JPH11147559A - Lid material and container using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lid material wherein contents can be uniformly heated and cooked in a microwave oven while being seal-packaged, and a container using the same with good productivity. SOLUTION: After a cut line 3 is provided in a predetermined shape and size on a laminate film comprising a heat-resistant base film and a first heat- bonding resin layer laminated, a second heat-bonding resin layer is further laminated by a thickness of 10 to 30 m on the first heat-bonding resin layer to close the cut line 3, and the laminate film is cut into a shape that the cut line 3 is positioned approximately at the center and that corresponds an opening of a container to provide the lid material 8. A container body 10 used in combination with the lid material 8 comprises a laminate sheet including a heat- resistant molding sheet and a heat-bonding resin layer peelably laminated thereon wherein the sheet is thermoformed into a tray. After contents are received inside, the lid material 8 is heat-sealed to a flange around the opening to provide a container 20.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lid material and a container using the same, and more particularly, to a lid material used for a container in which food is put inside and the whole container is heated and cooked, and The present invention relates to a container using the same.

[0002]

2. Description of the Related Art Conventionally, in a container in which cooked food such as refrigerated or frozen food is put inside, sealed, distributed, and heated and cooked together with a microwave with the container when eating,
Simply storing the food in the container body and sealing the opening with a lid will cause the container to burst and the contents to be replaced by the microwave when the pressure inside the container increases due to the steam generated from the food by heating. Because there is a problem of scattering in the refrigerator, usually, part of the lid material is peeled off by hand before heating,
An operation to make a steam vent was performed.

[0003] However, such a partial peeling operation of the lid material has a problem that if the peeled portion is too large, steam is discharged freely and the internal pressure does not increase and a steaming effect cannot be obtained. If the portion is too small, there are problems such as spill-over depending on the contents, and the adjustment is troublesome.

In order to solve such a problem, for example, a notch is provided in a part of the lid material, and a valve is attached to this part, or a nonwoven fabric is pasted in a window shape or the like, and excess gas and vapor are removed. A method has been proposed in which the pressure is released and the internal pressure is kept constant.

[0005]

However, in such a method, although the internal pressure can be adjusted, it is necessary to prepare a separate valve or nonwoven fabric and attach it, which complicates the manufacturing process and There was also an increase in cost, which was not always satisfactory.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and allows the contents to be hygienically distributed in a sealed state without any trouble in heating and cooking. It can be heated in a microwave oven, and the steam generated during the heating can be escaped moderately to prevent the container from bursting, etc.At the same time, the internal pressure is adjusted moderately and the steaming effect can be obtained. Later, when taking out the contents, we produced a lid material suitable for a microwave oven, and a container using it, in which the entire lid material could be easily and cleanly peeled off and the cost was low. The purpose is to provide good sexuality.

[0007]

The above objects can be achieved by the present invention described below. That is, the invention described in claim 1 is a lid material comprising a laminated film in which a heat-resistant base film, a first heat-adhesive resin layer, and a second heat-adhesive resin layer are laminated at least sequentially from the outside, A lid material characterized in that a score line penetrating from the heat-resistant base film to the first heat-adhesive resin layer is provided on the surface of the lid material.

[0008] With this configuration of the lid material, the container package in which the lid material is heat-sealed at the opening of the container body in which the contents such as cooked food are stored is heated together with the container by a microwave oven. When the internal pressure rises due to vapor generated from the contents and reaches a certain value, the weakest part, that is, the second heat adhesive resin layer below the cut line part of the lid material is The cut line is opened preferentially, the excess gas and steam are discharged, and the internal pressure is kept constant.

[0009] Further, by laminating the heat-adhesive resin layer of the lid material into a first heat-adhesive resin layer and a second heat-adhesive resin layer, an optimum material can be selected and used. At the same time, the thickness can be freely adjusted, so that it is easy to adjust the depth of the cut line and the thickness of the second thermo-adhesive resin layer that is broken by internal pressure during heating below the cut line. Can be done. As a result, it is possible to reliably maintain the sealing property at the time of distribution and rupture by a desired internal pressure. Therefore,
A good steaming effect can be obtained, and the content can be heated and cooked without the container itself bursting and the content being scattered.

[0010] In the invention described in claim 2, the first heat-adhesive resin layer has a density of 0.920 to 0.945 g / cm ^3.
The cover material according to claim 1, wherein the cover material is formed of a linear low-density polyethylene.

By adopting such a structure, in addition to the function and effect of the invention described in the first aspect, the heat resistance of the first heat-adhesive resin layer is enhanced, so that the lid member can be heat-sealed. At the time of sealing, deformation of the seal portion can be reduced, so that so-called cuts and the like hardly occur, and a clean and stable heat seal can be performed.

According to a third aspect of the present invention, the second heat-adhesive resin layer has a density of 0.910 to 0.945 g / cm.
³ is formed of linear low-density polyethylene and has a thickness of 10
The cover material according to claim 1 or 2, wherein the cover material has an elongation of 30% or less and an elongation of 800% or less.

With such a configuration, in addition to the functions and effects of the invention described in claim 1 or 2,
When heat sealing the lid to the container body, a good seal with excellent strength and stability is obtained, and when heating the contents,
It has heat resistance to withstand heated steam, and the lower part of the score line is broken at a suitable internal pressure (about 1.2 kg / cm ² ) to form gas and steam outlets. Heating and cooking.

According to a fourth aspect of the present invention, there is provided a container comprising a container body and a lid member which is heat-sealed to the container body, wherein the container body has one side of a heat-resistant molding sheet and a weak mold release property. Using a container body thermoformed into a cup or tray with the heat-adhesive resin layer inside the laminated sheet with the heat-adhesive resin layer peelably laminated with or without the resin layer interposed therebetween, The lid material according to any one of claims 1 to 3 is used as the lid material, and the second heat-adhesive resin layer surface of the lid material is heat-sealed by aligning the surface of the lid material with the flange at the periphery of the opening of the container body. It is a container characterized by being sealed.

By adopting such a configuration, the heat-adhesive resin layer forming the inner surface of the container main body is releasably laminated to the heat-resistant molding sheet surface or the weak release resin layer surface. Therefore, the container body has easy opening property,
When the contents are taken out after heating, the entire lid can be easily and cleanly peeled off and opened.

According to a fifth aspect of the present invention, the thermoadhesive resin layer of the container body has a density of 0.920 to 0.9.
Formed by polyethylene 45 g / cm ^3, and thickness of a container according to claim 4, characterized in that a 3 to 20 [mu] m.

By adopting such a structure, in addition to the function and effect of the invention described in claim 4, in addition to the fact that heat sealing of the lid member to the container body is performed well and a proper sealing strength is obtained. At the same time, the peel strength when peeling off the lid material after heating the content can be more reliably adjusted to fall within an appropriate range.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a lid material of the present invention, a material of a container body used in combination with the lid material, a manufacturing method, and the like will be described. The lid material of the present invention is a lid material comprising a laminated film in which a heat-resistant base material film, a first thermo-adhesive resin layer, and a second thermo-adhesive resin layer are laminated in this order from the outside. A cut line penetrating from the heat-resistant base film to the first heat-adhesive resin layer.

The heat-resistant base film of such a cover material is
It only needs to have mechanical strength as a support and heat resistance to the extent that it does not deform at the temperature of heat sealing. For example, biaxially stretched polyethylene terephthalate film (PET film), biaxially stretched nylon film (ON film) ,
A single film or two or more kinds of laminated films such as a biaxially stretched polypropylene film (OPP film) can be used.

Further, since the first heat-adhesive resin layer needs to be formed of a relatively thin layer in the lid material of the present invention, the first heat-adhesive resin layer is laminated to supplement the heat sealing strength. Is what you do. Examples of such a first heat-adhesive resin layer include polypropylene, high-density polyethylene, medium-density polyethylene, linear low-density polyethylene, and low-density polyethylene, as well as ethylene-α-olefin copolymer and ethylene-vinyl acetate copolymer. A coalescence, an ionomer, a polyester, a polyamide, and the like can be used, and a single substance or a mixture thereof can be used. Further, a plurality of these may be used in a multilayered form. The thickness of the first heat-adhesive resin layer is suitably from 30 to 80 μm.

The second heat-adhesive resin layer closes the score line provided on the surface side of the lid member from the inside, breaks when an internal pressure such as steam is applied, and closes the opening of the container body. It is necessary to have thermal adhesiveness for sealing with a heat seal. For such a second heat-adhesive resin layer, the resins listed in the first heat-adhesive resin layer can be used in the same manner. It is preferably at most 800%. When the thickness is less than 10 μm, the strength is insufficient, and there is a fear that the film may be broken at a distribution stage or the like, which is not preferable. Also, if the thickness is 30
If it exceeds μm, the strength is too high and it is difficult to break due to the internal pressure during heating, which is not preferable. When the elongation exceeds 800%, it is difficult to break, and at the same time,
It is not preferable because the appearance of the broken portion is impaired.

However, in actual selection, it is necessary to take into consideration the thermal adhesiveness with the material of the bonding surface of the container body, and it is preferable that the material is the same as the bonding surface of the container body. Therefore, the materials of the bonding surfaces of the first and second thermo-adhesive resin layers and the container body are selected in conjunction with each other, and even if there are some differences such as grades. It is preferable to use the same kind of materials in combination.

In the present invention, as will be described in detail later, in order to give the lid joint portion of the container body performances such as easy-openability and heat resistance to heated steam, for example, a heat-resistant molding sheet may be made of polypropylene. When the sheet of No. is used, the heat-adhesive resin laminated releasably thereon has a density of 0.
920-0.945 g / cm ³ polyethylene is preferably used. Therefore, in order to cope with this, the first heat-adhesive resin layer of the lid material has a density of 0.920 to 0.9.
45 g / cm ³ linear low density polyethylene is preferred,
The second heat-adhesive resin layer has a density of 0.910
It is preferable to use a linear low density polyethylene of 0.945 g / cm ³ .

In a method of manufacturing a lid member made of the above-described materials, first, a first heat-adhesive resin layer is laminated on one surface of a heat-resistant base film. As the lamination method, a conventionally known method can be used. For example, the resin of the first heat-adhesive resin layer is previously formed into a film by an inflation molding method or the like, and this is heat-resistant base film. May be laminated by a dry lamination method or an extrusion lamination method via an adhesive resin, or may be laminated by extrusion coating the resin of the first heat adhesive resin layer on the surface of the heat resistant base film. .

However, in order to increase the adhesive strength between the heat-resistant base film and the first heat-adhesive resin layer and the heat resistance of the bonded portion, dry lamination using a two-component curable adhesive such as a polyurethane-based adhesive is required. It is preferable to laminate by a method. When printing a pattern or the like on the cover material, it is preferable to print in advance by gravure printing or the like on the inner surface (laminated surface) of the heat-resistant base film.

Next, a perforated cut line having a predetermined shape was formed on the laminated film of the heat-resistant base film and the first heat-adhesive resin layer by a punching device such as a roll cutter or laser light irradiation. Thereafter, a second heat-adhesive resin layer is laminated on the first heat-adhesive resin layer, and a lid material film is produced such that the score line is closed from the inside. Regarding the method of laminating the second heat-adhesive resin layer, the lamination can be performed not only by the extrusion coating method but also by the dry lamination method. However, when the thickness is as thin as 20 μm or less, the extrusion coating method is suitable from the viewpoint of workability. In the case of laminating by the extrusion coating method, the surface of the second heat-adhesive resin layer can be formed in a mat shape by using a chill roll having a matte surface, thereby improving the suitability of feeding the lid material in a later step. Can be done.

The first and second thermo-adhesive resin layers may each be formed as a single layer, or may be formed as two or more layers. For example, when laminating the second heat-adhesive resin layer by a two-layer coextrusion coating method, by using a heat-adhesive resin in which an antistatic agent is kneaded in an outer layer (the innermost layer of the lid material), It is also possible to improve the advancing suitability of the lid material. The lid material of the present invention can be manufactured by punching the lid material film prepared as described above into a predetermined shape.

Next, a container body used in combination with the lid member will be described. In the container of the present invention, cooked food or the like is stored in the container body, a lid is heat-sealed and sealed in the opening, and the container can be directly heated and cooked in a microwave oven. Therefore, the container main body can be used as long as it can withstand heating and cooking by a microwave oven, but if it is used alone, there is a disadvantage in that when the lid material is peeled off, the sealing strength is strong and the peeling is difficult. As a method of facilitating peeling of the lid material, for example, there is a method of using an easy-peeling resin as the heat-adhesive resin of the lid material. However, in the container of the present invention, it is necessary that the lid material does not peel off at the internal pressure during heating and cooking by a microwave oven, and that it can be easily peeled off at the time of heating, cooking, and forced peeling at the time of opening. In this case, there is a problem of inconvenience in terms of workability and adjustment of peel strength.

In order to solve such a problem, in the present invention, the heat-adhesive resin layer is provided on the container body on one side of the heat-resistant molding sheet with or without the intermediary of a weak release resin layer. Was formed by thermoforming a cup-shaped or tray-shaped laminated sheet on which the heat-adhesive resin layer was placed inside.

Examples of the heat-resistant molding sheet serving as a base of the laminated sheet include simple sheets such as a non-stretched polypropylene sheet, a non-stretched polypropylene sheet containing an inorganic filler, and a non-stretched polyethylene terephthalate sheet. Unstretched plastic sheets having a multilayer structure such as a saponified ethylene-vinyl acetate copolymer layer / polypropylene layer can also be used.

The heat-adhesive resin layer releasably laminated on the heat-resistant molding sheet is made of the same or the same type of resin as the heat-adhesive resin layer of the lid material, and has heat sealability with each other. It is preferable that the adhesive sheet is quasi-adhered to the surface of the sheet, and that when it is forcibly peeled off, it peels off cleanly at the interface between them. When the heat-resistant molding sheet itself or its lamination surface is made of polypropylene, for example, polyethylene can be used for such a heat-adhesive resin layer, and among these, the density is 0.920 to 0.945 g / cm ^3. Of polyethylene,
Since it has good thermal adhesion and heat resistance to the lid material, and at the same time, it can be satisfactorily pseudo-adhered to the polypropylene layer as the base material of the container body and can be peeled off, it can be suitably used.

When this combination is employed, there is no need to provide a weakly releasing resin layer in the intermediate layer, and a laminated sheet of both can be produced in one step by, for example, a multilayer coextrusion method. A cup-shaped or tray-shaped container main body is thermoformed with the laminated sheet, and a linear low-pressure resin layer and a second heat-adhesive resin layer are formed on a biaxially stretched polyethylene terephthalate film, for example. In a container in which a lid member having a configuration in which high-density polyethylene is laminated is heat-sealed, the linear low-density polyethylene layer of the lid member and the polyethylene layer on the container body side are firmly thermally bonded. Then, when the lid material is forcibly peeled off, the polyethylene layer of the heat seal part on the container body side is taken on the lid material side, and it can be peeled cleanly at the interface between the polypropylene layer and the polyethylene layer of the container body and can be opened. it can.

In the structure of the laminated sheet of the container body, that is, in the combination of the non-stretched polypropylene sheet layer and the polyethylene layer, a weak release resin layer can be provided in the middle layer. In this case, as the weak release resin layer, for example, a resin obtained by blending polyethylene or the like with polypropylene can be used. In this case, the production of the laminated sheet may be performed by a three-layer co-extrusion method,
Alternatively, it can be produced by sequentially extruding and coating the resin of the intermediate layer and the heat-adhesive resin layer on a non-stretched polypropylene sheet.

When unstretched polyethylene terephthalate is used for the base material layer of the laminated sheet, the weak release resin layer is mainly composed of a polyester resin, and a resin blended with polyethylene or the like is used. A laminated sheet can be similarly produced using the polyethylene as the resin layer.

When the weak release resin layer is provided on the intermediate layer as described above, the peeling surface when the lid material heat-sealed to the container body is forcibly peeled off has a weak release resin layer on the container body side. This is the interface between the layer and the heat-adhesive resin layer thereon, and the heat-adhesive resin layer of the container body of the heat seal portion, that is, the polyethylene layer, is taken on the lid material side.

[0036]

Embodiments of the present invention will be described below with reference to the drawings. However, the present invention is not limited to these drawings. Further, the same reference numerals are used for the parts having the same names in different drawings.

FIG. 1 is a plan view showing a configuration of an embodiment of a lid member according to the present invention, and FIG. 2 is a schematic enlarged sectional view for explaining a laminated configuration of the lid member along line AA in FIG. is there. FIG.
FIGS. 4A to 4F are plan views showing preferred shapes of the score lines provided on the lid material of the present invention, and FIGS. 4A to 4F are diagrams showing different examples. FIG. 4 is a perspective view showing the configuration of an embodiment of the container using the lid material of the present invention.

In the embodiment shown in FIGS. 1 and 2, the lid 8 is made of the laminated film 1 and has a substantially rectangular shape so as to conform to the shape of the opening of the container body. A tongue-shaped protruding piece 2 is provided at one corner, and a cross-shaped (or X-shaped) cut line 3 is provided in a half-cut shape on a substantially central surface of the lid member 8.

The laminated film 1 of the lid 8 is
As shown in FIG. 2, in order from the outside, a heat-resistant base film 4 (for example, a biaxially stretched polyethylene terephthalate film having a thickness of 12 to 25 μm) and an adhesive layer 5 (a polyurethane-based two-component curable adhesive layer for dry lamination) ), The first heat-adhesive resin layer 6 (for example, having a density of 0.920 to 0.945).
g / cm ³ linear low density polyethylene layer thickness 30 to 80
μm), the second heat-adhesive resin layer 7 (for example, having a density of 0.9
(A linear low-density polyethylene layer having a thickness of 10 to 0.945 g / cm ^3, a thickness of 10 to 30 μm and an elongation of 800% or less). The eye line 3 indicates that the first heat-resistant base material film 4
The second heat-adhesive resin layer 7 is provided so as to penetrate through the heat-adhesive resin layer 6.

By adopting such a configuration, for example, the lid 8 is formed as a heat-adhesive resin layer on the inner surface with a density of 0.
A container such as a cup-shaped or tray-shaped container body made of a laminated sheet on which a polyethylene layer of 920 to 0.945 g / cm ³ is releasably stacked contains contents such as cooked food, and an opening of the container body The contents can be hermetically packaged by heat sealing to the peripheral flange.

Then, by heating and cooking the container package as it is in a microwave oven, steam is generated from the contents, and an internal pressure is applied to the lid member 8 so that a constant internal pressure (about 1.2 kg / cm ^{2) is obtained.} ), The thin second heat-adhesive resin layer below the cut line 3 of the lid material 8 is broken, the cut line 3 is opened, and excess gas and vapor are discharged to the outside. The internal pressure is adjusted, and the contents are evenly heated in a steamed state.
Cooked.

Further, after heating and cooking, the lid member 8 is pinched by the knob 2 and peeled off from the container body, whereby the heat-adhesive resin layer (polyethylene layer) releasably laminated on the container body is broken. The lid 8 can be easily and cleanly removed, and the contents can be taken out. Here, as the cooked food to be put in the container, for example, gyoza, shyumai, meat bun, spaghetti, yakisoba, curry roux, kettle, hamburger, hot dog, takoyaki, etc. are suitable.

FIGS. 3 (a) to 3 (f) are plan views each showing a preferred shape of a score line provided in the lid member of the present invention. In each of these shapes, straight lines extending from the outside toward the center are arranged at an appropriate number and intervals, and by adopting such a shape, the score line portion can be opened with a relatively low internal pressure. In addition, since the shape of the opening is easily maintained constant, stable internal pressure adjustment can be performed. The shape of such a score line, and the length of each score line,
It can be appropriately determined according to the capacity of the container, the type and amount of the enclosed contents, and the like.

In the container 20 shown in FIG. 4, the contents of the cooked food are stored in a container body 10 having an opening formed in a substantially rectangular tray shape. This is a configuration in which the lid member 8 having the configuration shown in FIG.

In this configuration, for example, a polypropylene sheet containing an inorganic filler is used for the heat-resistant molding sheet layer of the container body 10, and the density of the heat-adhesive resin layer that is releasably laminated on the sheet layer is 0.920-0. Using 945 g / cm ³ of polyethylene, both were co-extruded by co-extrusion, for example, with a polypropylene layer having a thickness of 600 μm and a polyethylene layer having a thickness of 12 μm to produce a laminated sheet. By using the container body 10 thermoformed into a tray shape as shown in FIG. 1, the sealing property of the contents, the heating, cooking function, and the heating, as described with the lid member 8 in FIGS. The container 20 having the easy opening property of the lid 8 after cooking can be obtained.

Hereinafter, the present invention will be described with reference to specific test examples. (Test Example) In order to perform a heating test of cooked food using the container of the example, a container 20 having the configuration described in FIG. 4 was prepared, and the container main body 10 was made of an inorganic filler-containing polypropylene (600 μm in thickness). And density 0.925g / cm
A stacked sheet by co-extrusion of ^three linear low density polyethylene (thickness 12 [mu] m), the outer shape of the opening is vertical ×
A tray with a flange having a width of 16 cm and a rectangle of about 12 cm and a depth of 4 cm was thermoformed.

As the lid member 8, a biaxially stretched polyethylene terephthalate film (thickness: 25 μm) was used as the heat-resistant base film 4 in the structure shown in FIG. Density 0.930 g / cm ³
Non-stretched linear low-density polyethylene film (thickness 60μ)
m), the two are applied to the adhesive layer 5 by polyurethane-based 2
Using a liquid curing type adhesive, laminating and laminating by a dry lamination method.
Two cut lines having a length of 2.5 cm intersected in a cross shape and provided in a penetrating shape.

Next, a linear low-density polyethylene having a density of 0.925 g / cm ³ as a second heat-adhesive resin layer 7 was extruded to a thickness of 15 μm on the first heat-adhesive resin layer 6 surface of the laminated film. After coating and laminating, this laminated film is substantially rectangular in outer dimensions of 16.4 × 12.4 cm in length and width, a knob 2 is provided at one corner, and a score line 3 is located at the center. The cover material 8 was produced by punching.

Using the container body 10 and the lid member 8 prepared as described above, three types of contents, namely, curry roux, shumai, and takoyaki, were prepared, and each was separately placed in the container body at a volume ratio of 70%. After filling at a filling rate of ８０80%, the lid material 8 was heat-sealed with a tray sealer to the flange at the periphery of the opening to form a sample for a heating test. The number of samples was 10 for each food.

When each of the above samples was placed in a microwave oven of 500 W in order and subjected to a heating test for about 3 to 4 minutes, the lid material temporarily expanded due to the expansion of air and the generation of steam. There is no breakage of the heat seal portion, the second heat-adhesive resin layer below the cut line portion of the lid material is broken as scheduled, the cut line portion is opened, and excess gas and vapor are discharged to the outside. A good steaming effect was obtained, and the contents could be uniformly heated. In addition, when the lid material was peeled off after heating, the lid material could be easily and cleanly peeled off using the knob.

[0051]

As described in detail above, according to the present invention, contents such as cooked foods can be circulated in a sealed state in a sanitary manner, and when heating and cooking, each container can be heated without any trouble. It can be heated in a microwave oven, and the steam generated during heating is discharged to the outside moderately, without the container bursting, the internal pressure is adjusted appropriately and a good steaming effect is obtained, That can be uniformly used for cooking and heating microwave ovens, which can be uniformly heated and cooked, and that when the contents are taken out, the lid can be easily and cleanly peeled off. This has the effect of being able to provide a container using the same with good productivity and at low cost.

[Brief description of the drawings]

FIG. 1 is a plan view showing a configuration of an embodiment of a lid member of the present invention.

FIG. 2 is a schematic enlarged cross-sectional view (a schematic enlarged cross-sectional view taken along the line AA in FIG. 1) illustrating the configuration of an embodiment of the lid member of the present invention.

FIG. 3 is a plan view showing a preferred shape of a score line provided on a lid member of the present invention.

FIG. 4 is a perspective view showing a configuration of an embodiment of a container using the lid material of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 laminated film 2 tab 3 cut line 4 heat-resistant base film 5 adhesive layer 6 first heat-adhesive resin layer 7 second heat-adhesive resin layer 8 lid 9 heat seal part 10 container body 20 container

Claims (5)

[Claims] 1. A lid comprising a laminated film in which a heat-resistant base film, a first thermo-adhesive resin layer, and a second thermo-adhesive resin layer are laminated at least in order from the outside. And a cut line penetrating from the heat-resistant base film to the first heat-adhesive resin layer. 2. The method according to claim 1, wherein the first heat-adhesive resin layer has a density of 0.9.
2. The lid material according to claim 1, wherein the lid material is formed of a linear low-density polyethylene of 20 to 0.945 g / cm < ³ >. 3. The method according to claim 2, wherein the second heat-adhesive resin layer has a density of 0.9.
It is formed of linear low density polyethylene of 10 to 0.945 g / cm ³ , has a thickness of 10 to 30 μm, and has an elongation of 800%.
The lid material according to claim 1 or 2, wherein: 4. A container comprising a container body and a lid material heat-sealed to the container body, wherein one side of a heat-resistant molding sheet is provided on the container body with or without a weak release resin layer. Using a container body obtained by thermoforming a laminated sheet in which a heat-adhesive resin layer is releasably laminated into a cup-like or tray-like shape with the heat-adhesive resin layer inside; 3. A container characterized in that the lid member according to any one of the above items 3 is used, and the second heat-adhesive resin layer surface of the lid member is heat-sealed by fitting the flange portion around the opening of the container body, and the container is sealed. . 5. The heat-adhesive resin layer of the container body is formed of polyethylene having a density of 0.920 to 0.945 g / cm ³ and has a thickness of 3 to 20 μm. A container according to claim 1.