JP2007076727A - Plastic molded container with foam label and its manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light weight plastic molded container having an excellent moldability capable of being handled by bare hands even when the temperature of the contents is high or the container itself becomes high temperature. <P>SOLUTION: The plastic molded container 1 with a foam label is provided with the foam label 3 having at least a foam layer 4 and a paper layer 5 on the outer surface of the plastic molded container 2. In this case, the foam label 3 is preferably integrally molded on the outer surface of the plastic molded container. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a plastic molded container with a foam label, and more specifically, to a plastic molded container with a foam label in which a foam label having a foam layer and a plastic molded container are integrated.

In recent years, plastic molded containers that are lightweight and have good moldability have been widely used instead of glass containers and paper containers. For example, in the case of a cup-type container, the plastic molded container is cheaper and lighter than a conventional glass container, and is more durable than a paper container, so that the utility value is particularly increased. In addition, there is a plastic container with a label attached to the outer peripheral surface (for example, Patent Document 1).
JP 10-315410 A

  However, the temperature of the contents of a plastic molded container is more easily transmitted to the surface of the container than a paper container. For example, when a high-temperature substance is placed in a plastic molded container, the container surface quickly becomes hot and is handled with bare hands. Sometimes it was difficult.

  In addition, the plastic molded container can be heated in the microwave or cooked contents, but when heated in the microwave the container becomes hot and difficult to handle was there.

  The present invention has been made in view of the above problems, and is a plastic molded container that is lightweight and has good moldability, and when the temperature of the contents is high or when the container itself becomes high. However, an object is to provide a plastic molded container that can be handled with bare hands.

  In order to achieve the above object, the present invention provides the plastic molding with foam label according to claim 1, wherein a foam label having a foam layer and a paper layer is provided on the outer surface of the plastic molding container from the outside at least. Provide a container.

  The container provided by the present invention is a plastic molded container with a foam label in which a foam label having at least a foam layer and a paper layer is provided on the outer surface of the plastic molded container. Even when the foamed plastic molded container with a foam label is heated in a microwave oven, the container can be handled with bare hands by the action of the foamed layer having an uneven surface.

  According to a second aspect of the present invention, a label having at least a foam layer resin layer and a water-containing paper layer is integrally formed on the outer surface of the plastic molding container to form a labeled plastic molding container, and the label attached A plastic molded container with a foam label, wherein the plastic molded container is heated to foam the foamed resin layer.

  According to a third aspect of the present invention, there is provided a plastic molded container with a foam label, wherein a foam label having at least a foam layer and a paper layer is integrally molded on the outer surface of the plastic mold container.

  According to invention of Claim 2 and Claim 3, when a high temperature substance is put in the plastic molding container with a foam label similarly to the invention of the said Claim 1, the said plastic molding with a foam label Even when the container is heated in a microwave oven, the container can be handled with bare hands by the action of the foam layer having an uneven surface. In addition, since the plastic molded container and the foam label are integrally molded, there is no step between the plastic molded container and the foam label, and the container has excellent design.

  Further, the present invention provides, as described in claim 4, a labeled plastic molded container forming step for integrally molding a label having at least a foam layer resin layer and a water-containing paper layer on the outer surface of the plastic molded container; And a foaming step of foaming the resin layer for a foam layer by heating the plastic molded container with a label.

  According to the present invention, a plastic molded container with a label in which a label and a plastic container are integrated can be formed, and this can be heated to produce the container of the present invention. Or even if it is a case where it heats with a microwave oven, the plastic molding container with a foam label which can handle a container with bare hands by the effect | action of the foam layer which has an uneven surface can be manufactured easily. In addition, the plastic molded container with a foam label produced according to the present invention has an excellent design because there is no step between the plastic molded container and the foam label because the plastic molded container and the foam label are integrally molded. Container.

  Furthermore, as described in claim 5, the foam layer resin layer is foamed by heating a label having at least a foam layer resin layer, a water-containing paper layer, and a vapor pressure retaining resin layer. There is provided a method for producing a plastic molded container with a foam label, comprising a foam label forming step for forming a foam label and a plastic molded container forming step with a label for integrally molding the foam label on an outer surface of the plastic molded container.

  According to the present invention, by heating a label having at least a foam layer resin layer, a water-containing paper layer, and a vapor pressure maintaining resin layer, the foam layer resin layer is foamed to produce a foam label. Since the foamed label and the plastic molded container can be integrally formed, a plastic molded container with a foamed label can be manufactured, so even when a high temperature substance is put in or when heated in a microwave oven A plastic molded container with a foam label that can handle the container with bare hands by the action of the foam layer having an uneven surface can be easily produced.

  According to the present invention, since a foam label comprising at least a foam layer and a paper layer is provided on the outer surface of the plastic molded container from the outside, when a high-temperature substance is placed in the plastic molded container with the foam label Even so, the tactile temperature on the outer surface of the plastic molded container with a foam label can be lowered, and as a result, it can be handled with bare hands. Moreover, even if it is a case where the plastic molding container with a foam label of this invention is heated with a microwave oven etc., the same effect can be acquired.

  Further, according to the plastic molded container with a foam label of the first aspect of the present invention, the label and the plastic molded container are integrally formed to form a labeled plastic molded container, and this is heated to produce the container of the present invention. Therefore, even when a high-temperature substance is put in or when heated in a microwave oven, the container can be handled with bare hands by the action of the foamed layer having an uneven surface. Moreover, since the plastic molding container with a foam label of this invention is integrally molded, there is no level | step difference between the said plastic molding container and a foam label, and it becomes a container excellent in the design property.

  According to the plastic container with a foam label of the second aspect of the present invention, the foam layer is formed by heating a label having at least a foam layer resin layer, a paper layer containing moisture, and a vapor pressure maintaining resin layer. The foamed resin layer is foamed to form a foamed label, and the foamed label and plastic molded container are integrally molded to produce a plastic molded container with a foamed label. Even in this case, the container can be handled with bare hands by the action of the foamed layer having an uneven surface.

  Below, the plastic molding container with a foam label of this invention and its manufacturing method are demonstrated concretely using drawing.

  FIG. 1 is a cross-sectional view of the plastic molded container with a foam label of the present invention, and FIG. 2 is an enlarged view of portion A in the plastic molded container with a foam label shown in FIG.

  As shown in FIG. 1, a plastic molded container 1 with a foam label of the present invention has at least a plastic molded container 2, a foamed layer 4, and a paper layer 5 and is provided on the outer surface of the plastic molded container 1. And at least a label 3. The plastic molded container 1 with a foam label of the present invention may be provided with other layers described later depending on the application.

  Such a plastic molded container 1 with a foam label according to the present invention has an outer surface covered with a foamed layer 4, so that a high-temperature substance, for example, a hot drink such as hot rice cake is placed in the container. Even if it is, you can handle the container with your bare hands. Moreover, even when the container of the present invention is used as a heating or cooking container for a microwave oven or a packaging container, it has a special effect that it can be handled with bare hands.

  The application object of the plastic molded container 1 with a foam label is not particularly limited, and can be used in the same manner as a conventional plastic molded container. It can be suitably used for containers heated or cooked by a microwave oven such as a drinking water cup, a cup ramen container, a frozen food packaging container, a retort lunch box container, and the like. The plastic molded container with a foam label of the present invention can also be used as a container containing a low-temperature substance, for example, an ice cream or dry ice packaging container. Can do.

  The plastic molded container 1 with a foam label is a cup shape typified by a shape such as a paper cup, a bowl shape typified by an instant noodle container, a rectangular shape typified by a retort lunch box container, and a PET bottle beverage container. Any shape such as a bottle shape may be used. About the specific usage aspect of such a plastic molded container 1 with a foam label, a shape can be suitably specified and used according to the object to be applied.

  The plastic molded container 2 is a part that becomes a main body of the plastic molded container 1 with a foam label, and is required to have properties such as strength, heat resistance, and moisture resistance. As a raw material for forming the plastic molded container 2, various resins can be used according to the use of the plastic molded container 1 with a foam label, and are not particularly limited.

  Examples thereof include polyesters such as polyethylene terephthalate and polyethylene naphthalate, polyolefins such as polyethylene, polypropylene, polymethylpentene, and polybutylpentene, polystyrene, polyvinyl chloride, polycarbonate, polyamide, and high nitrile resin. .

  Among these, when used for a microwave oven, polypropylene, polyethylene, polystyrene, and the like are preferable.

  About the shaping | molding method of the plastic molding container 2, conventionally well-known various shaping | molding methods can be used and it does not specifically limit. For example, an injection molding method, a blow molding method, an extrusion molding method, and the like can be given.

  Further, the present invention is not particularly limited to the method of providing the foam label on the outer surface of the plastic molded container 2 manufactured by these molding methods, and the foam label 3 is provided on the plastic molded container 2 by any conventionally known method. May be.

  For example, a heat seal layer may be provided on the inner side of the foam label 3 to heat seal the outer surface of the plastic molded container 2, or an adhesive layer may be provided to stick.

  In the present invention, among the methods described above, it is particularly preferable that the plastic molding container 2 is molded by the injection molding method and at the same time the label is molded in-mold. The plastic molding container 2 and the label can be integrally formed by forming the plastic molding container 2 and molding the label in-mold by the injection molding method.

  FIG. 3 is an explanatory diagram for explaining a method of forming a plastic molding container 2 and forming a label in-mold at the same time by an injection molding method.

  As shown in FIG. 3A, when a plastic molding container is formed by an injection molding method, a mold 30 and a male mold 31 having a desired shape are used. In a gap 32 formed between the female mold 30 and the male mold 31, a label 33 provided on the outer surface of the container by in-mold molding is installed. In this case, the side in contact with the female mold 30 is the outer surface side of the container, so that the surface of the label 33 is positioned on the female mold 30 side.

  And as shown in FIG.3 (b), resin used as the raw material of the said container is injection-molded in the clearance gap 32 formed with the said female type | mold 30 and the male type | mold 31. FIG.

  Then, after injection molding, the container of the present invention can be obtained by separating the female mold 30 and the male mold 31 as shown in FIG. According to this method, since the label 33 is previously installed in the gap 32 between the female mold 30 and the male mold 31, it can be integrally formed at the same time as the container is formed. Adhesion with can be improved.

  Next, the foam label 3 will be described.

  The foam label 3 has at least a foam layer 4 and a paper layer 5 and is provided on the outer surface of the plastic molded container. At this time, the foamed layer 4 is provided so as to be on the surface side of the plastic molded container, and is provided so as to be bent at the flange portion of the container 1 (see symbol B in FIG. 1). Further, other layers may be provided between the paper layer 5 and the plastic molding container 2 or between the foam layer 4 and the paper layer 5 as necessary. It is possible to display a product or company name or provide a printed layer for imparting design properties to the container.

  As shown in FIG. 2, the foamed layer 4 is a layer made of a resin having irregular irregularities 20 formed on the surface thereof. Due to irregular irregularities formed on the surface, the contact area between the person handling the container of the present invention and the surface of the container is reduced, so that even when a high-temperature substance is placed in the container, it feels too hot. There is no. Moreover, since the foaming layer 4 has many space | gap parts in the inside, heat conductivity is low, As a result, the said effect can further be exhibited.

  Examples of the resin used as the material for the foam layer 4 include thermoplastic resins such as polyethylene, polypropylene, polystyrene, and polymethylpentene.

  Although it does not specifically limit about the thickness of the foaming layer 4, The range of 300-1500 micrometers is preferable and 500-1000 micrometers is especially preferable. If the thickness is less than 300 μm, the heat insulation effect of the present invention cannot be sufficiently exerted, and when a high-temperature substance is placed in the container, the container surface may become hot, while the thickness is reduced. This is because if it is thicker than 1500 μm, the entire label becomes thick and the design may be impaired.

  The paper layer 5 is an indispensable layer for forming the foam layer 4. This is because, as will be described later, the foamed layer 4 is formed by utilizing the vapor pressure when the water contained in the paper layer 5 is vaporized.

The material for forming the paper layer 5 in the foam label 3 is not particularly limited as long as it is a paper having a moisture content that is naturally contained in normal paper. For example, non-coated paper such as high-quality paper and rough paper of 78 to 400 g / m ² , preferably 150 to 300 g / m ² , kraft paper, kraft paper, pure white roll paper, grameen paper, cup base paper, etc. In addition, coated paper such as art paper, coated paper, cast coated paper provided with an inorganic pigment coating layer can also be used.

  In addition to the foam layer 4 and the paper layer 5 described above, other layers can be arbitrarily provided on the foam label 3 in accordance with the use and contents of the container 1 of the present invention. Examples of other layers include a printing layer, a barrier layer, a light shielding layer, and the like. As a barrier layer, it is a layer for providing gas barrier property to a container, and the vapor deposition layer which consists of aluminum oxide, zinc oxide, antimony oxide, indium oxide, calcium oxide, silicon oxide, etc. can be mentioned. Further, examples of the light shielding layer include an aluminum foil film having a light shielding property, a concealed printing layer, a concealing resin layer, and the like.

  In this case, other layers are provided between the paper layer 5 and the plastic molding container 1 or between the foam layer 4 and the paper layer 5, and further outside the foam layer 4, that is, the outermost surface of the label. Can be provided. However, among these, it is preferable to provide between the paper layer 5 and the plastic molding container 1. This is because when it is provided at this position, formation of the foamed layer 4 by vaporization of moisture in the paper layer 5 is not hindered. Moreover, when providing another layer between the foam layer 4 and the paper layer 5, it is necessary to provide so that formation of the foam layer 4 may not be prevented, for example, forming a printing layer partially, etc. Is possible.

  The plastic molded container 1 with a foam label of the present invention having the above-described configurations can be roughly divided into two according to the manufacturing method. Each will be described in detail below.

[First aspect]
The plastic molded container 1 with a foam label of the first aspect includes a plastic molded container forming step with a label for integrally molding a label having at least a foam layer resin layer and a water-containing paper layer on the outer surface of the plastic molded container, and the label The attached plastic container is heated to produce a foaming step in which the foamed resin layer is foamed.

  As shown in FIGS. 4 and 5, the plastic molded container 1 with a foam label of this embodiment uses a label 50 having at least a foam layer resin layer 51 and a paper layer 152 containing moisture (S40). 50 and a plastic resin for a container are used to integrally form a plastic molded container with a label by an in-mold molding method (S42, a plastic molded container forming process with a label), and then the plastic molded container with a label is heated. Thus, the foamed resin layer is formed by foaming (S44, foaming step).

  And in the 1st aspect of this invention, the plastic molding container with a label is integrally formed by the in-mold molding method in the state which does not use the resin layer 51 for foaming layers as the foaming layer 5 (plastic molding container formation process with a label) Thereafter, the foam layer 5 is formed by foaming the foam layer resin layer 51.

  Conventional formation of a foamed layer is generally accomplished by extruding and laminating a paper layer containing moisture and a polyethylene layer on at least one side of the paper layer, and maintaining the vapor pressure when heated on the surface of the paper on which the polyethylene layer is not laminated. This is done by heating laminated paper on which a vapor pressure maintaining resin layer is formed (see Japanese Patent Publication No. 48-32283). When the conventional laminated paper having such a three-layer structure is heated, the water contained in the paper layer is vaporized, and the vaporized water breaks the polyethylene layer softened by heating and breaks into the atmosphere. In the process of vaporizing, a foamed layer is formed in which the surface of the polyethylene layer has irregular irregular shapes.

  The present invention basically uses the above-described conventional method, and the foam layer resin layer having a lower melting point than the vapor pressure maintaining resin layer softens earlier in the heating process. Is based.

  In the plastic molded container with a foam label of the first aspect, a label 50 that is not provided with a vapor pressure maintaining resin layer is used. In this case, by integrating the label and the plastic molding container by an in-mold molding method, the plastic molding container itself has a role of a resin layer for maintaining the vapor pressure. The plastic molding container itself has the role of a vapor pressure maintaining resin layer (that is, the role of allowing the moisture in the paper layer to escape on the side of the foam layer resin layer). Layers can be omitted. In addition, since it is integrally molded and then heated and foamed, the container itself can be sterilized by this heat.

  Here, the foam layer resin layer 51 in the first embodiment refers to a layer that becomes the foam layer 4 (see FIG. 1) in the subsequent foaming step, and can be formed using the above-described raw resin. . The water-containing paper layer 52 is an indispensable layer for forming the foamed resin layer 51 into the foamed layer 4 in the foaming step, and can be formed using the paper having the above-described properties. . Further, the container resin is a resin that becomes a container by an in-mold molding method, and as described above, plays a role of a vapor pressure maintaining resin layer in a conventional foam label. Therefore, the container resin in the first embodiment needs to be a resin having a melting point higher than that of the raw material resin used for the foam layer resin layer 51.

  Specifically, when LDPE (low density polyethylene) is used as the raw material resin for the foam layer resin layer 51, PP (polypropylene), MDPE (medium density polyethylene), HDPE (high density) are used as the container resin. Polyethylene) or the like is preferably used, and as the resin for containers when PP (polypropylene) is used as the raw material resin for the foam layer resin layer 51, a high softening point PP, polystyrene, PBT (polybutylpentene) is used. It is preferable to use it.

[Second embodiment]
Next, the second aspect of the present invention will be described.

  The plastic molded container 1 with a foam label of the second aspect is manufactured by integrally molding a foam label having at least a foam layer and a paper layer on the outer surface of the plastic mold container.

  As shown in FIGS. 6 and 7, for example, the plastic molded container 1 with a foam label of this embodiment is a label 70 having at least a foam layer resin layer 71 and a paper layer 72 containing moisture (S60). The foam layer resin layer in the label is foamed by heating 70 to form a foam label (S62, foam label forming step), and this foam label and the container resin are used to integrate by an in-mold molding method. (S64, step of forming a plastic molded container with a foam label).

  In the second aspect of the present invention, in the foaming step before in-mold molding, the foam layer resin layer 71 is foamed to form a foam label, and further, the foam label is used for the outer surface of the plastic molding container using the in-mold molding method. It has the characteristic in providing in one.

  In this case, since the vapor pressure holding resin layer 73 is provided on the label 70 itself, the foam layer resin layer 71 can be foamed before being integrated into the plastic molding container.

  Here, the foam layer resin layer 71 in the second embodiment refers to a layer that becomes the foam layer 4 (see FIG. 1) by the heating / foaming step performed thereafter, and for the foam layer in the first embodiment described above. It can be formed using the same raw material resin as the resin layer 51.

  Further, the paper layer 72 containing moisture is the same as the first aspect described above. The vapor pressure retaining resin layer 73 has a role of allowing the moisture contained in the paper layer in the heating / foaming process to evaporate only on the side of the foam layer resin layer without escaping the moisture. Therefore, it is necessary that the resin has a melting point higher than that of the resin layer for the foam layer. In the second embodiment, the foam label 70 and the plastic molded container 2 are integrated by an in-mold forming method. Therefore, the vapor pressure holding resin layer 73 and the plastic molded container resin constituting the foam label 70 are A combination having good adhesion to each other is preferred.

  As a specific example of a preferable combination of the vapor pressure holding resin layer 63 and the container resin in the second embodiment, MDPE (medium density polyethylene) and HDPE (high density polyethylene) are used as raw material resins for the vapor pressure holding resin layer 63. In this case, it is preferable to use resins similar to these as the resin for containers (because adhesion is insufficient unless a similar resin is used. In addition, even if polyethylene is used, LDPE (low density polyethylene) This is because the heat resistance is insufficient.) In addition, as a resin for containers when LDPE (low density polyethylene) is used as a raw material resin for the foam layer resin layer 41, PP (polypropylene) or HDPE (high It is preferable to use (density polyethylene).

  The present invention will be described in more detail with reference to examples.

Example 1
As the foam layer resin layer 51, MDPE (medium density polyethylene) 30 μm was used, and as the paper layer 52, 320 g / m ² cup base paper was used, and these were sequentially laminated to form a label 50 (note that the foam layer resin) On the layer, a printing layer was provided in part in order to provide design properties.)

  PP (polypropylene) is used as a plastic container resin (melting point: 162 ° C.), and the container resin and the label 50 are integrally molded by an in-mold molding method, and the cup has a total side thickness of 0.65 mm. A plastic molded container with a label was formed.

  And this plastic molding container with a label was heated at 130 degreeC for 4 minutes with a foaming furnace, the foamed resin layer for foaming was made to foam, and the plastic molding container with a foaming label was formed.

(Example 2)
LDPE (low density polyethylene) 30 μm is used as the foam layer resin layer 71, 280 g / m ² cup base paper is used as the paper layer 72, and MDPE (medium density polyethylene) 10 μm is used as the vapor pressure maintaining resin layer 73. These were sequentially laminated to form the label 70. In addition, on the resin layer for foam layers, the printing layer was provided in part in order to give designability.

  The label was heated in a foaming furnace at 150 ° C. for 3 minutes to foam the foam layer resin layer to form a foam label.

  MDPE (medium density polyethylene) is used as the plastic container resin (melting point: 135 ° C.), and the container resin and the foamed label are integrally formed by an in-mold molding method, and the cup has a total side thickness of 0.7 mm. A plastic molded container with a foam label was formed.

(Example 3)
LDPE (low density polyethylene) 40 μm is used as the foam layer resin layer 71, 280 g / m ² cup base paper is used as the paper layer 72, and PP (polypropylene) 20 μm is used as the vapor pressure maintaining resin layer 73. Were sequentially laminated to form a label 70. In addition, in order to give designability between the resin layer for foaming layers, and a paper layer, the printing layer was provided in part.

  The label was heated in a foaming furnace at 130 ° C. for 3 minutes to foam the foam layer resin layer to form a foam label.

  PP (polypropylene) is used as a plastic container resin (melting point: 162 ° C.), and the container resin and the foamed label are integrally molded by an in-mold molding method, and the cup has a total side thickness of 1.0 mm. A plastic molded container with a foam label was formed.

(Comparative Example 1)
A conventional IM label cup was prepared as Comparative Example 1.

(Experimental result)
95 ° C. hot water was poured into the plastic molding cups of Examples 1 to 3 and Comparative Example 1, respectively, and the temperature of the cup surface after 2 minutes was measured. The plastic molding cups of Examples 1 to 3 were all about 53 to 60 ° C., but the temperature of the outer surface of the IM label cup (conventional cup) of Comparative Example 1 was 87 ° C.

  As can be seen from the above results, the cup formed in Comparative Example 1 has a temperature difference between the inside and outside of the cup of only about 10 ° C., but the outer surfaces of the cups of Examples 1 to 3 of the present invention have irregularities. Since it is covered with the foamed layer, the cup has a temperature difference of 30 ° C. or more on the inside and outside of the cup, and when the handler grips the cup, the contact area is larger than that of the cup of Comparative Example 1. Different. Therefore, the tactile sensation temperature actually felt when handling with bare hands feels particularly low compared to Comparative Example 1, and the container can be handled even when a high-temperature substance is poured.

It is sectional drawing which shows an example of the plastic molding container with a foam label of this invention. It is an enlarged view of A part in the plastic molding container with a foam label shown in FIG. It is explanatory drawing for demonstrating the method of carrying out the in-mold shaping | molding of the label simultaneously with forming a plastic molding container by the injection molding method. It is a figure which shows the manufacturing process of the 1st aspect of this invention. It is sectional drawing which shows an example of the label used when forming the plastic molding container with a foam label of the 1st aspect of this invention. It is a figure which shows the manufacturing process of the 2nd aspect of this invention. It is sectional drawing which shows an example of the label used when forming the plastic molding container with a foam label of the 2nd aspect of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Plastic molding container with a foam label 2 ... Plastic molding container 3 ... Foam label 4 ... Foam layer 5, 52, 72 ... Paper layer 30 ... Female mold 31 ... Male mold 32 ... Gap 33 ... Label 50, 70 ... Label 51, 71 ... Resin layer for foam layer 73 ... Resin layer for maintaining vapor pressure

Claims (5)

  A plastic molded container with a foam label, wherein a foam label having a foam layer and a paper layer is provided on the outer surface of the plastic mold container from at least the outside. A label having at least a resin layer for a foam layer and a paper layer containing moisture is integrally formed on the outer surface of the plastic molded container to form a plastic molded container with a label,
A plastic molded container with a foam label, wherein the plastic molded container with a label is heated to foam the resin layer for the foam layer.   A plastic molded container with a foam label, wherein a foam label having at least a foam layer and a paper layer is integrally molded on the outer surface of the plastic molded container. A plastic molded container forming step with a label for integrally forming a label having at least a resin layer for a foam layer and a paper layer containing moisture on the outer surface of the plastic molded container;
A foaming step of heating the plastic molded container with a label and foaming the resin layer for the foam layer;
A method for producing a plastic molded container with a foam label. A foam label forming step of heating a label having at least a foam layer resin layer, a water-containing paper layer, and a vapor pressure holding resin layer to foam the foam layer resin layer to form a foam label;
Forming a plastic molded container with a label for integrally molding the foamed label on the outer surface of the plastic molded container;
A method for producing a plastic molded container with a foam label.

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