal, the high-temperature softening resin according to the present invention is provided in at least one portion of the seal portion. A seal portion is formed with a layer interposed.
Thus, as a bag-making method, the above-mentioned laminated material is folded with the inner layer faces facing each other, or the two sheets are overlapped, and the peripheral edge of the outer periphery is, for example, a side sheet. Seal type, two-sided seal type, three-sided seal type, four-sided seal type, envelope-sealed seal type, jointed seal type (pillar seal type), pleated seal type It is possible to manufacture various types of packaging bags according to the present invention by heat sealing in the form of a heat seal such as a flat bottom seal type, a square bottom seal type, or the like.
In addition, for example, a self-supporting packaging bag (standing pouch) or the like can be manufactured, and in the present invention, a tube container or the like can also be manufactured using the above-described laminated material.
In the above, as the heat seal method, for example, a bar seal, a rotary roll seal, a belt seal, an impulse seal, a high frequency seal, an ultrasonic seal and the like are known. It can be done by the method.
In the present invention, a spout such as a one-piece type, a two-piece type, or the like, or a zipper for opening and closing can be arbitrarily attached to the packaging bag as described above.

In the present invention, the microwave oven cooking bag produced as described above, for example, agricultural products such as marine products, vegetables and fruits, livestock products such as poultry and meat, fried foods, cooked foods such as fries, confectionery, etc. Various frozen foods and chilled foods can be produced by filling and packaging foods and beverages such as the above, and then freezing the package by a normal method.
Or, for example, agricultural products such as marine products, vegetables and fruits, livestock products such as food birds and meats, fried foods such as fried foods, confectionery, etc. Various frozen foods and chilled foods can be manufactured by filling and packaging the food frozen in the above into the microwave cooking bag according to the present invention.
Thus, in the present invention, the above frozen food, chilled food, etc. can be heated or cooked in a microwave oven to eat the food as its contents.
The microwave cooking bag according to the present invention uses a polylactic acid resin film, a polybutylene succinate resin film, etc., and constitutes a packaging bag using this as a main material. When used as waste after disposal, the bag is biodegradable by itself and has the advantage of decomposing in the natural environment, and can suppress the generation of carbon dioxide as much as possible. Is.

Thus, in the present invention, the various frozen foods and chilled foods produced above are particularly suitable for the light-shielding property or light-shielding property of the polybutylene succinate resin film having the light-shielding property according to the present invention. For example, it is possible to prevent sunlight or fluorescent light from being transmitted through the sun or fluorescent lamps, and to prevent the contents from being decomposed or altered, or causing light deterioration such as discoloration or the like. For this reason, for example, in the case of foods and drinks containing fats and oils as contents, there is an advantage that oxidation of fat and oil components and the like due to transmission of sunlight or fluorescence can be prevented.
In particular, frozen foods and drinks are usually handled by supermarkets and other mass retailers. In this case, they are sold on display shelves that receive a lot of fluorescence from fluorescent lamps. It's real.
Thus, in frozen foods and beverages sold under the above environment, the fat and oil components are greatly affected by light having a wavelength of 500 nm or less, and have a maximum absorption of visible light in the yellow band around 550 nm. Therefore, the oxidation reaction is accelerated by the influence of the fluorescent light or the like by a fluorescent lamp or the like, and the content may be decomposed or altered.
However, as described above, the polybutylene succinate resin film having light-shielding property according to the present invention is particularly excellent in light-shielding property or light-shielding property, for example, transmission of sunlight or fluorescence by the sun or a fluorescent lamp. The polybutylene succine having light-shielding properties according to the present invention can be prevented from being decomposed or altered or prevented from causing light deterioration such as discoloration or the like. In frozen foods and beverages using the microwave cooking bag according to the present invention made from the laminated material according to the present invention manufactured using a resin film, it is handled at a mass retailer such as a supermarket, Even if it is placed on a display shelf that receives a lot of fluorescence from fluorescent lamps, etc., and is affected by fluorescence from fluorescent lamps, etc., it prevents the oxidation reaction from being promoted and the contents are not decomposed. And it is capable of preventing the occurrence of deterioration and the like.
In the present invention, the frozen food and chilled food produced above do not use an aluminum foil or an aluminum vapor deposited film. Therefore, a metal (foreign matter) detector is used, and a metal by a metal (foreign matter) detector is used. It has the advantage that (foreign matter) detection is also possible.
Next, the present invention will be described more specifically with reference to examples.

(1). First, the following resin compositions (a), (b), (c) and (d) were prepared. (I). Resin composition constituting the first layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 90.0 parts by weight of 5 g / 10 minutes, melting point 110 ° C., and high-pressure low-density polyethylene (manufactured by Nippon Polyethylene Co., Ltd., trade name, Novatec LC522, density = 0.923 g / cm ³ , melt flow rate, MFR = 3 (7 g / 10 min) 10 parts by weight, 0.5 parts by weight of synthetic silica, and 0.05 parts by weight of erucamide were sufficiently kneaded to prepare a resin composition.
(B). Resin composition constituting the second layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 72.0 parts by weight of 5 g / 10 minutes, melting point 110 ° C., high-pressure low-density polyethylene (manufactured by Nippon Polyethylene Co., Ltd., trade name, Novatec LC522, density = 0.923 g / cm ³ , melt flow rate, MFR = 3 0.7 g / 10 min) 8 parts by weight and 20.0 parts by weight of titanium oxide as a white pigment were sufficiently kneaded to prepare a resin composition.
(C). Resin composition constituting third layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 66.0 parts by weight of 5 g / 10 minutes, melting point 110 ° C., and high-pressure low-density polyethylene (manufactured by Nippon Polyethylene Co., Ltd., trade name, Novatec LC522, density = 0.923 g / cm ³ , melt flow rate, MFR = 3 7 g / 10 min) 7.5 parts by weight, 1.5 parts by weight of carbon black as a black pigment, and 25.0 parts by weight of titanium oxide as a white pigment were sufficiently kneaded to obtain a resin composition. Prepared.
(D). Resin composition constituting the fourth layer The resin composition prepared in (a) above was used in the same manner.
(2). Next, using each of the resin compositions prepared above, using a three-kind four-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition (a) is 3 μm, (B) A layer made of the resin composition was co-extruded to 17 μm, (c) the layer made of the resin composition was 7 μm, and (d) the layer made of the resin composition was 13 μm to form a film. A polybutylene succinate resin film having light-shielding properties according to the present invention comprising a 40 μm co-extruded inflation film was produced.
When the polybutylene succinate resin film having the light shielding property produced above was visually recognized from the first layer side, it was milky white and excellent in aesthetics.
Further, the light-shielding polybutylene succinate resin film produced above was sufficiently good in light-shielding properties and hardly transmitted each wavelength resulting from the oxidation of fats and oils.
(3). On the other hand, in a polylactic acid resin film having a thickness of 20 μm (trade name, stretched PLA film [Palgreen LC], single-sided treatment, manufactured by Tosello Co., Ltd., one side treatment) Pattern-coating a composition for forming a high-temperature softening resin layer (manufactured by The Inktech Co., Ltd., trade name, WT-PC agent, melting point 66.8 ° C.) containing a polymer as a main component of the vehicle, A pattern-like high-temperature softening resin layer having a thickness of 3 μm (dry state) was formed.
Further, after the pattern-like high-temperature softening resin layer is formed as described above, a two-component curable polyurethane laminating adhesive (main agent: polyester) is formed on the entire surface including the pattern-like high-temperature softening resin layer. Polyol, curing agent: aliphatic isocyanate) is coated using a gravure roll coating method to form an adhesive layer for laminating having a thickness of 3.0 g / m ² (dry). Thereafter, the polybutylene succinate resin film having a thickness of 40 μm produced as described above is opposed to the surface of the laminating adhesive layer, and the corona-treated surface subjected to corona discharge treatment is opposed to the laminated adhesive layer. The laminates according to the present invention were manufactured by superimposing them and then laminating them together.
(4). Next, using the laminated material according to the present invention manufactured as described above, a pillow packaging bag (130 mm × 240 mm) is prepared, and this is filled and packed with trayed frozen shumai, and the refrigeration according to the present invention. Food was manufactured.
Next, the frozen food produced above was cooked using a 500 W microwave oven. The frozen shumai packed and packaged was cooked to about 100 ° C. with a microwave oven, steam was emitted, and the packaging bag was expanded.
Thereafter, in the packaging bag, the seal portion was broken from the heat-sealed high-temperature softening resin layer portion, so that the vapor was released and the internal pressure could be reduced without rupture.
Furthermore, no discoloration of the contents due to light was observed.
In addition, the packaged product manufactured as described above can be subjected to foreign matter inspection using a metal detector.

(1). First, the following resin compositions (a), (b), (c), (d) and (e) were prepared.
(I). Resin composition constituting first layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 90.0 parts by weight of 5 g / 10 min, melting point 110 ° C.) and an ethylene / α-olefin copolymer (trade name, Evoluate, manufactured by Sumitomo Mitsui Chemicals Co., Ltd.) polymerized using a single site catalyst (metallocene catalyst) SP2020, density = 0.916 g / cm ³ , melt flow rate, MFR = 1.5 g / 10 min) 10 parts by weight, 0.5 parts by weight of synthetic silica, and 0.05 parts by weight of erucamide sufficiently A resin composition was prepared by kneading.
(B). Resin composition constituting second layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 72.0 parts by weight of 5 g / 10 minutes, melting point 110 ° C.) and ethylene / α-olefin copolymer polymerized using a single site catalyst (metallocene catalyst) (manufactured by Sumitomo Mitsui Chemicals, trade name, Evolu) SP2020, density = 0.916 g / cm ³ , melt flow rate, MFR = 1.5 g / 10 min) 8 parts by weight and 20.0 parts by weight of titanium oxide as a white pigment are sufficiently kneaded to obtain a resin composition Was prepared.
(C). Resin composition constituting the third layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 66.0 parts by weight of 5 g / 10 min, melting point 110 ° C.) and an ethylene / α-olefin copolymer polymerized using a single site catalyst (metallocene catalyst) (trade name, Evolu, manufactured by Sumitomo Mitsui Chemicals, Inc.) SP2020, density = 0.916 g / cm ³ , melt flow rate, MFR = 1.5 g / 10 min) 7.5 parts by weight, carbon black as a black pigment, 1.5 parts by weight, and oxidation as a white pigment 25.0 parts by weight of titanium was sufficiently kneaded to prepare a resin composition.
(D). Resin composition constituting the fourth layer The resin composition prepared in (b) above was similarly used.
(E). Resin composition constituting the fifth layer The resin composition prepared in (a) above was similarly used.
(2). Next, using each of the resin compositions prepared above, using a three-kind five-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 3 μm, The layer of (b) resin composition is 17 μm, the layer of (c) resin composition is 7 μm, the layer of (d) resin composition is 5 μm, and the layer of (e) resin composition is 8 μm. A polybutylene succinate resin film having light-shielding properties according to the present invention comprising a five-layer co-extruded inflation film having a total thickness of 40 μm was produced by extrusion.
When the polybutylene succinate resin film having the light shielding property produced above was visually recognized from the first layer side, it was milky white and excellent in aesthetics.
Further, the light-shielding polybutylene succinate resin film produced above was sufficiently good in light-shielding properties and hardly transmitted each wavelength resulting from the oxidation of fats and oils.
(3). On the other hand, in a polylactic acid resin film having a thickness of 20 μm (trade name, stretched PLA film [Palgreen LC], single-sided treatment, manufactured by Tosello Co., Ltd., one side treatment) Pattern-coating a composition for forming a high-temperature softening resin layer (manufactured by The Inktech Co., Ltd., trade name, WT-PC agent, melting point 66.8 ° C.) containing a polymer as a main component of the vehicle, A pattern-like high-temperature softening resin layer having a thickness of 3 μm (dry state) was formed.
Further, after the pattern-like high-temperature softening resin layer is formed as described above, a two-component curing type polyurethane-based laminate adhesive (main agent: polyester) is formed on the entire surface including the pattern-like high-temperature softening resin layer. Polyol, curing agent: aliphatic isocyanate) is coated using a gravure roll coating method to form an adhesive layer for laminating having a thickness of 3.0 g / m ² (dry). Then, the polybutylene succinate resin film having a thickness of 40 μm produced as described above is laminated on the surface of the adhesive layer for laminating with the corona-treated surface subjected to corona discharge treatment facing each other. Thereafter, both of them were dry-laminated to produce a laminated material according to the present invention.
Next, using the laminated material according to the present invention manufactured as described above, a pillow packaging bag (130 mm × 240 mm) is prepared, and this is filled and packed with trayed frozen shumai, and the refrigeration according to the present invention. Food was manufactured.
Next, the frozen food produced above was cooked using a 500 W microwave oven. The frozen shumai packed and packaged was cooked to about 100 ° C. with a microwave oven, steam was emitted, and the packaging bag was expanded.
Thereafter, in the packaging bag, the seal portion was broken from the heat-sealed high-temperature softening resin layer portion, so that the vapor was released and the internal pressure could be reduced without rupture.
Furthermore, no discoloration of the contents due to light was observed.
In addition, the packaged product manufactured as described above can be subjected to foreign matter inspection using a metal detector.

(1). First, the following resin compositions (a), (b), (c), (d) and (e) were prepared.
(I). Resin composition constituting first layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. A resin composition was prepared by sufficiently kneading 100.0 parts by weight (5 g / 10 minutes, melting point 110 ° C.), 0.5 parts by weight of synthetic silica, and 0.05 parts by weight of erucamide.
(B). Resin composition constituting second layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. A resin composition was prepared by sufficiently kneading 80.0 parts by weight of 5 g / 10 minutes, melting point 110 ° C.) and 20.0 parts by weight of titanium oxide as a white pigment.
(C). Resin composition constituting the third layer Polybutylene succinate (PBS) (Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4. 5 g / 10 minutes, melting point 110 ° C.) 73.5 parts by weight, carbon black 1.5 parts by weight as a black pigment, and titanium oxide 25.0 parts by weight as a white pigment are sufficiently kneaded to obtain a resin. A composition was prepared.
(D). Resin composition constituting the fourth layer The resin composition prepared in (b) above was similarly used.
(E). Resin composition constituting the fifth layer The resin composition prepared in (a) above was similarly used.
(2). Next, using each of the resin compositions prepared above, using a three-kind five-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 3 μm, The layer of (b) resin composition is 17 μm, the layer of (c) resin composition is 7 μm, the layer of (d) resin composition is 5 μm, and the layer of (e) resin composition is 8 μm. A polybutylene succinate resin film having light-shielding properties according to the present invention comprising a five-layer co-extruded inflation film having a total thickness of 40 μm was produced by extrusion.
When the polybutylene succinate resin film having the light shielding property produced above was visually recognized from the first layer side, it was milky white and excellent in aesthetics.
Further, the light-shielding polybutylene succinate resin film produced above was sufficiently good in light-shielding properties and hardly transmitted each wavelength resulting from the oxidation of fats and oils.
(3). On the other hand, in a polylactic acid resin film having a thickness of 20 μm (trade name, stretched PLA film [Palgreen LC], single-sided treatment, manufactured by Tosello Co., Ltd., one side treatment) Pattern-coating a composition for forming a high-temperature softening resin layer (manufactured by The Inktech Co., Ltd., trade name, WT-PC agent, melting point 66.8 ° C.) containing a polymer as a main component of the vehicle, A pattern-like high-temperature softening resin layer having a thickness of 3 μm (dry state) was formed.
Further, after the pattern-like high-temperature softening resin layer is formed as described above, a two-component curing type polyurethane-based laminate adhesive (main agent: polyester) is formed on the entire surface including the pattern-like high-temperature softening resin layer. Polyol, curing agent: aliphatic isocyanate) is coated using a gravure roll coating method to form an adhesive layer for laminating having a thickness of 3.0 g / m ² (dry). Then, the polybutylene succinate resin film having a thickness of 40 μm produced as described above is laminated on the surface of the adhesive layer for laminating with the corona-treated surface subjected to corona discharge treatment facing each other. Thereafter, both of them were dry-laminated to produce a laminated material according to the present invention.
Next, using the laminated material according to the present invention manufactured as described above, a pillow packaging bag (130 mm × 240 mm) is prepared, and this is filled and packed with trayed frozen shumai, and the refrigeration according to the present invention. Food was manufactured.
Next, the frozen food produced above was cooked using a 500 W microwave oven. The frozen shumai packed and packaged was cooked to about 100 ° C. with a microwave oven, steam was emitted, and the packaging bag was expanded.
Thereafter, in the packaging bag, the seal portion was broken from the heat-sealed high-temperature softening resin layer portion, so that the vapor was released and the internal pressure could be reduced without rupture.
Furthermore, no discoloration of the contents due to light was observed.
In addition, the packaged product manufactured as described above can be subjected to foreign matter inspection using a metal detector.

First, the following resin compositions (a), (b) and (c) were prepared.
(I). 100 parts by weight of polybutylene succinate (trade name, GSP1a-AZ91T, density = 1.26 g / cm ³ , melt flow rate, MFR = 4.5 g / 10 min, melting point = 110 ° C., manufactured by Mitsubishi Chemical Corporation) Then, 0.5 parts by weight of synthetic silica and 0.05 parts by weight of erucamide were sufficiently kneaded to prepare a resin composition.
(B). Polybutylene succinate (PBS) (manufactured by Mitsubishi Chemical Corporation, trade name, GS Pla AZ91T: density = 1.26 g / cm ³ , melt flow rate (MFR) = 4.5 g / 10 min, melting point 110 ° C.) 66.0 parts by weight and high-pressure low-density polyethylene (trade name, Novatec LC522, density = 0.923 g / cm ³ , melt flow rate, MFR = 3.7 g / 10 min, manufactured by Nippon Polyethylene Co., Ltd.) 7.5 Part by weight, 1.5 parts by weight of carbon black as a black pigment, and 25.0 parts by weight of titanium oxide as a white pigment were sufficiently kneaded to prepare a resin composition.
(C). 100 parts by weight of polybutylene succinate (trade name, GSP1a-AZ91T, density = 1.26 g / cm ³ , melt flow rate, MFR = 4.5 g / 10 min, melting point = 110 ° C., manufactured by Mitsubishi Chemical Corporation) Then, 0.5 parts by weight of synthetic silica and 0.05 parts by weight of erucamide were sufficiently kneaded to prepare a resin composition.
Next, using each of the resin compositions prepared above, using a two-type three-layer top-blown air-cooled inflation coextrusion film-forming machine, the layer of the resin composition of (A) is 5 μm, (B) A layer made of the resin composition of 20 μm and (c) a layer of the resin composition of 5 μm are coextruded to form a film, and two types and three layers of a coextruded inflation film having a total thickness of 30 μm. A polybutylene succinate resin film having light shielding properties according to the present invention was produced.
On the other hand, in a polylactic acid resin film having a thickness of 20 μm (trade name, stretched PLA film [Palgreen LC], single-sided treatment, manufactured by Tosello Co., Ltd., one side treatment) Pattern-coating a composition for forming a high-temperature softening resin layer (manufactured by The Inktech Co., Ltd., trade name, WT-PC agent, melting point 66.8 ° C.) containing a polymer as a main component of the vehicle, A pattern-like high-temperature softening resin layer having a thickness of 3 μm (dry state) was formed.
Further, after the pattern-like high-temperature softening resin layer is formed as described above, a two-component curable polyurethane laminating adhesive (main agent: polyester) is formed on the entire surface including the pattern-like high-temperature softening resin layer. Polyol, curing agent: aliphatic isocyanate) is coated using a gravure roll coating method to form an adhesive layer for laminating having a thickness of 3.0 g / m ² (dry). Thereafter, the 30-μm-thick polybutylene succinate resin film produced above is overlaid on the surface of the laminating adhesive layer with its corona-treated surface subjected to corona discharge treatment facing each other. Thereafter, both of them were dry-laminated to produce a laminated material according to the present invention.
Next, using the laminated material according to the present invention manufactured as described above, a pillow packaging bag (130 mm × 240 mm) is prepared, and this is filled and packed with trayed frozen shumai, and the refrigeration according to the present invention. Food was manufactured.
Next, the frozen food produced above was cooked using a 500 W microwave oven. The frozen shumai packed and packaged was cooked to about 100 ° C. with a microwave oven, steam was emitted, and the packaging bag was expanded.
Thereafter, in the packaging bag, the seal portion was broken from the heat-sealed high-temperature softening resin layer portion, so that the vapor was released and the internal pressure could be reduced without rupture.
Furthermore, no discoloration of the contents due to light was observed.
In addition, the packaged product manufactured as described above can be subjected to foreign matter inspection using a metal detector.

In the microwave cooking bag according to the present invention, for example, agricultural products such as marine products, vegetables and fruits, livestock products such as food birds and meats, fried foods such as fried foods, frozen foods such as confectionery and other foods and beverages Can be used to produce various frozen and chilled foods.
Moreover, the discoloration of the contents by light is not recognized in the microwave cooking bag according to the present invention.
Furthermore, the microwave oven cooking bag according to the present invention has biodegradability and can be decomposed by microorganisms or the like even when discarded in the natural environment, thereby preserving the natural environment.

It is a schematic sectional drawing which shows the layer structure of the example about the laminated material which concerns on the microwave oven cooking bag which concerns on this invention. It is a schematic sectional drawing which shows the layer structure of the example about the laminated material which concerns on the microwave oven cooking bag which concerns on this invention. It is a schematic perspective view which shows the structure of the example about the microwave oven cooking bag which uses the laminated material which concerns on this invention shown in FIG. It is a schematic perspective view which shows the structure of the example about the packaged product which concerns on this invention manufactured using the microwave oven cooking bag which concerns on this invention shown in FIG. About the automatic opening function of the internal steam pressure when this is heated with a microwave oven about the packaged products such as frozen food and chilled food manufactured using the microwave cooking bag according to the present invention shown in FIG. It is a schematic sectional drawing which shows an outline. BRIEF DESCRIPTION OF THE DRAWINGS It is schematic sectional drawing which shows the layer structure of the example about the polybutylene succinate resin film which has the light-shielding property concerning this invention which forms the laminated material which concerns on this invention which comprises the bag for microwave oven cooking concerning this invention. is there. BRIEF DESCRIPTION OF THE DRAWINGS It is schematic sectional drawing which shows the layer structure of the example about the polybutylene succinate resin film which has the light-shielding property concerning this invention which forms the laminated material which concerns on this invention which comprises the bag for microwave oven cooking concerning this invention. is there. BRIEF DESCRIPTION OF THE DRAWINGS It is schematic sectional drawing which shows the layer structure of the example about the polybutylene succinate resin film which has the light-shielding property concerning this invention which forms the laminated material which concerns on this invention which comprises the bag for microwave oven cooking concerning this invention. is there. BRIEF DESCRIPTION OF THE DRAWINGS It is schematic sectional drawing which shows the layer structure of the example about the polybutylene succinate resin film which has the light-shielding property concerning this invention which forms the laminated material which concerns on this invention which comprises the bag for microwave oven cooking concerning this invention. is there. BRIEF DESCRIPTION OF THE DRAWINGS It is schematic sectional drawing which shows the layer structure of the example about the polybutylene succinate resin film which has the light-shielding property concerning this invention which forms the laminated material which concerns on this invention which comprises the bag for microwave oven cooking concerning this invention. is there.

Explanation of symbols

A, A ₁ Laminated material B Microwave cooking bag C Semi-wrapped product D Packaged product 1 Polylactic acid resin film 2 Light-blocking polybutylene succinate resin film 3 High temperature softening resin layer 4 Print pattern layer 5 Intermediate group Material film 21 Side seal part 22 Bottom seal part 23 Opening part 24 Contents 25 Upper seal part

Claims (17)

Packaging in which at least a base material film and a polybutylene succinate resin film having a light-shielding property are laminated, and the polybutylene succinate resin film is overlapped with each other to make a bag. Consisting of bags
Furthermore, a predetermined seal strength is provided between the base film and the polybutylene succinate resin film constituting the seal part at the outer peripheral end of the packaging bag in a temperature environment of room temperature or lower. The packaging bag is composed of a structure provided with a high-temperature softening resin layer that softens in a temperature environment higher than room temperature and causes a decrease in seal strength.
Then, in the high temperature environment above the room temperature, the polybutylene succinate resin film is destroyed in the vicinity of the polybutylene succinate resin film constituting the seal portion of the outer peripheral end portion. In addition, the high temperature softening resin layer is softened between the base film and the polybutylene succinate resin film constituting the seal portion of the outer peripheral end, causing delamination, and the inside of the packaging bag. A microwave cooking bag comprising an open part that can conduct to the outside. Use a laminate of at least a base film, an intermediate base film, and a light-blocking polybutylene succinate resin film, and superimpose the polybutylene succinate resin films facing each other. Made from packaging bags,
Furthermore, a predetermined seal strength is provided between the intermediate substrate film and the polybutylene succinate resin film constituting the seal part at the outer peripheral end of the packaging bag in a temperature environment below room temperature. Comprising a packaging bag having a configuration in which a high temperature softening resin layer is provided which softens in a high temperature environment of room temperature or more and causes a decrease in seal strength,
Then, in the high temperature environment above the room temperature, the polybutylene succinate resin film is destroyed in the vicinity of the polybutylene succinate resin film constituting the seal portion of the outer peripheral end portion. In addition, the above high temperature softening resin layer is softened between the intermediate substrate film and the polybutylene succinate resin film constituting the seal portion of the outer peripheral end portion, causing delamination, and the inside of the packaging bag. A microwave oven cooking bag comprising an open part capable of conducting electrical connection with the outside. The microwave oven cooking bag according to any one of claims 1 to 2, wherein the base film is made of a polylactic acid resin film. The polylactic acid resin constituting the polylactic acid resin film has a density of 1.10 to 1.30 g / cm ³ , a melting point, 150 ° C. to 170 ° C., a melt flow rate (MFR), 1.0 to 20.0 g / 10 minutes. The microwave oven cooking bag according to claim 3, characterized in that: The polybutylene succinate resin film having a light-shielding property includes a light-shielding polybutylene succinate resin layer made of a resin composition containing at least a polybutylene succinate resin as a main component and a black pigment. The microwave oven cooking bag according to any one of claims 1 to 4, wherein the bag is a coextruded multilayer laminated film. The polybutylene succinate resin film having a light-shielding property contains at least a polybutylene succinate resin as a main component, further contains a black pigment and a white pigment, and the content of the black pigment is the above Resin comprising 0.1 wt% to 5.0 wt% with respect to the polybutylene succinate resin, and the white pigment content is 1 to 30 times the black pigment content The microwave cooking bag according to any one of claims 1 to 4, wherein the bag is a coextruded multilayer laminated film including a light-shielding polybutylene succinate resin layer formed of a composition. A transparent or translucent polybutylene succinate resin layer made of a resin composition containing a polybutylene succinate resin as a main component is laminated on both surfaces of a light-shielding polybutylene succinate resin layer. The microwave oven cooking bag according to any one of claims 5 to 6. One or both sides of the light-shielding polybutylene succinate resin layer is composed mainly of polybutylene succinate resin, further contains a white pigment, and the content of the white pigment is the above polybutylene succinate. 7. A white polybutylene succinate resin layer made of a resin composition comprising 5.0% by weight to 30.0% by weight with respect to the resin, wherein the white polybutylene succinate resin layer is laminated. A microwave cooking bag according to claim 1. A transparent or translucent polybutylene succinate resin layer made of a resin composition containing polybutylene succinate resin as a main component is laminated on the surface of a white polybutylene succinate resin layer. The microwave oven cooking bag according to any one of claims 5 to 8. The polybutylene succinate resin is a polybutylene succinate resin or a blending ratio of the polybutylene succinate resin and the polyolefin resin in the latter 10 to 50 parts by weight with respect to the former 50 to 90 parts by weight. The microwave oven cooking bag according to any one of claims 1 to 9, wherein the bag is made of a mixed resin. The polybutylene succinate resin is melt flow rate (MFR), 1.0 to 30.0 g / 10 min, density, 1.20 to 1.30 g / cm ³ , melting point, 80 to 120 ° C. The microwave cooking bag according to any one of claims 5 to 10, characterized in that it is characterized. Polyolefin resin is low density polyethylene, linear low density polyethylene, ethylene / α-olefin copolymer polymerized using single site catalyst, high density polyethylene, polypropylene, ethylene-vinyl acetate copolymer, ethylene-acrylic The microwave oven cooking according to any one of claims 5 to 11, characterized by comprising one or more of an acid copolymer, an ethylene-methacrylic acid copolymer, or an ionomer resin. Bags. The microwave cooking bag according to any one of claims 1 to 12, wherein the intermediate base film is made of a gas barrier film capable of preventing permeation of oxygen gas and water vapor. The microwave cooking bag according to any one of claims 1 to 13, wherein the high-temperature softening resin layer is made of a resin material having a melting point of 60 to 90 ° C. 15. The high-temperature softening resin layer is made of a resin material containing an ethylene-vinyl acetate copolymer resin or a polyamide resin, nitrified cotton, and polyethylene wax. A microwave cooking bag. The microwave cooking bag according to any one of claims 1 to 15, wherein the high-temperature softening resin layer has a thickness in a range of 1 to 5 µm. When the high-temperature softening resin layer is overlaid and heat-sealed so as to face the polybutylene succinate resin film, the sealing strength of the region where the high-temperature softening resin layer is provided is in the temperature range below room temperature. The microwave oven cooking bag according to any one of claims 1 to 16, wherein the bag is 10N / 15mm width or more and 5N / 15mm width or less in a high temperature range of 90 ° C or more.

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