KR101323366B1 - A product fixing and impact cushioning material using wasted paper and hanji and a manufacturing method thereof - Google Patents

Abstract

It is an object of the present invention to solve the aesthetic problem of a packaging agent consisting only of waste paper fibers, and to provide a product capable of improving the strength, preferably the rupture strength, of the packaging agent of waste paper fibers consisting of short fibers.
In order to achieve the above object, the present invention provides a step of providing a molding die; Forming a release agent layer on the first side of the mold; Attaching the wet paper; It provides a method of producing a shock-absorbing material comprising the step of applying the waste paper in the form of a pay sheet made by pulverizing the waste paper together with the grass.

Description

Product fixing and impact buffer using waste paper and Hanji paper and manufacturing method thereof {A PRODUCT FIXING AND IMPACT CUSHIONING MATERIAL USING WASTED PAPER AND HANJI AND A MANUFACTURING METHOD THEREOF}

The present invention relates to a method of manufacturing an impact buffer material using waste paper. More specifically, the present invention achieves a combination of high tensile strength and burst strength advantages of long fibers, high compressive strength mechanical properties of waste paper pulp mold, and achieves a combination of beauty of Hanji and eco-friendliness of waste paper. And it relates to a method of manufacturing a product fixing and shock buffer material using waste paper.

Types of packaging product fixing and cushioning materials conventionally used in the market include styrofoam, pulp mold, polypropylene, polyethylene, and the like. Here, except for pulp mold, hardly decomposable packaging materials are difficult to decompose in a natural state.

However, the above-mentioned hardly decomposable packaging materials are made from fossil raw materials, and due to the disadvantage of being difficult to decompose in a natural state, there is a strong movement to prohibit the use of styrofoam in developed countries. The awareness of environmental pollution caused by packaging materials has a direct impact not only on domestic environmental regulations but also on trade among countries.

Recently, a buffer material produced using waste paper fibers is produced under the name of a pulp mold, and is used as a substitute for styrofoam or plastic for packaging. The first use of pulp molds was in egg trays and has since been widely used in the packaging of industrial and consumer products. Such a pulp mold is manufactured by using a pulp mold manufacturing apparatus, and manufactured a mold according to a packaged product or a purpose, and then, after a certain amount of dissociated waste paper suspension is poured into a forming box, excess pulp contained in the pulp suspension is removed. Refers to a molded product made by dehydration and drying in one direction together with pressurization.

Such a buffer of pulp mold is not suitable for use in modern products that require a good quality of packaging due to its uneven surface.

In addition, in the case of pulp mold using waste paper fibers, the compressive strength can be achieved to a certain level, but waste paper fibers are composed of short fibers, which have a weak burst strength, and are fragile even in a light impact, which is weak and fragile to protect various products. However, there is a great demand for improvement of a buffer composed only of waste paper fibers. In addition, due to the nature of the waste paper is fast to absorb moisture when the product is in contact with the water during distribution or when the fixing or buffering of the packaging material containing the water was difficult to use despite the environmental friendliness of the product.

The present invention solves the aesthetic problem of a packaging agent consisting of only waste paper fibers, and to improve the strength of the packaging material of the waste paper fibers consisting of short fibers, preferably a product that can achieve a burst strength and water resistance and a method for producing the same. I came to think about it.

The present invention provides a molding mold; Forming a release agent layer on the first side of the mold; Attaching the wet paper; It provides a method of producing a shock-absorbing material comprising the step of applying the waste paper in the form of a pay sheet made by pulverizing the waste paper together with the grass.

In another aspect of the present invention, the present invention provides a method of forming a mold; Forming a release agent layer on the first side of the mold; Attaching the wet paper to form a paper layer; A method of manufacturing an impact buffer comprising a stack of waste paper and a waste paper layer formed by pulverizing waste paper together with a paste to form a waste paper layer. To provide.

As another aspect of the present invention, the present invention comprises a Hanji layer; And a waste paper layer formed by applying a waste paper of a pay sheet state made by pulverizing waste paper together with a paste on the one surface, wherein the waste paper layer and the waste paper layer are alternately stacked and arranged.

Preferably, the present invention may further include a drying step for each step.

 In the present invention, the release agent may be silicone, but is not limited thereto. Any material may be used to facilitate the detachment of the mold and the paper. The release agent layer may be sprayed onto the surface of the molding die to form a film.

The pool pulverized with the waste paper is not limited to the kind thereof, but may be any grass that can achieve solidification of the pulverized waste paper and adhesion with the hanji layer with the solidified waste paper paste. Preferably, for the ease of recycling the impact buffer of the present invention and its properties as an environmentally friendly product, it may be a natural starch paste. Alternatively, instead of starch powder, chemical adhesives may be used to increase interlayer adhesion and the solidification.

The alternating stacking arrangement of the hanji layer and the waste paper layer of the present invention means a form formed of the waste paper layer followed by the waste paper layer and again the hanji layer and then the waste paper layer. It will be apparent that the number of laminated arrangements and the thickness of each layer can be arbitrarily selected depending on the conditions such as the strength required for the final impact buffer.

According to convention, various features of the drawings may not be shown by actual measurement. Thus, the dimensions of the various features may optionally be enlarged or reduced for simplicity. Also, some of the figures may be simplified for simplicity. Accordingly, the drawings may not show all components of the presented device (e.g., device) or method. Finally, like reference numerals may be used to indicate similar features throughout the description and drawings.
1 is a flow chart illustrating a method of manufacturing the shock absorber of the present invention.
2 is a schematic diagram briefly illustrating a method of manufacturing the shock absorber of the present invention.
3 is an example of the shock absorber of the present invention, and illustrates the shock absorber formed by alternately stacking the Hanji layer and the waste paper layer.

Various embodiments are now described with reference to the drawings, wherein like reference numerals are used throughout the drawings to refer to like elements. For purposes of explanation, various descriptions are set forth herein to provide an understanding of the present invention. It is evident, however, that such embodiments may be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing the embodiments.

1 is a flow chart illustrating a method of manufacturing the shock absorber of the present invention. 2 is a schematic diagram briefly illustrating a method of manufacturing the shock absorber of the present invention.

As illustrated in FIG. 1, the present invention prepared an intaglio or embossed frame 210 in which the appearance of the final shock absorber may be modeled (110). The size of the intaglio or emboss is prepared in consideration of the final thickness of the impact buffer to be formed.

The silicon release agent layer 230 was formed on the molding surface 220 of the molding die (120). A method was used in which a silicone release agent was sprayed onto the molding surface to form a silicone release film layer.

A Korean paper 240 soaked in water was prepared, and the Korean paper 240 was attached onto the release agent layer 230 (130).

Waste paper was pulverized, and the mixture was mixed well by mixing grass with the pulverized waste paper. Preferably, in one embodiment of the present invention, the natural starch paste may be mixed and mixed with the pulverized waste paper. The mixed waste paper paste 250 was applied onto the hanji layer (140). It was dried.

After complete drying, the mold was removed (150). If necessary, the hanji layer forming operation and the waste paper paste layer forming operation may be repeated to make an impact buffer material in which the hanji layer and the waste paper layer are alternately stacked and arranged.

3 is an example of the shock absorber of the present invention, and illustrates the shock absorber formed by alternately stacking the Hanji layer and the waste paper layer. According to the present invention, the hanji layer may be present only on the exposed surface of the impact buffer, or the hanji layer may be located on the outer surface in such a manner as to surround the paste layer, or further, as illustrated in FIG. It can be intervened in between. The number of intervening layers can be increased to increase the required strength, ie the bursting strength.

The description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features presented herein.

Claims (3)

delete Providing a forming mold;
Forming a release agent layer on the first side of the mold;
Attaching the paper made of wet long fibers to form a paper layer;
A method of forming a waste paper layer comprising applying waste paper of a waste paper paysheet state made of short fibers made by pulverizing waste paper together with a paste to one surface of the Hanji layer.
Wherein the Hanji layer and the waste paper layer are alternately stacked and arranged,
Method of manufacturing shock absorbers.
Hanji layer consisting of long fibers; And
Waste paper layer formed by applying a waste paper sheet made of short fibers in the form of a pay sheet made by pulverizing the waste paper together with the grass to one surface of the paper
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The hanji layer and the waste paper layer is made of alternately stacked arrangement,
Shock absorbers.

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