KR102292230B1 - Biopolymer mixture mixed with plant fiber and slope reinforcement method using the same - Google Patents

Abstract

According to the present invention, provided is a biopolymer mixture mixed with plant fibers, wherein the biopolymer mixture includes: a powdered biopolymer (110) containing xanthan gum and beta-glucan; water (120); soil (130); and plant fibers (200). According to the present invention, a rate of settling on a slope can be increased due to the binding force of the added plant fibers even without increasing the viscosity of a biopolymer material itself.

Description

Biopolymer mixture mixed with plant fiber and slope reinforcement method using the same

The present invention relates to the field of the built environment. More specifically, it relates to a biopolymer mixture installed on a cut surface or a filled slope to achieve structural stability of a slope or greening a slope such as an embankment. Of course, it relates to a biopolymer mixture mixed with plant fibers that increase the adhesion rate to the slope and maximize the vegetation rate, and a slope reinforcement method using the same.

The embankment, which is built to protect the river from flooding in the event of a flood, is protected by installing a revetment on the slope to prevent collapse, using revetment blocks, rocks, gabions, and vegetation mats, but it does not reinforce the slope itself. Because of this, there is always a risk of collapse.

Accordingly, a method for strengthening the body with biopolymer or bio soil (soil mixed with biopolymer) is being studied. Slope reinforcement using biopolymer or biosoil is applied by spraying.

However, due to the slope of the slope on which the biopolymer is applied, there is a problem that the applied biopolymer is not settled and flows down the slope.

In order to solve this problem, when the viscosity of the biopolymer is increased, there is a problem in that the spray nozzle is blocked or the germination rate of plant seeds included in the biopolymer mixture is lowered.

- Republic of Korea Patent 10-0878797 - Republic of Korea Patent 10-0839669 - Republic of Korea Patent 10-0593192 - Republic of Korea Patent 10-0874276

The present invention was derived to solve the problem of slope reinforcement using the conventional biopolymer described above, and an object of the present invention is to improve the seating rate on the slope due to the binding force of the added plant fiber even without increasing the viscosity of the biopolymer material itself. An object of the present invention is to provide a biopolymer mixture in which plant fibers are mixed and a slope reinforcement method using the same.

Another object of the present invention is to minimize the loss of the biopolymer material reinforcing the slope even if the river overflows during rainfall by increasing the fixability of the biopolymer mixture for reinforcing the slope according to the germination of plant seeds included in the biopolymer mixture. An object of the present invention is to provide a biopolymer mixture in which plant fibers are mixed and a slope reinforcement method using the same.

According to one aspect of the present invention, in the biopolymer mixture, the powder biopolymer 110 containing xanthan gum and beta-glucan; water 120; soil 130; And plant fibers 200; is provided a biopolymer mixture comprising a.

In this case, when the water 120 is 35% or more based on the weight of the soil 130, the plant fiber 200 may be a biopolymer mixture, characterized in that it is included.

In addition, the soil 130 may be a biopolymer mixture, characterized in that the soil 121 or the green soil 122 .

In addition, the plant fiber 200 may be a biopolymer mixture comprising any one or more of coconut fiber, jute, hemp, flax, and llama.

In addition, the plant fiber 200 may be a biopolymer mixture, characterized in that the fragment processed into a screw shape.

In addition, plant seeds 140; may be a biopolymer mixture, characterized in that it further comprises.

In addition, the plant fiber 200 may be a biopolymer mixture, characterized in that the plant seed 140 is germinated, and a coupling hole 210 through which the generated root is formed.

In addition, the plant fiber 200 may be a biopolymer mixture, characterized in that; the receiving unit 220 in which the plant seed 140 is accommodated is formed.

In addition, the plant seed 140 is a biopolymer mixture, characterized in that it is mixed with the powder biopolymer 110 , the water 120 and the soil 130 in a state accommodated in the plant fiber 200 . can

According to another embodiment of the present invention, in the slope reinforcement method using a biopolymer mixture, a first step (S100) of accommodating the plant seeds 140 in the receiving unit 220; a second step of preparing the biopolymer mixture by mixing the plant fiber 200, the powder biopolymer 110, the water 120, the plant seed 140, and the soil 130 (S200); and a third step (S300) of applying the biopolymer mixture to the slope (1).

According to another aspect of the present invention, a reinforced slope is provided by applying a biopolymer mixture.

According to the present invention, even if the viscosity of the biopolymer material itself is not increased, there is an effect of increasing the seating rate on the slope due to the binding force of the added plant fiber.

According to the present invention, the fixability of the biopolymer mixture reinforcing the slope is increased according to the germination of plant seeds included in the biopolymer mixture, so that even if the river overflows during rain, the loss of the biopolymer material reinforcing the slope can be minimized. there is

According to the present invention, there is an effect that can solve the problem that the biopolymer applied to the slope is not settled on the slope due to high fluidity.

1 is a cross-sectional view showing a state in which a biopolymer mixture according to an embodiment of the present invention is applied to a slope.
2 is a view showing a plant fiber mixed into a biopolymer mixture according to an embodiment of the present invention.
3 is a view showing a plant fiber mixed into a biopolymer mixture according to another embodiment of the present invention.
4 is a view showing a plant fiber mixed into a biopolymer mixture according to another embodiment of the present invention.
5 is a view showing the principle of improving the fixability of the biopolymer mixture by combining the root of a plant with the plant fiber according to the germination of the plant seed contained in the plant fiber according to another embodiment of the present invention.
Figure 6 is a view showing the principle of improving the fixability of the biopolymer mixture by combining a plurality of plant fibers according to the germination of plant seeds accommodated in plant fibers according to another embodiment of the present invention.

An embodiment of the biopolymer mixture in which plant fibers are mixed according to the present invention and the slope reinforcement method using the same will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are The same reference numerals are given, and overlapping descriptions thereof will be omitted.

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first, second, etc. no.

In addition, in the contact relationship between each component, the term "coupling" does not mean only when there is direct physical contact between each component, but another component is interposed between each component, so that the component is in the other component. It should be used as a concept that encompasses even the cases in which each is in contact.

The present invention relates to a biopolymer mixture used for slope reinforcement.

The biopolymer mixture according to an embodiment of the present invention includes powdered biopolymer 110 containing xanthan gum and beta-glucan, water 120, soil 130, plant fiber 200 and plant seeds 140. can do.

In this case, the soil 130 is preferably masato 121 or green soil 122 .

However, when the water 120 is 35% or more based on the weight of the soil 130 , it may be effective to include the plant fiber 200 .

When the water 120 is 35% or more based on the weight of the soil 130 , the fluidity of the biopolymer mixture increases, so that it is difficult for the biopolymer to settle on the slope 1 .

Accordingly, the plant fiber 200 may be added to increase the fixability of the biopolymer mixture.

Plant fiber 200 may include any one or more of coconut fiber, jute, hemp, flax, and ramie.

By mixing the plant fibers 200, the fixability of the biopolymer mixture to the slope 1 is increased, as well as the survival rate and germination rate of the plant seeds 140 as will be described later, and the plant seeds 140 germinate and grow Accordingly, the root of the plant is combined with the plant fiber 200 to maximize the binding force of the biopolymer mixture reinforced on the slope 1 .

To this end, the plant fiber 200 included in the biopolymer mixture according to an embodiment of the present invention may be a slice processed into a screw shape.

When the plant fibers 200 are formed in a screw shape, a plurality of plant fibers 200 may be entangled or partially bonded to each other in a state included in the biopolymer mixture, so that the fixing power to the slope 1 after the biopolymer mixture is cured can improve

According to another embodiment of the present invention, the plant fiber 200 has a coupling hole 210 through which the plant seed 140 germinates and the generated root passes and a receiving unit 220 for receiving the plant seed 140 is formed. can be (Fig. 4).

In this case, the receiving unit 220 may be formed in a shape surrounding the plant seed 120 .

Plant seeds 140 may be mixed with the powder biopolymer 110 , water 120 , and soil 130 in a state accommodated in the receiving unit 220 of the plant fiber 200 .

In this case, the following effects can be expected.

First, the plant fibers 200 can provide nutrients necessary for germination of the plant seeds 140 , thereby increasing the germination rate of the plant seeds 140 . Since the plant fiber 200 is formed of a component containing high nutrients such as coconut fiber, the biopolymer mixture according to the present invention can expect a high germination rate even if a separate nutritional component for plant germination is not added.

Second, in the provision of nutrients through the plant fibers 200 , since the plant seeds 140 are wound by the plant fibers 200 , nutrients can be directly transferred to the plant seeds 140 . Even if a separate nutrient is added to the biopolymer mixture, it is difficult to deliver the nutrient to the plant seed 140 due to the viscosity of the biopolymer mixture. However, since the plant fiber 200 according to the present invention surrounds the plant seed 140, direct delivery of nutrients is possible as described above.

In addition, the plant fiber 200 has the property of absorbing the surrounding nutrients, so it can absorb the nutrients in the biopolymer mixture and deliver it to the plant seeds 140 , thereby contributing to the effect of increasing the germination rate of the plant seeds 140 . have.

Third, when the plant seeds 140 germinate and grow roots and stems, they are combined with the coupling holes 210 formed in the plant fibers 200 to increase the bonding strength between the plant and the biopolymer mixture as well as the biopolymer. It is possible to improve the physical properties for fixing on the slope 1 of the mixture itself (FIG. 5).

In addition, the effect of improving the fixing power described above can be doubled by combining the roots of a plant and the like with a plurality of surrounding plant fibers 200 rather than being combined with only one plant fiber 200 ( FIG. 6 ).

For this purpose, it is preferable that a plurality of coupling holes 210 are atypically formed in the plant fiber 200 .

Hereinafter, a slope reinforcement method for reinforcing the slope 1 using a biopolymer mixture according to an embodiment of the present invention will be described.

The slope reinforcement method according to the present invention is a first step (S100) of accommodating plant seeds 140 in the receiving unit 220, plant fibers 200, powder biopolymer 110, water 120, plant seeds ( 140) and the soil 130 may include a second step (S200) of preparing a biopolymer mixture and a third step (S300) of applying the biopolymer mixture to the slope (1).

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as noted, should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

110: powder biopolymer
120: water
130: soil
140: plant seeds
200: plant fiber

Claims (11)

In the biopolymer mixture,
Powdered biopolymer 110 containing xanthan gum and beta-glucan;
water 120;
soil 130; and
A plurality of plant fibers 200; includes,
The water 120 contains 35% or more of the weight of the soil 130,
The soil 130 is
Masato (121) or green soil (122),
The plant fiber 200 includes any one or more of coconut fiber, jute, hemp, flax, and llama,
The plant fiber 200 is a section processed into a screw shape,
The plant fiber 200 is formed with a coupling hole 210 through which the plant seed 140 germinates and the generated root passes,
The coupling hole 210 is formed in plurality,
The plant fiber 200 is formed with a receiving part 220 in which the plant seeds 140 are accommodated,
The biopolymer mixture, characterized in that the plant seeds 140 are mixed with the powdered biopolymer 110, the water 120, and the soil 130 in a state accommodated in the receiving unit 220.
delete delete delete delete delete The method of claim 1
The accommodating part 220 is a biopolymer mixture, characterized in that formed in a shape surrounding the plant seeds (140).
delete delete In the slope reinforcement method using the biopolymer mixture of claim 7,
A first step (S100) of accommodating the plant seeds 140 in the receiving unit 220;
a second step (S200) of preparing the biopolymer mixture by mixing the plant fiber 200, the powder biopolymer 110, the water 120, the plant seed 140, and the soil 130; and
A third step (S300) of applying the biopolymer mixture to the slope (1);
Slope reinforcement method, characterized in that it includes.
The slope reinforced by applying the biopolymer mixture of claim 7.

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