JP4508723B2 - Microwave oven packaging bag - Google Patents

Description

The present invention does not peel off due to pressure or impact applied during transportation or storage, and does not cause rupture, with the contents wrapped and self-supporting when heated in a microwave oven. In particular, the present invention relates to a microwave heating packaging bag that can reduce the internal pressure.
More specifically, in addition to solids, powders, etc., it is used for hermetically wrapping liquid and fluid contents, it is excellent in filling ability of contents, steam is discharged quickly, and contents do not spill, The present invention relates to a packaging bag for heating a microwave oven that can be cooked safely, has independence stability, is easy to be taken out from a microwave oven, can be sealed with good productivity, and has an excellent display effect at a store.

  In recent years, with the widespread development of microwave ovens, and in response to the demand for simplified cooking, cooked processed foods are packaged in plastic packaging bags, etc., sealed and distributed in a form that preserves them. ing.

  However, when such foods are heated in a microwave oven, if the packaging bag remains sealed, the internal pressure in the bag rises due to water vapor generated from the contents by heating, and eventually the contents burst, It was often scattered in the range.

As a packaging container that prevents such a rupture of the packaging bag, for example, a microwave packaging bag is proposed in which a portion of the packaging bag is scissored and a vent is formed before heating in the microwave oven. (For example, refer to Patent Document 1).
Further, a weakly sealing thin film tape is interposed in a part of the heat seal portion of the bag, and the easy peel surface of the bottom member is peeled off and a vent hole is opened when the inside of the packaging bag becomes a predetermined pressure or more. A microwave packaging bag has been proposed (see, for example, Patent Document 2).
In addition, a microwave oven packaging bag having a flat pouch shape in which a part of the heat seal portion is narrowed has been proposed (see, for example, Patent Document 3).
Also, a microwave oven packaging bag in which the same surface sides are brought into contact with each other by a plastic film, a palm joint is formed to join in a palm shape by heat sealing with a predetermined width, and a self-standing means is formed at the bottom. There has been proposed a microwave oven packaging body that can release pressure from an easy-open seal when the body is self-supporting (see, for example, Patent Document 4).
Further, at least one of the inner edges of the both sides of the thermal bonding between the bite and the bottom folding part is provided with an overhanging heat-bonding portion having an easily peelable surface that protrudes inward from the inner edge and is thermally bonded. A standing pouch with an occlusal tool characterized in that a cutting blade or a notch is formed in the bonded portion has been proposed (for example, see Patent Document 5).
JP 2000-72187 A Japanese Patent No. 3006528 JP-A-10-72070 JP 2000-185777 A JP 2000-327046 A

However, the packaging bag of Patent Document 1 is troublesome because it is necessary to cut a part of the packaging bag with scissors in advance and form a vent before heating with a microwave oven. There are drawbacks, and it is very dangerous that the consumer forgets the work of forming the vent before heating and may heat up and cause the bag to burst.
Moreover, since the packaging bag of patent document 2 is sealed so that it may be easily peeled off from the easy peel surface, there is a drawback that the contents leak from the seal surface due to pressure or impact applied in the distribution process.
Moreover, since the packaging bag of patent document 3 is a shape of a flat pouch, when filling with a liquid content, there exists a fault that a content will spill from an opening.
Moreover, in the package body of patent document 4, there exists a fault that a bag making process is complicated and manufacturing cost becomes high.
Further, the packaging bag of Patent Document 5 has a drawback that the overhanging heat bonding portion is provided on the filling port side of the contents, so that the opening becomes narrow and it is difficult to fill the contents.
Also, if the overhanging heat bonding part is provided on the inner edges of both sides that are heat bonded, when the consumer takes out the contents from the packaging bag after heating with a microwave oven, the contents are not cut off in the overhanging heat bonding part. Care must be taken not to spill from the notch and burn.

  The purpose of the present invention is excellent in filling suitability for liquids and fluid contents in addition to solids and powders, and can be sealed with high productivity without being peeled off by pressure or impact applied during transportation or storage. It is possible to automatically reduce the internal pressure even if heated in a microwave oven while the contents are sealed and packaged in a packaging bag, and the contents are not spilled. To provide a packaging bag for heating a microwave oven, in which steam is discharged, cooking can be performed safely, and the contents after heating in the microwave oven can be taken out safely.

The packaging bag 100 for heating a microwave oven according to the present invention solves the above-described problem, and at least one side is folded using a composite film composed of a sealant layer so that the sealant layer is inside, a bottom to form a gusset portion having a pleated folded portion folded on the inner side, superposed end portions of the composite film on both sides folded back at one of the bottom, the lower and lateral sides of the body and bottom A microwave heating packaging bag in which right-angled triangular notches with two right-angled sides are formed symmetrically, and one side is left and the edge is thermally bonded, and the other side is filled with contents. And a gusset bag of a form that can be self-supported by opening the gusset portion at the bottom, and the vapor venting means is formed separately from the thermal bonding portion at the top serving as a filling port for the contents. Before The steam release means forms a point seal portion, has an unbonded portion, a weakly bonded portion, or a pattern-shaped bonded portion in the point seal portion, and is at least one notch or notch And the distance from the center part of the bag body of the packaging bag for microwave oven heating to the steam release means is shorter than the distance from the center part of the bag body to the inner edge of the shortest thermal bonding part. A steam venting means is provided, and the seal strength of the heat-bonded portion between the sealant layers is 23 N / 15 mm or more, 100 N / 15 mm or less in the temperature region of 23 ° C., and 5 N / 15 mm or more in the temperature region of 90 ° C., a microwave heating packaging bag, characterized in that in the following range 25 N / 15 mm.

  In the microwave heating packaging bag of the present invention, in addition to solid, powder, etc., it is used for hermetically wrapping liquid and fluid contents, can be sealed with good productivity, and can be easily filled with contents. The contents can be cooked safely without spilling, without peeling due to pressure or impact applied during transportation or storage, and the bag is self-supported by packaging the contents when heated in a microwave oven The steam is quickly discharged from the bottom of the point seal part without causing rupture, and the internal pressure can be reduced automatically, and the contents after heating can be safely taken out by the microwave oven. It has the advantages of excellent stability and excellent display effect at stores.

  FIG. 1 is a cross-sectional view showing one embodiment of a laminated film constituting a microwave heating packaging bag according to the present invention, and FIG. 2 shows that the microwave heating packaging bag according to the present invention is formed from a laminated film. (A) perspective view of the case, (b) is a cross-sectional view of the XX line, FIG. 3 is a plan view after thermal bonding, leaving the filling port of the microwave heating packaging bag according to the present invention, FIG. 4 is a perspective view of the microwave oven packaging body according to the present invention, FIG. 5 is a diagram showing the seal shape of the point seal portion in the microwave oven packaging bag of the present invention, FIG. It is a figure which shows the shape of the notch or cut formed in the area | region enclosed by a point seal | sticker part, FIG. 7: is sectional drawing of the YY line | wire of Fig.3 (a).

First, the laminated film 16 used in the microwave oven packaging bag of the present invention can be configured by laminating at least a base material film layer 11 with a sealant layer 15 as shown in FIG. Furthermore, the printing layer 12 and the adhesive layer 13 are layers provided as necessary.
Moreover, as shown in FIG.1 (b), the laminated | multilayer film 16 of another aspect used for the packaging bag for microwave ovens of this invention is said base film layer 11 and sealant layer 15 according to the performance requested | required. The intermediate layer 14 may be formed by laminating a water vapor or other gas barrier layer, a light shielding layer, a strength improving layer, or the like. Moreover, although the said base film layer 11, the intermediate | middle layer 14, and the sealant layer 15 may each be formed in a single layer, they may be formed by laminating a plurality of layers.

Fig.2 (a) -1 is a perspective view at the time of forming the packaging bag for microwave ovens based on this invention from one piece of material, Fig.2 (a) -2 is sectional drawing of a XX line. It is.
As shown in FIGS. 2 (a) -1 and (a) -2, the packaging bag for heating a microwave oven according to the present invention has a laminated film in which a sealant layer is laminated on the inner layer so that the sealant layer is on the inner side. To form a gusset portion 7 having a fold-like folded portion 6 on the inner side, and further, right and left cutouts of a right triangle having right and left sides of the body member and the bottom material of the bottom member The end portions of the laminated films that are formed symmetrically are overlapped with each other at the bottom portion on one side to form a cylindrical folded bag body portion.
2 (b) -1 is a perspective view in the case of forming from one piece of material, and FIG. 2 (a) -2 is a cross-sectional view taken along line XX.
As shown in FIGS. 2 (b) -1 and (b) -2, the packaging bag for microwave heating according to the present invention has a laminated film in which a sealant layer is laminated on an inner layer so that the sealant layer is on the inner side. To form a gusset portion 7 having a fold-like folded portion 6 on the inner side, and further, right and left cutouts of a right triangle having right and left sides of the body member and the bottom material of the bottom member The ends of the laminated films that are formed symmetrically are overlapped with each other on the top of one side to form a cylindrical folded bag body.
FIG.2 (c) -1 is a perspective view in case a packaging bag is formed from a material of 3 pieces, and FIG.2 (c) -2 is sectional drawing of a XX line.
As shown in FIGS. 2 (c) -1 and 2 (c) -2, the packaging bag for heating a microwave oven according to the present invention is a laminated film 2, 3 serving as a body member before and after a sealant layer is laminated on the innermost layer. And the laminated film 1 serving as the bottom material is folded in two to form a fold-like folded portion 4a, so that the base film layer 11 faces the inner surface side. The folded film (bottom material 1) is inserted to form the gusset portion 7, and the notch of the right triangle having the right and left sides of the body member and the bottom material of the bottom material is symmetrical. To form a bag body.

FIGS. 3A to 3C are plan views after thermal bonding, leaving the filling port of the microwave heating packaging bag according to the present invention.
The microwave heating bag 100 shown in FIG. 3A is heated by the bottom seal portion 4a, the diagonal seal portion 4f, and the side seal portion 4c in a state of being folded into a cylindrical shape as shown in FIG. 2A-1. A bag main body is formed by fusing, a point seal portion 5 is provided at the edge of the top portion, and at least one notch 21 or notch is provided in the point seal portion 5 to form a vapor venting means. The bag body is heat-sealed at the position.
The microwave heating bag 100 of FIG. 3B was heat-sealed and folded at the top seal portion 4d, the oblique seal portion 4f, and the side seal portion 4c, as shown in FIG. 2B-1. Form the bag body, provide the point seal 5 connected to the edge of the top, and provide at least one notch 20 or notch in the unsealed portion 9 in the point seal 5 to form the vapor venting means Then, it is heat-sealed at a predetermined position to form a bag.
Further, as shown in FIG. 3B, the point seal portion 5 can be provided separately from the thermal bonding portion at the peripheral edge, but is connected to the thermal bonding portion at the peripheral edge. May be provided.
As shown in FIG. 2 (a) -1, the microwave heating bag 100 of FIG. 3 (c) is a bag main body portion that is folded by heat sealing at the bottom seal portions 4a and 4b and the side seal portion 4c. And a point seal portion 5 is provided at the edge of the top portion in connection with the side seal 4C, and at least one notch 21 or notch is provided in the point seal portion 5 to form a vapor venting means. The bag body is heat-sealed at the position.
The microwave heating bag 100 according to the present invention described above is formed by forming right-angled notches having right and left sides of the body member and the bottom member at right and left sides symmetrically. It is possible to manufacture a gusset bag in a form that can stably stand by with the gusset portion at the bottom of the bag open.
The microwave heating packaging bag 100 according to the present invention has bottom seal portions 4a, 4b, diagonal seal portions 4f, 4g, and side seal portions 4c provided for sealing the bag. The seal portion 5 is provided for releasing steam when heated by a microwave oven.
In the packaging bag 100 for heating a microwave oven according to the present invention, the above-mentioned point seal part 5 is connected to the top seal part 4d so that the pressure generated by the steam when heated in the microwave oven is provided. Since it concentrates on the point seal part 5, the seal peels off from the edge of the point seal part 5, and the steam generated from the contents quickly passes through the notches 20 formed in the unsealed part 9. It has the advantage of being discharged out of the bag.
Further, when the point seal portion 5 is formed, the top seal portion 4d and the point seal portion 5 can be integrally sealed with good productivity.
When the point seal part 5 is not connected to the top seal part 4d and is formed independently, the pressure of steam generated by heating of the microwave oven is independent from the side seal part and the top seal part. This is not preferable because it is difficult to apply pressure to the independent seal portion efficiently and automatic opening does not occur smoothly, and it is not preferable when filling the contents or in the process of distribution. The contents enter between the independent seal portion and the side seal portion or the top seal portion, which is not preferable because of poor appearance. Furthermore, since the independent seal part and the peripheral seal part of the side seal part or the top seal part are sealed in two steps, the productivity of the sealing process is inferior, which is not preferable.

FIG. 4 is a perspective view of a package in which the contents are filled in the microwave oven heating packaging bag according to the present invention of FIG.
The microwave oven heating package 300 according to the present invention is filled with the contents from the unsealed portion 8 on the side of the microwave heating bag 100 as shown in FIG. 3A, and then the side seal portion 4e. Can be heat sealed and completely sealed.
In addition, the microwave heating packaging 300 according to the present invention is a self-supporting packaging that can stand in a stable state by spreading the bottom gusset portion 7 back and forth and forming the bottom surface by the weight of the filled contents. It becomes a bag.
Moreover, the packaging bag 100 for heating a microwave oven according to the present invention has a reinforcing effect when the edge of the bottom portion of the bag body is heat-sealed with the bottom seal portions 4a and 4b, and is easy to handle.
When the microwave oven heating package 300 according to the present invention is heated by the microwave oven, the point seal portion 5 is peeled and retracted without reaching the unsealed portion 9 without cutting the bag with a bag or the like in advance. Vapor quickly and stably escapes from the notch 20 or the notch 21 provided in the unsealed portion 9, and can be automatically and safely opened automatically.

Moreover, since the microwave oven packaging body 300 according to the present invention is a self-supporting packaging form, it can be heated in a microwave oven while the packaging bag is left standing, and can be easily taken out from the microwave oven for safety. Thus, even if the contents are liquid, it is easy for consumers to take out the contents.
In addition, the width of the front surface and the rear surface of the body portion of the packaging body 100 for heating a microwave oven according to the present invention is the same as the height or longer than the height. Even if the microwave oven heating package 300 is placed in an upright state, it is more preferable because it does not fall down or move during rotation, is excellent in self-supporting property, and can be heated stably.

As shown in FIG. 4, the point seal portion formed as the vapor venting means in the present invention needs to be formed above the contents to be filled in the bag in a state where the packaging bag is self-supporting. is there.
Thus, steam can be automatically released in a state where the microwave oven packaging bag 100 of the present invention is self-supporting in the microwave oven.
The shape of the point seal portion 5 is not particularly limited, and may be other shapes such as a square, a rectangle, a circle, an ellipse, and a triangle.
The point seal portion 5 may be a solid seal as shown in FIG. 5 (a), or may be provided with an unsealed portion 9 inside as shown in FIG. 5 (b). As shown in FIG. 5B, a pattern-like adhesive portion 5P may be provided inside.
The shape of the pattern adhesive portion 5P is not particularly defined, and examples thereof include a mesh shape, a stripe shape, a lattice shape, and a polka dot shape.
Especially, by providing the unsealed portion 9 inside, even if the position for forming the easy-vaporizing means such as the notch 20 and the notch 21 formed in the unsealed portion 9 is shifted as compared with the case of the solid seal. The distance at which the seal peels and retreats is constant, and when peeling reaches the inside of the unsealed part 9, it can be opened at once by the easy-to-vaporize means applied in the unsealed part 9, so when heating in a microwave oven, There is an advantage that reliable, stable and quick steam removal can be performed.
Further, since this easy-vaporizing means is inside surrounded by the point seal portion 5, it is possible to keep the sealing property completely in the distribution stage, and it is hygienic.

Next, as shown in FIGS. 3A to 3C, the position where the point seal portion 5 is formed is a point from the center of the packaging bag 100 when a circle centered on the center portion of the packaging bag body is drawn. It is provided at a position where the radius r1 of the circle in contact with the lowermost end of the seal portion 5 is shorter than the radius r2 of the circle in contact with the inner edge of the side seal portion 4c.
When the radius r1 is longer than the radius r2, the peeling and retreating of the seal portion due to the heat of steam generated by heating and the increase in internal pressure peels off at the side portion or the side seal portion of the packaging bag. Since the contents may leak due to broken bags, it is not preferable.
In addition, as for the position which forms the point seal | sticker part 5, in order to make it easy to fill the contents, it is more preferable to form the point seal | sticker part 5 in the position shifted from the center part.

In addition, as the seal width of the point seal part 5, about 2 mm to 5 mm is preferable because the seal can be smoothly peeled off by the internal pressure due to heating.
If the seal width of the point seal portion 5 is less than 2 mm, the seal strength becomes unstable, which is not preferable, and if it exceeds 5 mm, it is difficult to smoothly peel off the seal due to internal pressure due to heating.
In contrast, in the microwave heating packaging bag 100 of the present invention, the seal width of the side seal part, the bottom seal part 7 and the top seal part 6 is about 5 mm to 20 mm when transporting or storing. This is preferable because the bag is not broken by pressure or impact.

Next, the constituent material of the laminated film 16 which forms the packaging bag 100 for microwave oven heating of this invention is demonstrated.
First, the base film layer 11 is not particularly limited as long as it has heat resistance and is generally used as a packaging material for food that is heated or cooked in a microwave oven.
For example, stretched polyethylene terephthalate film, silica-deposited stretched polyethylene terephthalate film, alumina-deposited stretched polyethylene terephthalate film, stretched nylon film, silica-deposited stretched nylon film, alumina-deposited stretched nylon film, stretched polypropylene film, polyvinyl alcohol-coated stretched polypropylene film, nylon 6 / Metaxylylenediamine nylon 6 co-pressed co-stretched film or polypropylene / ethylene-vinyl alcohol copolymer co-pressed co-stretched film or the like, or a composite film obtained by laminating two or more of these films may be used.
These base film layers may be single layers or multilayers (laminates), have a melting point and heat resistance of 150 ° C. or higher, and have a thickness of about 10 μm to 50 μm, preferably about 10 μm to 30 μm.

The resin constituting the sealant layer 15 in the present invention is a heat-adhesive resin layer and is generally used as a food packaging material heated or cooked in a microwave oven, and has a sealing strength of 25 N / 15 mm width at a temperature of 90 ° C. or higher. Hereinafter, it is not particularly limited as long as it is 23 N / 15 mm or more at room temperature.
For example, low density polyethylene, linear low density polyethylene, medium density polyethylene, high density polyethylene, polypropylene, propylene-ethylene copolymer, ethylene-vinyl acetate copolymer, ethylene-acrylic acid copolymer, ethylene-methacrylic acid A resin such as a copolymer, an ethylene-methyl acrylate copolymer, an ethylene-ethyl acrylate copolymer, an ethylene-methyl methacrylate copolymer, or an ionomer can be used.
The sealant layer may be formed by extrusion lamination of these resins, or laminated in advance by a base film layer and dry lamination or extrusion lamination as a film formed by T-die method or inflation method. Also good.
The thickness of the sealant layer is preferably about 20 μm to 100 μm, and more preferably 40 μm to 70 μm.

The sealant layer 15 has sufficient sealing strength especially at low temperatures (0 ° C.) and normal temperatures (25 ° C.), and has low sealing strength when heated in a microwave oven (90 ° C. or higher), and can be quickly peeled off. It is preferable to use a heat-adhesive resin layer comprising a resin composition containing a propylene-ethylene block copolymer resin as a main component.
The blending ratio of each composition of the mixed resin is as follows. The propylene-ethylene block copolymer (A) as the first component, the propylene-ethylene block copolymer (B) as the second component, and the third component An ethylene-butene-1 copolymer containing 15% by weight or more of butene-1 is an essential component, and the propylene-ethylene block copolymer (A) as the first component is a propylene homopolymer or ethylene. Propylene with a content of 2% by weight or less? The propylene block (I) 65 to 85% by weight made of an ethylene copolymer and the ethylene-propylene copolymer block (II) 15 to 35% by weight having an ethylene content of 20 to 95% by weight, as a second component The propylene-ethylene block copolymer (B) of the propylene block (III) consisting of a propylene homopolymer or a propylene-ethylene copolymer having an ethylene content of 2% by weight or less and an ethylene content of It is suitable to use in the range of 20 to 95% by weight of ethylene-propylene copolymer block (IV) 5 to 15% by weight.

Next, lamination | stacking with the base film layer 11 and the sealant layer 15 will not be specifically limited if it is methods, such as a coextrusion laminating method and a dry laminating method.
The adhesive layer 13 is an adhesive by lamination or an adhesive resin layer.
In the above, as the laminating adhesive, for example, one-part or two-part curable or non-cured vinyl type, (meth) acrylic type, polyamide type, polyester type, polyether type, polyurethane type, epoxy type, etc. It is possible to use adhesives for laminating such as rubber type, other solvent type, aqueous type, or emulsion type.
As a coating method of the adhesive for laminating, for example, direct gravure roll coating method, gravure roll coating method, kiss coating method, reverse roll coating method, fountain method, transfer roll coating method, and other methods can be used. .
The coating amount is preferably 0.1 to 10 g / m ² (dry state), and more preferably 1 to 5 g / m ² (dry state).
In the above, a resin layer made of a thermoplastic resin layer is used as the adhesive resin layer, and can be used for bonding the respective layers.
Specifically, the material of the adhesive resin layer includes a low density polyethylene resin, a medium density polyethylene resin, a high density polyethylene resin, a linear low density polyethylene resin, and ethylene / α-olefin polymerized using a metallocene catalyst. Copolymer resin, ethylene / polypropylene copolymer resin, ethylene / vinyl acetate copolymer resin, ethylene / acrylic acid copolymer resin, ethylene / ethyl acrylate copolymer resin, ethylene / methacrylic acid copolymer resin, Graft polymerization of unsaturated carboxylic acid, unsaturated carboxylic acid, unsaturated carboxylic acid anhydride, ester monomer to ethylene / methyl methacrylate copolymer resin, ethylene / maleic acid copolymer resin, ionomer resin, polyolefin resin, Or graft copolymerized resin, maleic anhydride to polyolefin resin It can be used sexual resin or the like.
These materials can be used alone or in combination.
The thickness of the resin layer is preferably about 10 to 30 μm.

Furthermore, in this invention, you may provide the intermediate | middle layer 14 between the said base film layer 11 and the said sealant layer 15 as needed, and the said intermediate layer 14 is the said base film normally. The layer 11 and the sealant layer 15 are provided only when the function as the packaging bag 100 cannot be sufficiently achieved.
The above functions include gas barrier properties, mechanical toughness, flex resistance, puncture resistance, impact resistance, wear resistance, cold resistance, heat resistance, chemical resistance, etc., which are required as a packaging bag 100. These functions are achieved by providing the intermediate layer 14 as an intermediate layer 14.
Examples of the base material used as the intermediate layer 14 include polyolefins such as polyethylene terephthalate, polyamide, polyethylene, and polypropylene, polyvinyl chloride, polycarbonate, polyvinyl alcohol, ethylene-propylene copolymer, and ethylene-vinyl acetate copolymer. A film made of fluoride, a film obtained by coating polyvinylidene chloride on the film, a film obtained by depositing an inorganic substance such as silicon oxide or aluminum oxide, or a film such as polyvinylidene chloride can be used. One or more of these substrates can be used in combination. It should be noted that the thickness of the base material only needs to satisfy the function required for the package, and can be appropriately selected as necessary.

In addition, when performing said lamination | stacking, if necessary, it can pre-process, such as a corona treatment, an ozone treatment, a frame process, etc., and can laminate | stack.
The above-mentioned surface pretreatment is carried out as a method for improving the adhesion and the like when laminating each resin film or sheet and each layer. As a method for improving the above adhesion, for example, A primer coat agent layer, an undercoat agent layer, an anchor coat agent layer, and the like can be arbitrarily formed in advance on the surface of various resin films or sheets to form a surface treatment layer.

FIG. 6 is a diagram showing a shape of a notch or a notch formed in a region surrounded by the point seal portion.
As shown in FIG. 6, the notch 20 or the notch 21, which is an easily steaming means formed inside the point seal portion 9, causes the point seal portion 5 to peel and recede due to the heat of steam generated by heating and the increase in internal pressure. Any shape can be used as long as the vapor can be dissipated out of the bag. For example, a notch 20 having a cross shape, an I shape, a U shape or the like, and a notch 21 having a circular shape, a triangular shape, a quadrangular shape or the like can be formed.
The number of the notches 20 or notches 21 is not limited to one, and may be plural.

FIG. 7 is a cross-sectional view taken along line YY in FIG. As shown in FIG. 7, the notch 20 or the notch 21 formed in the point seal portion 5 may be provided so as to penetrate through the two members constituting the opposed body portions, or may be provided only on one side.
The notches 20 or notches 21 can be formed by laser processing, punching, or the like.
By forming the notch 20 or the notch 21 as described above, it passes through the notch 20 or the notch 21 provided in the unsealed portion 9 from the seal peeling portion at the lowermost end of the point seal portion 5 from which the vapor filled in the bag has been peeled off. It diffuses out of the bag, can reduce the internal pressure of the bag, and can avoid rupture.

The microwave oven packaging bag 100 according to the present invention is heat-sealed at a predetermined position using the above-described laminated film 16 for microwave oven packaging bags, and the microwave oven packaging according to the present invention. The bag 100 can be manufactured.
In addition, it is preferable to form a notch above the side seal portion of the bag.
In this case, it is preferable to use a stretched film having a tearing directionality that is easy to tear laterally through the notch.
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.

The sealing strength of the thermal bonding portion at the edge and the thermal bonding portion in the vapor venting means is preferably 5 N / 15 mm width to 25 N / 15 mm width at a temperature of 90 ° C. or more, and 10 N / 15 mm width to More preferably, the width is 15 N / 15 mm.
If the seal strength exceeds 25 N / 15 mm width at a temperature of 90 ° C. or higher, the seal retraction does not occur smoothly, and automatic opening may not be achieved quickly and reliably.
Further, the state of seal retraction is not particularly defined, but cohesive failure is preferred.
Further, the seal strength between the point seal portion 5 and the side seal portion, the top seal portion, and the bottom seal portion may be different. However, in the present invention, there is no necessity and the seal strength may be equal. The automatic opening is achieved by the shape described above.
Moreover, it is preferable that it has a seal strength of 23 N / 15 mm or more at normal temperature because it can be used without being peeled off by pressure or impact applied during transportation or storage.

Although not shown, the microwave heating packaging bag 100 may be filled with liquid contents in addition to the solid contents, for example, solid food such as frozen sushi, curry, soup, Various fluid foods such as soy sauce, sauce, soup stock, spices, liquor for cooking, fruit juices, water, and the like can be filled and packaged.
Since the microwave heating packaging bag 100 according to the present invention is not a stand-up pouch but a gusset bag, the contents can be filled from the side opening.
As a result, the distance between the position where the point seal part is formed on the packaging bag and the position of the filling port of the contents can be separated, so when filling the contents, the opening is formed by the formation part of the point seal part. It has the advantage that it can be taken widely.
Normally, in the case of a stand pouch, since the bottom part is heat-sealed before the top part to make a bag, the contents cannot be filled from the bottom part side, and the contents can be filled only from the top part.
In addition, it can be cooked in a microwave oven for a predetermined time while eating the food, and the steam generated by heating can be quickly discharged, and the internal pressure can be lowered automatically. It has excellent properties, has excellent display effects at stores, and can be sealed with high productivity.

The present invention will be further described below with reference to examples and comparative examples.
A 12 μm thick alumina-deposited biaxially stretched polyethylene terephthalate film, a 15 μm biaxially stretched nylon film, and a 70 μm unstretched polypropylene film are dry laminated with a urethane-based adhesive to form a layer structure. Base film layer 11) / urethane adhesive layer (adhesive layer 13) / biaxially stretched nylon film layer (intermediate layer 14) / urethane adhesive layer (adhesive layer 13) / unstretched polypropylene film (sealant layer) A laminated film 16 comprising 15) was obtained.
Next, the laminate film 16 produced above was cut at a desired position, and as shown in FIG. 3B, the top seal portion 4d and the side seal portion 4c were heat-sealed and folded. Form the bag body, provide the point seal 5 connected to the edge of the top, and provide at least one notch 20 or notch in the unsealed portion 9 in the point seal 5 to form the vapor venting means And it heat-sealed in the predetermined position, and produced the microwave oven packaging bag which concerns on this invention.
In addition, the said point seal | sticker part 5 is shown in the lowermost end of the point seal | sticker part 5 from the center of the packaging bag 100, when drawing the circle centering on the center part of the packaging bag main body, as shown to Fig.3 (a). The radius r1 of the circle in contact is 50 mm, the radius r2 of the circle in contact with the inner edge of the side seal portion 4c is 70 mm, and the radius r1 is shorter than the radius r2.
Next, 200 g of Chinese soup is filled as the contents from the lower opening end of the microwave heating bag and heat-sealed at the side seal portion 8, and the present invention as shown in FIG. A microwave oven heating package 300 (vertical width a: 150 mm, horizontal width c: 60 mm, height b: 140 mm) was produced.
Since the packaging bag 100 for heating a microwave oven according to the present invention obtained above can be filled with the contents from the lower opening end, the filling ability of the contents is excellent.
The microwave oven heating according to the present invention is filled with the contents from the unsealed portion 8 on the side of the packaging bag 100 for heating the microwave oven according to the present invention, and then heat sealed and sealed with the side seal portion 4e. A packaging body 300 was prepared.
As a result of heating with the 500 W microwave oven in a state where the package 300 obtained as described above is self-supporting, it can be stably cooked without overturning on the rotated tray in the microwave oven, about 1 After 30 minutes, the steam quickly escaped from the incision 20, and there was no spillage of the Chinese soup, and the Chinese soup could be safely removed from the opening of the packaging bag.

[Comparative Example 1]
A packaging bag for heating a microwave oven according to Comparative Example 1 was produced in the same manner as in Example 1 except that the point seal portion was not provided using the same packaging material as in Example 1.
In the packaging bag obtained above, 200 g of Chinese soup was placed as the contents, the top seal portion 6 was sealed and sealed, and then heated in a 500 W microwave oven in a state where the bag was made self-supporting.
As a result, the package swells when heated in a microwave oven, and after about 1 minute and 50 seconds, a loud noise is generated, steam escapes from the side seal portion, breaks the bag from the side seal portion, and the contents splatter into the cabinet. It was.

[Comparative Example 2]
A packaging bag of Comparative Example 2 was produced in the same manner as in Example 1 except that the bag size was changed using the same packaging material as in Example 1.
In the packaging bag obtained above, 200 g of Chinese soup is put as the contents, the top seal portion is sealed and sealed, and the package of Comparative Example 2 (vertical width a: 140 mm, horizontal width c: 60 mm, height) b: 150 mm) was obtained.
Further, the radius r1 of the circle in contact with the bottom end of the point seal portion 5 from the center of the packaging bag is 70 mm, the radius r2 of the circle in contact with the inner edges of the side seal portions 4c and 4e is 60 mm, and the radius r1 is the radius. It was provided at a position longer than r2.
Next, in the same manner as in Example 1, the packaging bag of Comparative Example 2 was heated in a 500 W microwave oven in a state where it was self-supporting.
As a result, the package was expanded by heating with a microwave oven, and although steam escaped from the steam port after about 2 minutes, considerable receding was seen in the side seal portion.
Moreover, since the package 300 swelled considerably before the steam escaped, there was a feeling of fear.

It is sectional drawing which shows one Example of the laminated film which comprises the packaging bag for microwave oven heating which concerns on this invention. It is the (a) perspective view at the time of forming the packaging bag for microwave oven heating which concerns on this invention from a laminated film, (b) It is sectional drawing of XX. It is a perspective view of the packaging body for microwave oven heating which concerns on this invention. It is a top view after heat bonding leaving the filling port of the packaging bag for microwave oven heating which concerns on this invention. It is a figure which shows the seal shape of the point seal | sticker part in the packaging bag for microwave ovens of this invention. It is a figure which shows the shape of the notch or cut formed in the area | region enclosed by a point seal | sticker part. It is sectional drawing of the YY line of Fig.3 (a).

Explanation of symbols

1 Bottom 2 Body member (front)
3 trunk member (rear surface)
4 Folded films 4a, 4b Bottom seal part 4c, 4e Side seal part 4d Top seal part 4f, 4g Diagonal seal part 5 Point seal part 5P Pattern adhesive part 6 Folded fold-back part 7 Gusset part 8 Non-seal part 9 Not Seal part 10 Contents 11 Base film layer 12 Print layer 13 Adhesive layer 14 Intermediate layer 15 Sealant layer 16 Laminated film 20 Notch 21 Notch 100 Microwave heating bag 300 Microwave heating package

Claims (1)

Using a composite film composed of at least one side of the sealant layer, folded so that the sealant layer on the inside, and the bottom to form a gusset portion having a pleated folded portion folded on the inner side, folded The ends of the composite films on both sides are overlapped at one bottom, and a notch of a right triangle with the bottom and sides of the trunk and the bottom is formed in a bilaterally symmetrical manner, and one side is It is a packaging bag for heating a microwave oven with the end edge portion being thermally bonded and the other side portion being a filling port for the contents, and the gusset has a shape that can be self-supported by opening the bottom gusset portion. And a vapor venting means is formed separately from the thermal bonding portion at the top which becomes the filling port for the contents , and the vapor venting means forms a point seal portion, and the point seal portion is formed in the point seal portion. Unconnected Part, weak adhesive part, or pattern-like adhesive part, and at least one notch or notch, and the steam from the center of the bag body of the microwave heating packaging bag The steam venting means is provided at a position where the distance to the punching means is shorter than the distance from the center of the bag body to the inner edge of the shortest thermal bonding part, and the sealing strength of the thermal bonding part between the sealant layers Is in a temperature range of 23 ° C. and is in a range of 23 N / 15 mm or more and 100 N / 15 mm or less, and in a temperature range of 90 ° C. is a range of 5 N / 15 mm or more and 25 N / 15 mm or less. .

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