JP3153930U - Insulating paper container - Google Patents

Abstract

An object of the present invention is to provide a heat insulating paper container suitable for small rod production and container production by various types of printing. A heat insulating paper container provided with a high-melting thermoplastic synthetic resin layer 4 on the inner surface of a base paper 3 and a foam layer 5 obtained by heating and foaming a low-melting thermoplastic synthetic resin layer on the surface of the base paper 3. And the printing layer 7 printed by curved surface printing is provided in the surface of the foaming layer 5 of the said heat insulating paper container, It is characterized by the above-mentioned. [Selection] Figure 1

Description

  The present invention relates to a heat insulating paper container in which a low-melting thermoplastic synthetic resin film is provided on the surface of a base paper and the low-melting thermoplastic synthetic resin film is heated to foam.

  A thermoplastic synthetic resin film with a low melting point is laminated on the surface of the base paper of the container body member. A heat-insulating paper container that is coated with a synchronous ink that forms a smooth printing surface and is heat-treated to foam the low-melting-point thermoplastic synthetic resin film is known (for example, Patent Document 1).

Japanese Patent No. 3408156

The known heat insulating paper container is suitable for mass production, and has a problem that it is not suitable for small rod production and production of heat insulating paper containers by various kinds of printing.
In order to solve this problem, an object of the present invention is to provide a heat insulating paper container suitable for small rod production and production of containers by various kinds of printing.

For this purpose, the heat-insulating paper container of the present invention is provided with a high-melting point thermoplastic synthetic resin layer on the inner surface of the base paper and a foam layer obtained by heating and foaming a low-melting point thermoplastic synthetic resin layer on the surface of the base paper. A heat insulating paper container, wherein a printed layer printed by curved surface printing is provided on a surface of a foam layer of the heat insulating paper container.
Further, the heat insulating paper container of the present invention has a white ink base layer provided on the surface of the foam layer, and a printed layer printed by curved surface printing on the surface of the white ink base layer. It is characterized by.

The surface of the portion where the foaming thickness of the bonding portion of the container main body, which is formed by winding and bonding the fan-shaped blank and forming the body portion of the container, is also surface-printed uniformly.
The high-melting thermoplastic synthetic resin layer is a high-melting polyethylene film.
The low-melting thermoplastic synthetic resin layer is a low-melting polyethylene film.
The printed layer is printed with UV ink.

  The heat-insulating paper container of the present invention is a heat-insulating paper in which a high-melting point thermoplastic synthetic resin layer is provided on the inner surface of the base paper, and a low-melting point thermoplastic synthetic resin layer is provided on the surface of the base paper by heating and foaming. Since the printed container is provided with a printed layer printed by curved surface printing on the surface of the foamed layer of the heat insulating paper container, the foamed layer is provided on the surface of the container, and no design printing is performed. A large number of heat-insulating paper containers can be prepared to produce small rods according to the demands of customers. Also, it is possible to print a wide variety of products. There is an effect that can be provided at low cost.

It is sectional drawing of this invention heat insulation paper container. It is sectional drawing of this invention heat insulating paper container provided with the base layer of white ink. It is an expanded sectional top view of the bonding part of a trunk | drum.

The heat insulating paper container of the present invention is a heat insulating paper container without the surface printing layer 7 shown in FIG. 1 or a heat insulating paper container provided with a white ink base layer 6 without the surface printing layer 7 shown in FIG. A large number of inks are prepared and stored, and a surface printed layer is provided by curved surface printing on the surface of the foam layer shown in FIG. 1 or the surface of the white ink base layer shown in FIG.
That is, even if it is a thing of a small rod by the request of a customer, and the thing of various kinds of surface printing, it can respond to a demand.

In the figure, reference numeral 1 is a body member of a heat insulating paper container, and reference numeral 2 is a bottom member. The body member 1 is provided with a high melting point thermoplastic synthetic resin layer 4 on the inner surface of the base paper 3, and a foam layer 5 obtained by heating and foaming a low melting point thermoplastic synthetic resin layer is provided on the surface of the base paper 3. These thermoplastic synthetic resins are preferably polyethylene.
FIG. 2 shows an example in which a white ink base layer 6 is provided on the surface of a foamed layer 5 obtained by heating and foaming the low-melting-point thermoplastic synthetic resin layer.

Reference numeral 7 in FIGS. 1 and 2 denotes a print layer in which various surface designs are printed on the surface of the foam layer 5 or the underlayer 6 by curved surface printing using UV ink.
The heat insulating paper container on which the various surface designs are not printed is formed by winding a blank constituting the body member 1 and attaching the bottom member 2 in the same manner as an ordinary cup-shaped container.

  The container constituting the present invention is provided with a high-melting point thermoplastic synthetic resin layer on the inner surface of the base paper 3, and a low-melting point thermoplastic synthetic resin layer is directed to the surface of the base paper 3, and the container is heated to heat the base paper 3 The foamed layer 5 is obtained by evaporating the contained moisture and foaming the low-melting thermoplastic synthetic resin layer by this moisture evaporating action.

  FIG. 3 is an enlarged cross-sectional view of a portion where the ends of the blank are bonded together, and a portion where the low melting point thermoplastic synthetic resin is not sufficiently foamed in the bonded portion is thinned. However, by performing curved surface printing, it is possible to print on a uniform surface on the circumference even at a thin position of the bonded portion.

  In curved surface printing with UV ink, mold change can be easily performed in a short time, so that it is possible to handle small rods and produce various types of surface printing. In addition, the plate cost is much cheaper than gravure printing, and the plate production can be delivered quickly. Furthermore, since UV ink does not contain VOC (volatile organic solvent), environmental hormones, and heavy metals, printing that is friendly to the environment can be performed. Since UV ink is instantly cured, productivity can be improved and short-term delivery is possible. UV ink printing saves energy without the need for hot air treatment for ink drying.

DESCRIPTION OF SYMBOLS 1 Body member 2 Bottom member 3 Base paper 4 High-melting point thermoplastic synthetic resin layer 5 Foam layer 6 Underlayer 7 Print layer

Claims (6)

  A heat insulating paper container provided with a foaming layer in which a high melting point thermoplastic synthetic resin layer is provided on the inner surface of a base paper and a low melting point thermoplastic synthetic resin layer is heated and foamed on the surface of the base paper. A heat insulating paper container characterized in that a printed layer printed by curved surface printing is provided on the surface of a foam layer of a container.   The heat insulation according to claim 1, wherein a white ink base layer is provided on the surface of the foam layer, and a printed layer printed by curved surface printing is provided on the surface of the white ink base layer. Sex paper container.   The portion of the container body in which the foamed thickness of the bonded portion of the container main body formed by winding and bonding the fan-shaped blank to form the body portion of the container is also surface-printed uniformly. The heat-insulating paper container as described.   The heat-insulating paper container according to any one of claims 1 to 3, wherein the high-melting-point thermoplastic synthetic resin layer is a high-melting-point polyethylene film.   The heat insulating paper container according to any one of claims 1 to 3, wherein the low-melting-point thermoplastic synthetic resin layer is a low-melting-point polyethylene film.   The heat insulating paper container according to any one of claims 1 to 5, wherein the printing layer is printed with UV ink.

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