KR20210106663A - A eco-paper box and the manufacturing method - Google Patents

Abstract

The present invention relates to a method for manufacturing an eco-friendly double-sided coated paper box and to an eco-friendly double-sided coated paper box using the same capable of preventing the manufactured paper box from being damaged due to condensation and facilitating the disassembly of the used paper box. The characteristic configuration is that, in a paper box made by bonding liner paper made of paper and corrugated paper, a coating agent containing a non-invasive resin is coated on both sides of the liner paper.

Description

A method for manufacturing an eco-friendly double-sided coated paper box and an eco-friendly double-sided coated paper box using the same {A eco-paper box and the manufacturing method}

The present invention relates to a method for manufacturing an eco-friendly double-sided coated paper box and an eco-friendly double-sided coated paper box using the same, and more particularly, it prevents the manufactured paper box from being damaged due to condensation, and facilitates disassembly of the used paper box. It relates to a method for manufacturing an eco-friendly double-sided coated paper box to prevent environmental pollution by making it possible to prevent environmental pollution, and to an eco-friendly double-sided coated paper box using the same.

The packaging box refers to a box capable of storing and packaging goods.

Such a packaging box is usually formed of Styrofoam or paper material so as to safely store the items stored inside and prevent damage from external shocks.

For example, conventionally, a styrofoam packaging box that can store and store goods inside and can flexibly respond to external shocks even when transporting the stored goods has been used. It is widely used not only for storage of goods, but also in the logistics industry such as parcel delivery.

However, the above Styrofoam box has a problem in that the volume of the packaging box increases due to the characteristics of the material, and it is difficult to recycle after use, which may cause environmental pollution.

Accordingly, in recent years, a paper box that is strong yet lightweight and easy to corrode after use has been used. The packaging box made of paper box is difficult to flexibly respond to external shocks than the Styrofoam material, but it has the advantage of convenient use and In recycling, etc., higher efficiency can be obtained than conventional styrofoam boxes, so it is the most used in the logistics industry such as parcel delivery.

For example, a packaging box formed of a conventional paper box is to form a packaging box by folding and attaching paper (corrugated cardboard) of a certain size and shape as in the document (1), or inserting a manufactured paper (corrugated cardboard) to form a packaging box. is composed

However, the conventional paper box as described above also has no problem in the case of transporting goods made of solid materials such as metal or wood. There is a problem that dew condensation occurs on the inside of the paper box by dry ice, which is located inside the box and acts as a refrigerant, and the outer appearance of the paper box may be damaged due to moisture.

In addition, when a coating agent is applied to the surface of the paper box in order to improve the above problems, the corrosion process of the paper box cannot be easily performed, which may cause environmental pollution.

* Accordingly, the need for a paper box that can prevent damage to the paper box due to moisture and can easily corrode after use has emerged to prevent environmental pollution.

(1) Republic of Korea Patent Registration No. 10-1546482 (2015.08.18)

The present invention has been devised to solve the above-described problems, and the objects of the present invention are as follows.

First, the surface of liner paper constituting the paper box is coated to prevent condensation from occurring inside the paper box.

Second, by coating the surface of the liner paper constituting the paper box, it is possible to prevent the paper box from being damaged by moisture.

Third, by preventing the paper box from being damaged by moisture, it is possible to minimize damage to the paper box due to the dry ice contained inside the box even when packing and transporting fresh items such as vegetables or fruits. To facilitate storage and transport of goods.

Fourth, even when applied to a packaging center or distribution center that packs and transports a large amount of goods, the damage rate of the paper box can be minimized, thereby preventing unnecessary maintenance costs, etc. from increasing, thereby reducing the company's cost loss.

Fifth, by allowing microbial capsules or biodegradable microorganisms to be positioned between the liner paper and Golgi constituting the paper box, corrosion of the used paper box is facilitated to prevent environmental pollution.

In order to achieve the above object, in the present invention, in a paper box manufactured by bonding liner paper made of box paper and corrugated paper, both sides of the liner paper may be coated with a coating agent containing a non-invasive resin.

In this case, the non-invasive resin may be made of biodegradable plastic.

In addition, the box paper may be formed of corrugated cardboard.

In addition, the corrugated paper has a semicircular shape that is in close contact with the inside of the liner paper, a plurality of elastic balls positioned to face between the liner paper, and a plate shape that is positioned between the elastic balls to support the combination of the liner paper and the elastic ball It may be configured to include an elastic material of.

In addition, a plurality of microbial capsules that promote corrosion of the Golgi are inserted into the inner side of the Golgi, and in order to prevent heat transfer to the microbial capsules due to the heat of the coating agent coated on the surface of the liner paper, it is located inside the elastic ball It can be configured to be

In addition, in order to prevent heat transfer to the biodegradable microorganisms due to the heat of the coating agent being coated on the surface of the liner paper is injected into the inner side of the Golgi, biodegradable microorganisms that promote corrosion of the Golgi, between the elastic ball and the elastic material It may be configured to be injected so as to be located in the .

In addition, the present invention provides a paper box manufacturing method, comprising: a liner paper conveying step in which liner paper formed of box paper is conveyed in a horizontal direction to form a shape facing each other through a plurality of conveying rollers in order to manufacture a paper box; A liner paper coating step of coating both sides of the liner paper by applying a coating agent to both sides of the liner paper through a coating agent and packaging device in the process of passing through the liner paper transfer step; A Golgi transfer step of transferring the liner paper that has undergone the liner paper coating step through a transfer roller, and transferring the corrugated paper formed of box paper through a transfer roller between the liner paper to be transferred; Microorganism injection step of injecting biodegradable microorganisms contained in a microbial capsule or syringe into the bonding site of the liner paper and Golgi in the process of positioning the Golgi between the liner paper and transferring the Golgi through the Golgi transfer step; an adhesion step of transferring the liner paper on which the microorganism injection step has been performed and the Golgi so that they are in close contact, and applying an adhesive through an adhesive spraying device to the area where the contact is made; A cutting step of cutting the liner paper and the corrugated paper on which the bonding step has been made with a cutting device according to the dimensions to be cut; and a post-processing step of printing on the surface of the liner paper on which the cutting has been made after the cutting step, and forming a cut line and a stray line in a shape to form a box.

The present invention as described above can obtain the following effects.

First, it is possible to prevent the occurrence of dew condensation inside the paper box by coating the surface of the liner paper constituting the paper box.

Second, by coating the surface of liner paper constituting the paper box, it is possible to prevent the paper box from being damaged by moisture.

Third, by preventing the paper box from being damaged by moisture, it is possible to minimize damage to the paper box due to the dry ice contained inside the box even when packing and transporting fresh items such as vegetables or fruits. Storage and transportation of goods can be achieved easily.

Fourth, even when applied to a packaging center or distribution center that packs and transports a large amount of goods, the damage rate of the paper box can be minimized and unnecessary maintenance costs, etc., can be prevented from increasing, thereby reducing the company's cost loss.

Fifth, by allowing microbial capsules or biodegradable microorganisms to be positioned between the liner paper and Golgi constituting the paper box, corrosion of the used paper box is facilitated, thereby preventing environmental pollution.

1 is a cross-sectional view showing an eco-friendly double-sided coated paper box according to the present invention.
Figure 2 is a cross-sectional view showing a state in which the microbial capsule is inserted into the eco-friendly double-sided coated paper box according to the present invention.
3 is a cross-sectional view showing a state in which the eco-friendly double-sided coated paper biodegradable microorganisms according to the present invention are injected.
Figure 4 is a perspective view of a paper box made in accordance with the present invention.
Figure 5 is a schematic view showing the manufacturing process of the present invention eco-friendly double-sided coated paper box.
Figure 6 is a process flow chart of the present invention eco-friendly double-sided coated paper box manufacturing method.

The terms or words used in the present specification and claims are not to be construed as being limited in their ordinary or dictionary meanings, but 'the inventor may properly define the concept of the term in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle of 'can be'.

In addition, the embodiments described in this specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so they can be substituted at the time of the present application It should be understood that there may be various equivalents and variations.

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

The present invention, in the paper box produced by bonding the liner paper 10 and the corrugated paper 20 made of box paper, as shown in FIGS. 1 to 3, a non-invasive resin on both sides of the liner paper 10 The coating agent 30 is configured to be coated.

When describing this configuration in detail, as shown in FIGS. 1 and 5, when the bonding process of the liner paper 10 formed of box paper and the corrugated paper 20 is made in order to manufacture a paper box, the liner paper 10 It is configured to achieve a coated state on both sides of the liner paper 10 by applying a coating agent 30 containing a non-invasive resin to both sides of the liner paper 10 .

In this case, the box paper is preferably formed of corrugated cardboard.

In addition, the non-invasive resin is biodegradable and made of plastic, and it is configured to prevent moisture from penetrating into the surface of the manufactured paper box through this, thereby preventing the paper box from being damaged by moisture.

For example, as shown in FIGS. 1 and 5, by coating a non-invasive resin made of biodegradable plastic on both sides of the liner paper 10 by coating the resin, a plurality of liner paper 10 When manufacturing a paper box Even the paper box is constructed to prevent damage due to moisture.

In particular, even when packaging a product such as dry ice for the freshness of the article inside the paper box in which the production is made, it is easy to penetrate the moisture generated due to the condensation phenomenon occurring inside the paper box into the liner paper 10 . It is configured to prevent damage to the paper box by preventing it from being damaged.

In addition, the use of the non-invasive resin constituting the coating agent 30 as a biodegradable plastic is to prevent environmental pollution caused by the paper box by making it easy to decompose the used paper box while responding to external moisture. .

And as shown in FIGS. 1 to 3 , the Golgi 20 has a semicircular shape that is in close contact with the inside of the liner paper 10 , and a plurality of elastic balls 21 positioned to face each other between the liner paper 10 . and a plate-shaped elastic material 22 positioned between the elastic balls 21 to support the coupling between the liner paper 10 and the elastic balls 21 .

In this configuration, as shown in FIGS. 1 to 5, the Golgi 20 is positioned between a pair of liner paper 10, but as shown in FIG. 1, a plurality of elastic bulls formed in a semicircular shape ( 21) are arranged to form a shape in close contact with the inside of one liner paper 10, and a plurality of elastic bulls 21 formed in a semi-circular shape form a shape in close contact with the inside of the other liner paper 10. It is arranged in an arrangement, and the elastic balls 21 disposed on the inside of the liner paper 10 are configured to be connected through the plate-shaped elastic material 22 so that the Golgi 20 between the liner paper 10 is solid. It is configured to achieve a tightly coupled state.

At this time, the size and shape of the elastic ball 21 can be variously changed according to the user's selection, and the flow of air between the Golgi 20 can be made easily, and the microbial capsule 41 to be described in detail below. ) and the biodegradable microorganism 42 can be easily injected, the combined form of the elastic ball 21 and the elastic material 22 can be variously changed and applied.

In addition, the microbial capsule 41 is inserted into the inner side of the Golgi 20 to promote corrosion of the Golgi 20, as shown in FIG. 2, the liner paper 10 and the elastic ball By configuring to be located on the inside of (21), it is configured to prevent easy damage even when the heat of the coating agent (30) is transferred to the surface of the liner paper (10).

This configuration prevents the microbial capsule 41 from being damaged due to the temperature of the coating agent when the coating agent 30 is coated onto the surface of the liner paper 10, and the microbial capsule positioned between the Golgi 20 ( This is to facilitate the corrosion process of the used paper box through the configuration of 41).

Accordingly, the liner paper 10 to which the coating agent 30 made of biodegradable plastic is applied and the corrugated paper 10 provided with the microbial capsule 41 are adhered, thereby facilitating the corrosion process of the paper box, This is to prevent environmental pollution problems by allowing the discarded paper box to decay naturally and rot.

In addition, although not shown in detail in the present invention, the microbial capsule located between the Golgi 20 due to the temperature of the coating agent 30 during the coating process by applying the coating agent 30 to the surface of the liner paper 10 . In order to more easily prevent the damage 41, a cooling means (not shown) capable of rapidly cooling the temperature of the coating agent 30 coated on the surface of the liner paper 10 is further provided, and the cooling means ( After lowering the temperature of the liner paper 10 through (not shown), the microbial capsule 41 is positioned between the Golgi 20, and then the liner paper 10 and the Golgi 20 may be adhered.

In addition, as shown in FIG. 3 to facilitate corrosion of the Golgi 20, the biodegradable microorganism 41 is injected into the inside of the Golgi 20, but the elastic ball 21 and the elastic It is configured to be positioned between the ash 22 .

This configuration can be made without going through the injection process of the microbial capsule 41, or at the same time during the injection process of the microbial capsule 41, between the elastic ball 21 and the elastic material 22 constituting the Golgi 20. By injecting biodegradable microorganisms using the syringe (4), the corrosion process of the Golgi (20) is configured to be easily made.

As described above, the eco-friendly double-sided coated paper box according to the present invention easily prevents external moisture from entering the inside of the liner paper 10 to prevent the paper box from being damaged by moisture, while the discarded paper box The coating agent 30 made of biodegradable plastic, the microbial capsule 41, and the biodegradable microorganism 42 can be easily corroded to prevent environmental pollution.

In addition, a description of the method for manufacturing an eco-friendly double-sided coated paper box for manufacturing an eco-friendly double-sided coated paper box according to the present invention is as follows.

6 is a view showing the overall flow of the method for manufacturing an eco-friendly double-sided coated paper box according to the present invention. First, liner paper 10 formed of box paper in order to manufacture a paper box faces each other through a plurality of conveying rollers 2 A liner paper transfer step (10S) to be transferred in the horizontal direction to form a shape is performed.

The step is to allow a pair of liner paper 2 to be conveyed in a form facing each other through a plurality of conveying rollers 2 in order to manufacture a paper box.

Next, in the process of passing the liner paper transfer step (10S), the coating agent 30 is applied to both sides of the liner paper 10 through the coating application device 3 to coat both sides of the liner paper 10. Liner paper A coating step (20S); is performed.

The above step is such that the coating agent 30 accommodated in the coating application device 3 is sprayed onto both sides of the liner paper 10 that is transferred through the transfer roller 2, so that both sides of the liner paper 10 are coated with the coating agent 30 ) to be coated with

In addition, after the liner paper coating step (20S), the liner paper 10 that has undergone the liner paper coating step (20S) is transferred through the transfer roller 2, and a transfer roller between the liner paper 10 on which the transfer is made. Golgi transfer step (30S) of transferring the Golgi 20 formed of box paper through (2) to be positioned; performs.

The step is to transfer the coating agent 30 so that the Golgi 20 can be positioned between the coated pair of liner paper 10 .

And after the Golgi transfer step (30S), the Golgi 20 is positioned between the liner paper 10 through the Golgi transfer step 30S and in the process of making the transfer, the liner paper 10 and the Golgi 20 A microorganism injection step (40S) of injecting the biodegradable microorganism 42 contained in the microbial capsule 41 or the syringe 4 to the binding site (40S); will be performed.

The above step is a process of injecting the microbial capsule 41 or the biodegradable microorganism 42 into the bonding site of the liner paper 10 and the Golgi 20. As shown in FIG. 5, the above process includes a plurality of transfer rollers (2) and is configured to be made through the syringe (4).

In addition, after the microorganism injection step (40S), the liner paper 10 and the Golgi 20 in which the microorganism injection step 40S is made are transported so that they are in close contact, and the adhesive spraying device 5 is used in the contact area through the adhesive ( 5a) is applied and adhered to the bonding step (50S); is performed.

This is a state in which the corrugated paper 20 is positioned between the pair of liner paper 10 coated with the coating agent 30, and the liner paper 10 through the adhesive 5a sprayed from the adhesive spraying device 5. And Golgi 20 is to be adhered.

Through this, the liner paper 10 and the Golgi 20 are firmly adhered, and at the same time, the microbial capsule 41 or the biodegradable microorganism 42 located between the liner paper 10 and the Golgi 20 is By preventing exposure to the outside, the position of the microbial capsule 41 or the biodegradable microorganism 42 can be firmly maintained.

In addition, after the bonding step (50S), the cutting step (60S) of cutting the liner paper 10 and the corrugated paper 20 on which the bonding step 50S is made with a cutting device 6 according to the size to be cut; will perform

This is to cut the liner paper 10 and the corrugated paper 20 according to the size already set in order to produce a paper box.

In addition, after the cutting step (60S), printing is performed on the surface of the liner paper 10 on which the cut is made, and a post-processing step of forming the cut line 10a and the star line 10b in a shape to form a paper box. (70S) is performed.

In the above step, in a state in which the liner paper 10 coated with the coating agent 30 and the corrugated paper 20 are adhered and cut, the liner paper 10 is placed on the liner paper 10 to form a paper box shape as in FIG. ) and the line of sight (10b), it is possible to easily manufacture a paper box through this process.

Although the present invention has been shown and described with reference to specific embodiments, it is recognized in the art that various improvements and modifications can be made without departing from the spirit or scope of the present invention as provided by the following claims. It will be apparent to those of ordinary skill in the art.

1: Paper box 2: Feed roller
3: Coating application device 4: Syringe
5: Adhesive spraying device 6: Cutting device
10: liner paper 20: ribbed paper
21: elastic ball 22: elastic material
30: coating agent 41: microorganism capsule
42: biodegradable microorganisms
10S: liner paper transfer step 20S: liner paper coating step
30S: Golgi transfer step 40S: Microorganism injection step
50S: Adhesive step 60S: Cutting step
70S: post-processing step

Claims (7)

In a paper box produced by bonding liner paper 10 and corrugated paper 20 made of box paper,
Eco-friendly double-sided coated paper box, characterized in that both sides of the liner paper (10) are coated with a coating agent (30) containing a non-invasive resin. The method of claim 1,
The non-invasive resin is an eco-friendly double-sided coated paper box, characterized in that made of biodegradable plastic. The method of claim 1,
The box paper is an eco-friendly double-sided coated paper box, characterized in that it is formed of corrugated cardboard. The method of claim 1,
The Golgi 20 is
A plurality of elastic balls 21 in a semi-circular shape that is in close contact with the inside of the liner paper 10 and positioned to face between the liner paper 10,
Eco-friendly double-sided coated paper box, characterized in that it is positioned between the elastic balls (21) and includes a plate-shaped elastic material (22) supporting the coupling of the library (10) and the elastic balls (21). 5. The method of claim 4,
A plurality of microbial capsules 41 that promote corrosion of the Golgi 20 are inserted into the inner side of the Golgi 20, but due to the heat of the coating agent 30 coated on the surface of the liner paper 10, the microbial capsules 41 Eco-friendly double-sided coated paper box, characterized in that it is configured to be located inside the elastic ball (21) in order to prevent heat transfer to the furnace. 5. The method of claim 4,
Biodegradable microorganisms 42 that promote corrosion of the Golgi 20 are injected into the inner side of the Golgi 20, but due to the heat of the coating agent 30 coated on the surface of the liner paper 10, the biodegradable microorganisms 42 Eco-friendly double-sided coated paper box, characterized in that it is injected so as to be positioned between the elastic ball (21) and the elastic material (22) in order to prevent heat transfer to the furnace. A method for manufacturing a paper box, comprising:
A liner paper transfer step (10S) in which the liner paper 10 formed of box paper is transferred in a horizontal direction to form a shape facing each other through a plurality of transfer rollers 2 in order to manufacture a paper box;
A liner paper coating step ( 20S);
The liner paper 10 that has undergone the liner paper coating step 20S is transferred through the transfer roller 2, and the corrugated paper 20 formed of box paper through the transfer roller 2 between the liner paper 10 on which the transfer is made. Golgi transfer step (30S) for transferring so that the position;
In the process of positioning the Golgi 20 between the liner paper 10 through the Golgi transfer step 30S and making the transfer, the microbial capsule 41 or a syringe at the bonding site of the liner paper 10 and the Golgi 20 (4) a microorganism injection step (40S) of injecting the contained biodegradable microorganisms (42);
An adhesive step of transferring the liner paper 10 and the Golgi 20 in which the microorganism injection step 40S is made so that they are in close contact, and applying the adhesive 5a through the adhesive spraying device 5 to the area where the contact is made ( 50S);
A cutting step (60S) of cutting the liner paper (10) and the corrugated paper (20) on which the bonding step (50S) is made with a cutting device (6) according to the size to be cut; and
After the cutting step (60S), printing is performed on the surface of the liner paper 10 on which the cut is made, and a post-processing step (70S) of forming a cut line (10a) and a star line (10b) in a shape to form a box ; Eco-friendly double-sided coated paper box manufacturing method, characterized in that it comprises.

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