KR20050080180A - Pulp-mold vessel with film layer and manufacturing method of the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pulp mold container, and more particularly, to a manufacturing method for forming a film film having a printing layer on an inner surface of a pulp mold container. A first step of clamping and fixing an edge of the film, which is composed of a second layer that is relatively weaker in heat than the print layer; A second step of applying heat to the film by using a heater to melt only the second layer to a temperature at which the second layer can be bonded; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; And a fourth step of forming a vacuum in the vacuum chamber to allow the film to be adsorbed and adhered in the form of a container. The method relates to a method of manufacturing a pulp mold container having a film film having a pulp mold container having a more functional and beautiful appearance.

Description

Pulp-mold vessel with film layer and manufacturing method of the same

The present invention relates to a manufacturing method for forming a film film on the inner surface of the pulp mold container, in particular the film has a triple structure and the film is a pulp with a film film characterized in that by applying heat to melt only the lowest layer by vacuum adsorption on the pulp mold container It relates to a method for producing a mold container.

Recently, in terms of resource recycling and environmental protection, there has been an increasing tendency to produce various disposable containers using lung seed or pulp. These pulp mold containers can be collected and reproduced again, and they are also harmless to the human body.

In the production of products for use as food containers or other industrial materials using pulp, the mold is deposited in the tank where the decomposed pulp is supplied so that the pulp is placed on the upper part of the mold. The product is obtained by applying heat, drying and demolding.

However, the pulp mold container prepared as described above has a property of absorbing moisture due to the characteristics of the material, and thus, the inner surface of the container is generally coated with a water-insoluble coating solution.

In the related art, "Paper Container Coating Apparatus and Method" of Patent Application No. 10-2004-0084896 has been published, and the configuration thereof shows an apparatus and method for spraying and coating a water-insoluble coating solution on the inner surface of a paper container. The injection means 100 rotates while absorbing and transporting the inner surface of the paper container downward, the coating means 200 for ejecting the coating liquid to apply the inner surface of the paper container, and the coating liquid applied by heating the inner surface of the paper container. The heating means 300 for evaporating, the conveying means 400 for sequentially conveying the paper container, and the retrieval means for recovering the coated paper container from the conveying means and rotating and cooling during the transport, and then automatically stacking them. It is composed of 500 and relates to a paper container coating apparatus, characterized in that arranged sequentially in a straight line.

Attached Figure 1 shows a schematic side view of the prior art and in this prior art finish the internal treatment by spraying the coating liquid on the inner surface of the container, and thus can only be applied in a uniform color and various patterns or There is a problem that can not meet the customer's desire to achieve a high-quality container can not form a printed layer.

Therefore, in order to solve the above problems and to provide a more beautiful product externally, in the present invention, only a lowermost layer is melted by applying heat to a three-layer film, and vacuum adsorption is carried out in a state where it is placed on a container to smoothly have a container having complex bending. It is intended to provide a method of manufacturing a pulp mold container in which a film film is formed so that the film can be bonded.

In addition, another object of the present invention is to provide a method for producing a pulp molded container having a film formed thereon for vacuum adsorption of a transparent or colored single film formed in order to form the film film in a pulp molded container at a lower cost. .

The present invention for achieving the object as described above, the first layer that is resistant to heat from the top, the printing layer, the first layer and the first layer and the second layer relatively weak to the heat than the printing layer is made of a clamp to hold the edge of the film Step 1; A second step of applying heat to the film by using a heater to melt only the second layer to a temperature at which the second layer can be bonded; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed and adhered in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. It relates to a manufacturing method.

And the film is wound in a rolled state is supplied to a method for producing a pulp mold container with a film film, characterized in that the continuous operation is performed.

In addition, the heater is also directed to a method for producing a pulp mold container with a film film, characterized in that located on top of the film to generate heat.

The film relates to a method for producing a pulp mold container with a film film, characterized in that the first layer is a nylon layer and the second layer is a polyethylene layer.

In addition, a first step of clamping and fixing the edge of the film consisting of a first layer transparent from the top and resistant to heat, a second layer relatively weak to heat and colored than the first layer; A second step of applying heat to the film by using a heater to melt only the second layer to a temperature at which the second layer can be bonded; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed and adhered in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. It relates to a manufacturing method.

And the present invention has a thickness of 45 ~ 55 micron range and the first step of holding the edge of the single film is applied to the adhesive by a clamp to the fixed surface; A second step of dissolving the adhesive by applying uniform heat to the entire film fixed to the clamp in the heater chamber; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed and adhered in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. It relates to a manufacturing method.

In addition, the present invention includes a first step of clamping the edge of the film in the range of 10 ~ 20 microns thickness and the adhesive is applied to any one surface; A second step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with the film; Forming a vacuum in the vacuum chamber so that the film is adsorbed in the form of a container; A fourth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after the film is adhered to the container by vacuum adsorption. Manufacturing method.

And the present invention, the first step of clamping the edge of the film having a thickness in the range of 10 to 20 microns; Placing a container in the container fixing mold and spraying an adhesive liquid onto the container surface to apply the container; A third step of covering the upper surface of the container with the film; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. It relates to a manufacturing method.

Furthermore, the present invention also relates to a pulp mold container in which a film film produced by the above production method is formed.

The pulp mold container according to the present invention may be provided as a disposable container for selling food and may be provided in various shapes and sizes.

Hereinafter, the present invention will be described in more detail, and FIG. 2 corresponds to a schematic operation diagram showing a preferred embodiment of the present invention.

The method for manufacturing a pulp mold container in which a film film is formed according to the present invention is largely composed of five steps. First, the edge of the film 10 is fixed by the clamp 15 as a first step.

The film applied to this invention consists of three layers laminated | stacked, and the heat resistant 1st layer from the top, a printing layer, and the 2nd layer relatively heat weaker than the said 1st layer and a printing layer.

In this example, the film is composed of a nylon layer as the first layer from the top, a polyethylene layer as the printing layer, and a second layer.

And the film 10 is wound on the uncoiler 17 in a roll state, and as the work proceeds, the film is unwound and continuously supplied.

Subsequently, heat is applied to the film using the heater 20 as the second step. As mentioned, the film consists of a nylon layer, a printing layer and a polyethylene layer and the polyethylene layer is attached to the inner surface of the container.

When the film is heated using a heater, only the polyethylene layer having the lowest melting point is melted to a degree suitable for bonding.

On the other hand, in applying heat to the film as a heater, as shown in FIG. 2, the heater is preferably positioned at the top of the film, and heat is transferred from the top to melt only the polyethylene layer having the lowest melting point.

A third step is then performed, where the heated film is positioned to cover the top of the container.

As shown in FIG. 2, the container fixing mold 30 is installed on the upper portion of the vacuum chamber 40, and the container 5 is placed in the container fixing mold 30. The film fixed by the clamp is positioned on top of the container fixing mold, and the film is lowered or the container fixing mold is raised so that the container and the film contact each other.

After wrapping the container with a film, a vacuum is formed in the vacuum chamber as a fourth step, so that the film is vacuum-adsorbed according to the shape of the container, and the polyethylene layer is attached to the inner surface of the container.

As the film is vacuum-adsorbed and adhered to the container, even if the container has a complicated shape, the film may be adhered cleanly without being folded in the shape of the container.

Subsequently, a fifth step of separating the film adhered to the container fixing mold by spraying air through the injection hole formed in the container fixing mold after attaching the film to the container by vacuum suction. When the film is vacuum-adsorbed, the film is bonded to the mold by the heat remaining in the upper part of the container fixing mold in which the container is placed. Therefore, the film adhered to the mold is easily blown off to remove it from the mold without damage to the product. To do that.

To this end, a plurality of injection holes (not shown) should be formed in the container fixing mold and configured to supply high pressure air. The supply of air is blown through the vacuum chamber, and this mechanical configuration can be achieved by a known technique.

In the container fixing mold, several containers may be provided and the film is bonded to several containers at the same time. Thus, after the completion of the bonding, the cutting and trimming steps are performed as an additional process.

Next, the manufacturing method of the pulp mold container with a film film which concerns on 2nd Embodiment of this invention is demonstrated.

In this embodiment, a film consists of two layers and others are the same as that mentioned above. That is, as the first step of the manufacturing method, the film is clamped and fixed, and the film is made of a transparent, heat resistant first layer, and a relatively weaker heat and colored second layer than the first layer.

As a more specific structure of a preferable film, it is suitable to set it as the transparent nylon layer which is strong against a heat as a 1st layer, and to use the polyethylene layer which is colored as a 2nd layer.

On the other hand, according to the use of the product, the configuration of the film is basically the first layer is the most resistant to heat, and the second layer is relatively limited to the nylon layer or polyethylene layer as described above, so that it is only necessary to use the heat. That is, it can also use suitably combining various well-known films.

After the first step, heat is applied to the film using a heater as a second step, so that only the second layer is melted to a temperature at which it can be adhered.

In the third step, the container is placed in the container fixing mold connected to the vacuum chamber, and the upper surface of the container is wrapped with a film applied with heat.

As a fourth step, a vacuum is formed in the vacuum chamber so that the film is adsorbed and adhered in the form of a container.

Finally, the air is jetted through the injection hole formed in the container fixing mold by the fifth step so that the film can be easily separated from the mold.

Next, a third embodiment of the present invention will be described. 3, which is attached, corresponds to a schematic working configuration diagram according to the third embodiment of the present invention.

In this embodiment, a single film 10a is used, and the thickness of the film is suitably in the range of 45 to 55 microns, and an example thereof may be a polyethylene film. Such a limitation of the thickness of a single film in the range of 45 ~ 55 microns because there is a problem that the reaction rate for the heat is too slow, and less than that because it is too sensitive to heat, there is also a disadvantage of poor workability.

An adhesive is applied to one surface of the film 10a, and the edge of the film is caught and fixed using the clamp 15.

Subsequently, as a second step, uniform heat is applied to the entire film fixed to the clamp in the heater chamber 25 to melt the adhesive. Since the film applied in this example has a thickness in the range of 45 to 55 microns, the film has a weak property against heat. Therefore, the film does not directly irradiate heat to the film as a heater, but constitutes a heater chamber 25 having the heater 20 thereon. By applying uniform heat to the film in the chamber.

By applying heat to the film in this manner, the adhesive is melted adhesively and the film becomes soft to be suitable for molding.

Subsequently, as a third step, the container 5 is placed on the container fixing mold 30 connected to the vacuum chamber 40 so as to surround the upper surface of the container with the film 10a to which the heat is applied.

Next, a fourth step is performed in which a vacuum is formed in the vacuum chamber so that the film is adsorbed and adhered in the form of a container.

In the fifth step, the air is injected through the injection hole (not shown) formed in the container fixing mold 30 to separate the film adhered to the container fixing mold.

The single film used in this embodiment may be transparent or may be colored with added color.

The coating of the container surface with a single film is because it can be manufactured at a lower cost than using a multilayer film and is suitable for achieving the purpose of preventing the absorption of moisture in the container.

Next, a fourth embodiment of the present invention will be described.

The first step in this embodiment is to clamp the edge of the film with a clamp, the film having a thickness in the range of 10 to 20 microns, and on one side, an adhesive is applied.

Films ranging from 10 to 20 microns thick and available for edible food use wraps that are widely used at home. Wraps in particular are inexpensive, making them the most economical film for coating pulp mold container surfaces.

In the second step that follows, the container is placed on the container fixing mold to wrap the upper surface of the container with the film (wrap).

In the third step, a vacuum is formed in the vacuum chamber so that the film is adsorbed onto the yogi surface in the form of a container.

After attaching the film to the container by vacuum-adsorbing a thin film such as a wrap, the fourth step of separating the film adhered to the container fixing mold by blowing air through a plurality of injection holes (not shown) formed in the container fixing mold. Is performed.

Hereinafter, a fifth embodiment of the present invention will be described.

In the fifth embodiment, it is suitable to use a film having a thickness in the range of 10 to 20 microns and to apply a widely used wrap.

First, as a first step, the edge of the film (wrap) is fixed by clamping, and in the second step, the container is placed on the container fixing mold, and the adhesive liquid is sprayed onto the surface of the container to apply a thin film.

The adhesive liquid sprayed on the surface of the container should be harmless to the human body. After thinning, the adhesive liquid can be applied thinly by means of spraying.

As the preferred adhesive solution, the water-soluble coating liquid can be applied thinly at a concentration of 20%, made into grass using grains (flour or rice), diluted with a sprayable concentration, and then applied lightly.

The third step is to wrap the film on the upper surface of the container. Subsequently, a fourth step is performed in which a vacuum is formed in the vacuum chamber so that the film is adsorbed in the form of a container.

The final fifth step is to adhere the film to the container by vacuum adsorption, and then to spray the air through the injection hole formed in the container fixing mold to separate the film adhered to the container fixing mold.

On the other hand, more preferably, after the fourth step to adsorb the film to the container by vacuum adsorption, it is left for 10-15 seconds at a temperature of 45 ~ 55 degrees. This is to provide time for the film to adhere sufficiently to the container and to allow the moisture contained in the adhesive to dry.

Hereinafter, a pulp mold container having a film film produced according to the above-described manufacturing method will be described.

4 shows a schematic cross-sectional view of a pulp mold container in which a film film is formed, and the film 10 is adhered to the upper surface of the container 5 as shown. The film consists of three or two layers with the top layer being the nylon layer followed by the print layer and the bottom layer being the polyethylene layer. The film may also be a single film.

That is, the nylon layer is the first layer that is most resistant to heat, and the polyethylene layer is a second layer that is relatively weaker in heat than the nylon layer or the print layer.

The printing layer is printed with various patterns or letters according to the consumer's preferences. When the film is heated, only the polyethylene layer having the lowest melting point is melted. In this state, the film is brought into contact with the container by vacuum adsorbing. Are bonded.

When the film is composed of two layers, the first layer is made transparent and the second layer is colored.

In addition, when using a single film, a transparent thing may be used and the colored thing mixed with color can be used. As a representative single film, it is suitable to apply a polyethylene film or a wrap.

The present invention by the configuration as described above can be easily bonded to a variety of film film according to the preference to the pulp mold container product has the effect that can provide a more advanced pulp mold container.

In addition, since a solid film film is formed inside the container, it is also possible to reuse the washing and not disposable, thereby providing the effect of maximizing resource utilization.

In addition, by coating the surface of the pulp mold container using a single film such as a wrap, there is an advantage that it can be produced at a low price, thereby securing the competitiveness in the market.

1-a schematic side view of a paper container coating apparatus according to the prior art.

2-a schematic working diagram showing a preferred embodiment of the present invention.

3-schematic working configuration diagram according to a third embodiment of the present invention;

4-cross-sectional view of a pulp mold container in which a film film is formed.

<Description of Major Symbols Used in Drawings>

5: container

10 film 15 clamp

20: heater 30: container fixing mold

40: vacuum chamber

Claims (10)

A first step of clamping and fixing the edges of the film comprising a first layer, a print layer, a heat-resistant first layer, and a second layer relatively weaker in heat than the print layer from an upper portion; A second step of applying heat to the film by using a heater to melt only the second layer to a temperature at which the second layer can be bonded; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed and adhered in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. Manufacturing method. The method of claim 1, wherein the film, Method for producing a pulp mold container formed with a film film, characterized in that the continuous operation is carried out is wound and supplied in a roll state. The method of claim 1, wherein the film, The first layer is a nylon layer, the second layer is a polyethylene layer, characterized in that the pulp mold container with a film film. The heater according to any one of claims 1 to 3, wherein the heater is Method of producing a pulp mold container formed with a film film, characterized in that located on top of the film to generate heat. A first step of clamping and fixing the edges of the film, the first layer being transparent from the top and resistant to heat, the second layer being relatively weaker and colored than the first layer; A second step of applying heat to the film by using a heater to melt only the second layer to a temperature at which the second layer can be bonded; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed and adhered in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. Manufacturing method. A first step of holding a single film having a thickness in the range of 45 to 55 microns and having an adhesive applied to one surface thereof by using a clamp; A second step of dissolving the adhesive by applying uniform heat to the entire film fixed to the clamp in the heater chamber; A third step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with a film applied thereto; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed and adhered in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. Manufacturing method. A first step of clamping an edge of the film, the thickness of which is in the range of 10 to 20 microns and on which one side the adhesive is applied; A second step of placing the container in a container fixing mold connected to the vacuum chamber to surround the upper surface of the container with the film; Forming a vacuum in the vacuum chamber so that the film is adsorbed in the form of a container; A fourth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after the film is adhered to the container by vacuum adsorption. Manufacturing method. Clamping an edge of the film having a thickness in the range of 10-20 microns with a first step; Placing a container in the container fixing mold and spraying an adhesive liquid onto the container surface to apply the container; A third step of covering the upper surface of the container with the film; A fourth step of forming a vacuum in the vacuum chamber so that the film is adsorbed in the form of a container; A fifth step of separating the film adhered to the container fixing mold by injecting air through the injection hole formed in the container fixing mold after adhering the film to the container by vacuum adsorption, wherein the film film is formed with a pulp mold container. Manufacturing method. The method according to claim 8, wherein the method for producing a pulp mold container in which the film film is formed, Method for producing a pulp mold container formed with a film film, characterized in that the step to leave for 10 to 15 seconds at a temperature of 45 ~ 55 degrees after the fourth step. A pulp mold container in which a film film is produced by any one of claims 1, 5, 6, 7, and 8.