KR20200129762A - Manufacturing method of paper mulberry fiber - Google Patents

Abstract

The present invention relates to a method for manufacturing paper mulberry fiber, and an objective of the present invention is to efficiently and environmentally-friendly manufacture paper mulberry fiber. According to the present invention, the method comprises: a peeling process of peeling paper mulberry to extract a raw material for fiber; a boiling process of boiling paper mulberry bark to soften fibrous tissue; a smoothing process of beating the boiled paper mulberry bark to separate fiber; a dispersing process of dissolving a binder disposed between the fibers to disperse the fibers; a high-temperature low-pressure fiber water evaporation process of scattering bast fiber water, in which bast is dispersed and mixed, into high-temperature low-pressure air; a low-temperature dehumidification process of blowing low-temperature dehumidified air to uniformly dry the scattered fiber; and a plating process of stacking the low-temperature dehumidified bast fiber in a planar shape. Accordingly, the method provides effects of efficiently manufacturing paper mulberry fiber which has antibacterial and sterilization effects and provides an excellent far-infrared ray radiation effect in an environmentally-friendly manner.

Description

Doc fiber manufacturing method{MANUFACTURING METHOD OF PAPER MULBERRY FIBER}

The present invention relates to a method for manufacturing a buckwheat fiber, and more particularly, in a fiber manufacturing method, in order to manufacture a buckwheat fiber through a peeling process, a boiling process, an immersion process, a dispersing process, and a plate making process, the buckwheat fiber can be efficiently and eco-friendly. It is for the purpose of doing.

In general, fibers are mainly used as natural fibers extracted from natural cotton and artificial fibers extracted from petroleum compounds.

Among the above fibers, natural fibers have a problem in that their production cost is high and the scope of use is limited.

In addition, artificial fibers are not friendly and cause allergies and static electricity to users, and so on.

Korean Patent Publication No. 10-2014-0023916

Accordingly, the present invention is to solve the problems in which the production cost of natural fibers is high among conventional fibers and the scope of use is limited, and the artificial fibers are not friendly and cause allergies and static electricity of the user, etc. I did it.

That is, in the fiber manufacturing method, the present invention relates to a peeling process of extracting fiber raw materials through peeling of oak tree, a boiling process of softening the fibrous tissue by boiling the oak bark, and a tapping process of separating fibers by tapping the boiled oak bark, Dispersion process in which the binder between fibers is dissolved and dispersed in water, high-temperature and low-pressure fiber water scattering process in which bast fibers are dispersed and mixed into the air at high temperature and low pressure, and low-temperature dehumidified air is blown so that the scattered fibers are evenly dried. It is characterized by consisting of a plate-forming process of laminating the low-temperature dehumidifying drying and low-temperature dehumidifying dried bast fibers in a flat plate shape.

The present invention is characterized in that a bast fiber sorting process is additionally made in the plate making process by blowing in the horizontal direction and selecting the mulberry by using the difference in the scattering distance according to the size of the bast fiber.

The present invention is characterized in that it is made by administering strong alkaline water so that the bast fibers, which are acidic tissues, are released during the boiling process.

Therefore, the present invention is effective in producing a mulberry fiber through a boiling process, a dosing process, a dispersion process, a high-temperature and low-pressure fiber water dispersion, a low-temperature dehumidification drying, and a plate, thereby having antibacterial and sterilizing effects and excellent far-infrared radiation effect. It has an effect that can be manufactured environmentally.

1 is an exemplary view showing an embodiment of the present invention.
Figure 2 is an exemplary view showing another embodiment of the present invention.

Hereinafter, it will be described in detail with reference to the accompanying drawings.

The present invention has an antibacterial and sterilizing effect and is to provide an excellent far-infrared ray emission effect, and the description of the present invention is only an example for structural or functional explanation, so the scope of the present invention is described in the text. It should not be construed as limited by the examples.

That is, since the embodiments can be modified in various ways and have various forms, the scope of the present invention should be understood as including equivalents capable of realizing the technical idea.

In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all or only such effects, the scope of the present invention should not be understood as being limited thereby.

That is, in the present invention, in the fiber manufacturing method, the peeling process 110 and the boiling process 120, the immersion process 130, the dispersion process 140, the high-temperature low-pressure fiber to be able to manufacture the mulberry fiber using the mulberry bark It consists of a water scattering process 150, a low-temperature dehumidification drying 160 and a plate forming process 170.

Here, the peeling process 110 is to extract the fiber raw material through the peeling to peel off the blood of the oak tree.

In addition, the boiling process 120 is to soften the fibrous tissue by boiling the oak bark obtained from the oak tree.

The boiling process 120 can be carried out by administering strong alkaline water so that the bast fibers, which are acidic tissues, are well released.

The strong alkaline water is composed of lye.

In addition, the doping process 130 is to separate the fibers from the oak bark by tapping the boiled and softened oak bark.

In addition, the dispersion process 140 is to disperse the bast fibers in water by dissolving the binder between the fibers.

The dispersion process 140 can be carried out by administering Hwang Chok-gyu so that the bast fibers are well dispersed.

In addition, the high-temperature and low-pressure fiber water dispersing process 150 is performed by dispersing the bast fiber water in which the bast fiber is dispersed and mixed into the air at high temperature and low pressure.

In the high-temperature and low-pressure fiber water dispersing process 150, a cycle for smooth drying of the bast fiber contained in the bast fiber water may be performed by centrifugal separation by flow.

In addition, the low-temperature dehumidification drying 160 is performed by blowing low-temperature dehumidified air to dry the scattered fibers evenly.

In addition, the plate forming process 170 is to flatten the bast fibers that have been subjected to low temperature dehumidification 160 in a flat plate shape.

On the other hand, in the implementation of the present invention, the bast fiber selection process in which the bast fiber is selected by using the difference in the scattering distance according to the size of the bast fiber by blowing in the horizontal direction to the bast fiber falling before the plate making process 170 (180) can be implemented to be made additionally.

It is preferable that the oak wood is excellent in antibacterial and sterilizing power and excellent in far-infrared radiation effect.

Hereinafter, a description will be given of the effects of the application of the present invention.

As described above, in the fiber manufacturing method, the peeling process 110 of extracting the fiber raw material through the peeling of the oak tree, the boiling process 120 of boiling the oak bark to soften the fibrous tissue, and the fiber by tapping the boiled oak bark. Separating dosing process 130, dispersion process 140 of dissolving the binder between fibers and dispersing in water, high temperature and low pressure fiber water scattering process 150 of dispersing the bast fiber water in which the bast fiber is dispersed and mixed into the air at high temperature and low pressure The present invention consisting of a low-temperature dehumidification drying 160 for drying by blowing low-temperature dehumidified air so that the scattered fibers are evenly dried, and a plate forming process 170 for laminating the bast fiber in a flat plate shape. If the fiber is manufactured by applying it, it is possible to efficiently and eco-friendlyly manufacture the fiber, which has antibacterial and sterilizing effects and has excellent far-infrared radiation effect.

In addition, in the implementation of the present invention, in the plate-forming process 170, a bast fiber selection process 180 is additionally performed by blowing in the horizontal direction and selecting the mulberry by using the difference in the scattering distance according to the size of the bast fiber. If this is done, it can be easily separated according to the size of the bast fiber, and then selected and applied cotton and fabric raw materials.

In addition, in the practice of the present invention, when the bast fiber, which is an acidic tissue, is administered to the bast fiber, which is an acidic tissue, in the practice of the present invention, when the bast fiber contained in the bast is well released during the boiling process 120, the bast fiber contained in the bast is well released.

In addition, in the practice of the present invention, if the dispersion process 140 is carried out by administering Hwangchok-gyu so that the bast fibers are well dispersed, the dispersion of the bast fibers in the dispersion process 140 is made smoothly and clearly.

110: peeling process
120: life process
130: doping process
140: dispersion process
150: high temperature low pressure fiber water dispersing process
160: low temperature dehumidification drying
170: plate making process
180: Bast fiber selection process

Claims (1)

In the fiber manufacturing method;
Peeling process (110) for extracting fiber raw materials through the peeling of the oak tree, boiling process (120) in which the fiber tissue is softened by boiling the oak bark (120), the dosing process (130) of separating fibers by tapping the boiled oak bark, between fibers Dispersion process (140) of dissolving the binder in water and dispersing it in water, high-temperature and low-pressure fiber water dispersing process (150) in which the bast fiber water in which the bast fiber is dispersed and mixed is dispersed into the air at high temperature and low pressure, and low temperature dehumidification so that the scattered fibers are evenly dried. Dak fiber manufacturing method, characterized in that consisting of a low-temperature dehumidification drying 160 for drying by blowing the air and a plate-forming process 170 for laminating the bast fiber in a flat plate shape.

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