KR20220098411A - being eco-friendly laminated film with ceramic deposited - Google Patents

Abstract

Provided is an eco-friendly laminate film with deposited ceramic, wherein the laminate film is configured to press and bond a barrier layer film with eco-friendly ceramic deposited on a three-layer sheet used to form an eco-friendly laminate tube, each adhesive layer formed on the surface and the back of the barrier layer film, and a surface film and a back film on each adhesive film. Provided is the eco-friendly laminate film with deposited ceramic, manufactured by the steps of: preparing a barrier layer film in which eco-friendly ceramic is deposited on a three-layer sheet; pressing the barrier layer film and the back film and bonding the films with an adhesive; and pressing the surface film to bond the surface film with an adhesive in a state in which the barrier layer film and the back film are pressed. In addition, the eco-friendly laminate film with deposited ceramic is applied to be classified as an eco-friendly product and to improve the environment.

Description

Eco-friendly laminated film with ceramic deposited

The present invention relates to an eco-friendly laminate film on which a ceramic is deposited to be used when manufacturing a laminate tube, and more particularly, to an eco-friendly laminate film on which the ceramic of the present invention is deposited is applied to form a tube into a tube. By increasing the constant, it prevents the printing pin from being disturbed in the printing process, and improves the uniformity and roundness of the tube length in the process of cutting to a set length due to its high resilience. It relates to an eco-friendly laminate film on which ceramics are deposited so that the shoulder of the tube can be beautifully formed.

In general, a laminate tube is manufactured by first laminating and compressing various high-functional films to each other according to the purpose, manufacturing a laminate film, and then fusion it in a cylindrical shape and injection molding or fusion process in a circular or oval shape.

These laminate tubes are made of films with excellent oxygen barrier properties, UV protection properties and moisture permeability barriers, such as a thin aluminum plate or ceramic deposited PET film, etc. . As the barrier layer, an aluminum-deposited film or an ethylene vinyl alcohol copolymer film may be used instead of the aluminum film.

As a result, the expiration date of the filled liquid contents is secured as long as possible, and 9 colors can be printed on the film, so beautiful design expression is possible.

In addition, it has excellent elasticity and resilience, so it can be used for various purposes such as hair dye, cosmetics, ointments, paints, toothpaste, and food containers.

The laminate film is usually manufactured by a dry lamination method or an extrusion lamination method, etc., and the laminate film manufactured in this way is molded into a tube shape through ultrasonic or high-frequency bonding and then a tube through a post-treatment process. is manufactured with

In the prior art related to the laminate tube as described above, as disclosed in Korean Patent Registration No. 10-1114536, the bonding portion is not exposed to the outside and the color sense is excellent by different concentrations while minimizing the laminated structure. A technique has been disclosed.

In addition, as disclosed in Korean Patent Registration No. 10-0554087, a technique for preventing the filling contents embedded in the laminate tube from decaying or degenerating and enabling long-term use in good condition has been proposed.

However, as well as the laminate tube disclosed in the prior art described above, the laminate tube manufactured by the laminate film having various advantages is an eco-friendly part in the process of being discarded for reasons that cannot be recycled by applying a raw material of a composite material rather than an eco-friendly element. It has the disadvantage of not being dealt with.

The main object of the present invention to solve the problems of the prior art as described above is to make it easy to configure by a simple method of depositing a ceramic material on a single material that can be returned to nature when manufacturing a laminate film. An object of the present invention is to provide a ceramic-deposited eco-friendly laminate film.

Another object of the present invention is to provide a beautiful tube using the ceramic-deposited eco-friendly laminate film.

The present invention for solving the above technical problems is a film having a barrier layer in which an eco-friendly ceramic is deposited on a three-layer sheet used to form an eco-friendly laminate tube used for forming an eco-friendly laminate tube: and on the surface and on the back side Each adhesive layer to be formed: and a laminate film configured to press and bond each surface film and back film to each adhesive layer, the step of providing a film having a barrier layer on which an eco-friendly ceramic is deposited on a three-layer sheet:

Compressing the barrier layer film and the backing film and bonding them with an adhesive:

In a state in which the barrier layer film and the back film are compressed, the surface film is applied with an adhesive and then pressed and bonded to each other.

The three-layer sheet is composed of low-density polyethylene, high-density polyethylene, and low-density polyethylene, and a laminate film excellent in stiffness is obtained due to the unique properties of high-density polyethylene among the three-layer sheet, and is printed in the process of forming a tube It is possible to manufacture a beautiful eco-friendly laminate tube by minimizing the bending of the shoulder area or the overflow of the injection product while having no disorder of the pin, excellent roundness, and excellent restoring force, and the films constituting each layer are It is made of polyethylene material so that it can be recycled in the process of disposal, and effectively protects the contents filled inside the three-layer sheet from the external environment and prevents the side sealing joint of the tube container from being corroded by the contents. It is constituted by depositing a natural material ceramic as a barrier layer for the purpose, and by applying the barrier layer by depositing a natural material ceramic to enable recycling in the disposal process.

The present invention has an eco-friendly effect so that it can be returned to nature when it is disposed of after use by applying a natural material to a material having a barrier function and composed of the same material when manufacturing an eco-friendly laminate film.

In addition, by applying an eco-friendly laminate film on which ceramic is deposited, it has the effect of providing a beautiful tube product.

1 is a block diagram for explaining the manufacturing steps for the present invention;
2 is a flowchart for explaining the configuration of the present invention;
Figure 3 is a flow chart for explaining the film with a barrier layer according to Figure 2;
4 is a detailed view showing the configuration of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 1 is a block diagram for explaining the manufacturing steps for the present invention, Figure 2 is a flowchart for explaining the configuration of the present invention.

As shown, each adhesive layer 15 formed on the surface and back of the film 10 provided with an eco-friendly barrier layer, which is usually used for molding a laminate tube, and each surface film ( 20) and a method of manufacturing an eco-friendly laminate film 1 on which a ceramic 14 is deposited by pressing the back film 30 is disclosed. The adhesive layer 15 is preferably a copolymer resin having excellent adhesive properties.

An object of the present invention is to make it possible to easily compose a ceramic material that can be returned to nature when a laminate film is manufactured by a simple method called vapor deposition.

The eco-friendly laminate film 1 on which the ceramic is deposited according to the present invention is prepared by depositing the ceramic 14 on the film of the same material composed of the three-layer sheet 11, 12, and 13 as the barrier layer film 10 (S1) and;

Compressing and bonding the back film 30 to the back surface of the barrier layer film 10 (S2);

The step S2 includes a step (S3) of bonding the surface film 20 by pressing it to the surface of the completed state.

On the other hand, as in FIG. 3, as a flowchart for explaining the film with the barrier layer, the film 10 with the barrier layer is composed of a three-layer sheet, low density polyethylene 11 and high density polyethylene 12 and low density polyethylene ( 13), and a laminate film excellent in stiffness is obtained due to the unique properties of the high-density polyethylene 12 among the three-layer sheet. It is preferable to have a thickness of [mu]m in general so that a beautiful eco-friendly laminate tube can be manufactured by minimizing cutting or damage to the bent part while having excellent restoring force. That is, when an external force f acts on the elastic body and a displacement (deformation) x occurs, f and x are proportional. That is, it is arranged as f=S*x, and in the above formula, f is an external force, s is stiffness, and x is an amount deformed by an external force and is defined as displacement.

In the above formula, when the same external force (f) is applied to the eco-friendly laminate film 1 on which the ceramic is deposited, the variable that causes the displacement (x) to become small is when the constant stiffness (S) increases. In order to increase this stiffness (stiffness) (S), the base film constituting the barrier layer film 10 is composed of three layers of low-density polyethylene 11, high-density polyethylene 12, and low-density polyethylene 13 and bonded together. , it is possible to obtain the effect of increasing the stiffness (S) by depositing the ceramic 14 on the surface. By arranging the film 10 with the barrier layer between the surface film 20 and the back film 30 and press-bonding, it effectively protects the filled contents from the external environment and prevents the tube container from being corroded by the contents. The laminate film 1 is deposited with ceramics with preventable features.

The surface film 20 is preferably made of, for example, polyethylene terephthalate (PET) or polyethylene (PE), which has excellent restoring force.

It is preferable to selectively use the same material as the back film 30 and the film 10 or the surface film 20 having a barrier layer.

4 is a detailed view showing the configuration of the present invention.

As shown, the eco-friendly laminate film on which the ceramic 14 is deposited has a surface film 20, an adhesive layer 15, a film 10 with a barrier layer, an adhesive layer 15, and a back film 30 in the middle layer of the films. It is configured so that it can be made by pressing and bonding each adhesive layer 15 therein.

In the above, preferred embodiments of the present invention have been shown and described, but the present invention is not limited to the above-described embodiments, and in the technical field to which the present invention belongs, without departing from the gist of the present invention as claimed in the claims Various modifications may be made by any person skilled in the art, and such modifications will fall within the scope of the described claims.

1: Laminate film on which ceramic is deposited
10: barrier layer film
11, 13: low-density polyethylene 12: high-density polyethylene
15: adhesive layer
20: surface film 30: back film
S1: Ceramic Deposition Process
S2: Barrier layer film and back film compression process
S3: S2 process completed film and surface film compression process

Claims (6)

A film having a barrier layer on which an eco-friendly ceramic is deposited on a three-layer sheet used to form an eco-friendly laminate tube: and each adhesive layer formed on the surface and back side: and each surface film and a back film on each of the adhesive layers; A laminate film configured to be bonded, comprising:
A step of preparing a film having a barrier layer on which an eco-friendly ceramic is deposited on a three-layer sheet:
Compressing the barrier layer film and the backing film and bonding them with an adhesive:
The order of bonding with an adhesive by pressing the surface film in a state in which the barrier layer film and the back film are compressed. According to claim 1,
The three-layer sheet is a ceramic-deposited eco-friendly laminate film, characterized in that consisting of low-density polyethylene, high-density polyethylene, and low-density polyethylene. 3. The method of claim 2,
Among the three-layer sheets, a laminate film with excellent stiffness is obtained due to the unique properties of high-density polyethylene among the three-layer sheet, so that there is no disturbance of the printing pin in the process of forming the tube, the roundness is excellent, and the bent part is excellent in resilience Eco-friendly laminate film with ceramic deposition, characterized in that it is possible to manufacture a beautiful eco-friendly laminate tube by minimizing the cut or damage. According to claim 1,
The films constituting each of the layers are made of polyethylene (PE) material and can be recycled in a waste treatment process. According to claim 1,
Ceramic is deposited on the three-layer sheet, characterized in that it is formed by depositing a natural material ceramic as a barrier layer for effectively protecting the contents filled inside from the external environment and preventing the tube container from being corroded by the contents Eco-friendly laminated film. 6. The method of claim 5,
The ceramic-deposited eco-friendly laminate film, characterized in that the barrier layer is configured to be recyclable in the waste treatment process by depositing and applying the ceramic, which is a natural material.

Images