KR20060130987A - Forest mat construction method - Google Patents

Abstract

A construction method of a planting mat is provided to install the biodegradable planting mat, and to prevent environmental pollution by making the planting mat of starch from corn and mounting the planting mat in a slope for growing plant. Rubble or projected stone is arranged in a slope, and a construction range of a planting mat is indicated on the slope. The planting mat is mounted in the slope, and fastened in the slope by using a degradable anchor. Forest surface soil is mixed with earth, and the mixed soil is injected in the planting mat. The planting mat is made of starch extracted from corn, and mixed soil is provided with a planting agent and a growth base material at the rate of 1 to 1. The growth base is obtained by adjusting the thickness of the planting mat on rock or soil, and corrosion is prevented by protecting the slope with the planting mat.

Description

Forest mat construction method

1 is a conceptual diagram showing the construction process of the vegetation mat according to the present invention,

2a to 2c is an exemplary view showing a construction state of the vegetation mat according to the present invention,

Figure 3 is a side view showing a state in which the vegetation mat is installed on the slope.

Explanation of symbols on the main parts of the drawing

A: Component decomposition anchor M: Vegetation mat

S: slope

The present invention relates to a vegetation mat construction method, and in particular, to produce a vegetation mat of a double-fabric structure anchor with a component decomposition anchor from the starch extracted from corn, and at the same time to create a plant growth environment after construction on the slope Therefore, the present invention relates to a biodegradable vegetation mat construction method in which the vegetation mat naturally decays and returns to nature with the soil.

In general, various slope greening methods are introduced to make the slope more stable.

These slope greening methods can be recorded on slopes that have no soil, rock or other growth conditions.

Among the slope greening methods described above, seed spraying and vegetation mat covering are typical methods.

The former seed spray method is a method of preserving the vegetation base by spraying and preserving the vegetation base by spreading the roots of the herbaceous plants.

The seed spray method requires a large amount of alien herbaceous plants to prevent the erosion of the base, as well as the natural vegetation is difficult.

In addition, large seeds are separated from the base or exposed to the outside, so the use of small seeds has a problem in the determination of seeds.

In addition, because of the large amount of herbaceous vegetation, there is a problem that the native growth of the tree is not secured because the growth of woody plants is impossible.

In addition, there is a risk of erosion because it is exposed to the surface of the growth base agent.

In the cold and high cold regions, the growth base is weak in the East Sea, and there is a risk of erosion even during the thawing season.

In addition, the construction of the seed spray when the rain is practically impossible, there is a disadvantage that you need to use a separate soil.

In addition, in order to seed spray, not only a separate large machine should be used, but also the work space should be large.

In addition, scattering dust may occur due to various gold or erosion after seed spraying.

In conclusion, the loss of vegetation-based agent occurs, the germination rate is significantly different from site to site, and over time after construction, there is an aesthetic problem due to defoliation of herbaceous plants.

The latter, the vegetation mat covering, is a light material, which is faster and simpler to install than other constructions.In addition, since the vegetation mat protects the existing vegetation, vegetation is possible even after several years. Regardless of the type, selective injection is possible.

However, the vegetation mat covering has a problem that it is difficult to grow woody plants because of the irregular decomposition of the vegetation mat.

In addition, while seed or vegetation aids are injected into the vegetation mat and produced by rainfall or heavy rain, the construction method of the vegetation mat, which is not, has a problem that the form may be separated by wind or rainfall after construction.

In the cold and high cold regions, the soil layer of the vegetation mat plays a role of a heat insulating agent, but there is a problem in that the thickness is thin and a large role cannot be expected.

In addition, the construction of the vegetation mat covering is not only impossible to install during rain, there is a problem that you need to use a dedicated soil to cover the vegetation mat.

In conclusion, there is a problem that natural vegetation is possible, woody growth is difficult, and the base agent remains semi-permanently.

In other words, the seed spray method or vegetation mat covering method remains in the construction site semi-permanently even after several years and decades after the construction is doing a lot of damage to the plant growth environment.

Therefore, the present invention has been made to solve the problems described above, to produce a vegetation mat of a double-fabric structure anchor with a component decomposition anchor from the starch extracted from corn, and to construct a plant growth environment after construction on the slope At the same time, the purpose of the present invention is to provide an environmentally friendly biodegradable vegetation mat construction method that allows the vegetation mat to naturally decay over time and return to nature with the soil.

Vegetation mat construction method according to the present invention for achieving the above object comprises the steps of (1) arranging the protrusion arm or other obstacles of the slope; Displaying the construction range of the vegetation mat (M) on the slope with a rope (II); Laying a vegetation mat on the slope (III); Fixing the vegetation mat with a component decomposition anchor (IV); And (V) mixing and injecting the mixed forest soil with the soil surface soil generated at the site in the vegetation mat.

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

1 is a conceptual diagram showing the construction process of the vegetation mat according to the present invention, Figure 2a to 2c is an exemplary view showing the construction state of the vegetation mat according to the present invention, Figure 3 is a vegetation mat is installed on the slope It is a side view showing.

As shown in these drawings, the vegetation mat construction method according to the present invention comprises the steps (I) of arranging protrusion arms or other obstacles on the slope (S); Displaying the construction range of the vegetation mat (M) on the slope (S) by a rope (II); Laying a vegetation mat (M) on the slope (S) (III); Fixing (V) the vegetation mat (M) with a component decomposition anchor (A); The vegetation mat (M) is carried out by sequentially injecting the mixed soil soil and mixed soil soil generated in the field (V) in order to construct the vegetation mat (M).

In addition, after the injection step (V), a step (VI) of measuring the injection thickness of the vegetation mat (M) is added.

Here, the vegetation mat (M) is used that the starch extracted from corn as the main material.

In addition, the mixing ratio of the site soil surface soil and mixed soil is on-site forest surface soil occurring in the field; It is composed of a mixed soil consisting of a plant generating agent and a growth base agent generated in the field, the plant generating material and the growth base agent is composed of a ratio of 1: 1.

That is, in the vegetation mat construction method according to the present invention, after preparing a vegetation mat (M) mainly made of starch extracted from corn, the vegetation mat (M) is fixed to the slope (S) by a component decomposition anchor (A) After that, the vegetation mat (M) is filled with field forest soil and mixed soil.

The vegetation mat construction method constructed through the steps as described above is eco-friendly greening of slopes of highways, forest damages due to poor forest roads, collapses due to natural disasters, artificial lands of golf courses, artificial cuts, and natural damages in national parks. There is a working effect that can be done.

Hereinafter, the present invention will be described in detail by dividing each step.

Step (I) is a step of arranging the protruding arms and other obstacles on the slope (S).

In other words, the minimal soil, which is the growth base of the plant for constructing the vegetation mat (M), is capable of sufficiently absorbing the moisture and nutrients necessary for the growth of the plant, that is, the conditions for plant roots to grow in the base material. In order to grow stably in the change of.

Here, the thin hay (straw), which is the growth base agent, cannot properly respond to abnormal temperatures during construction, and there is a problem in that it does not supply sufficient nutrients or moisture required for plants, so maintenance after construction may not be particularly concerned.

In the meantime, frequent plant tests and low germination rates have occurred frequently. To minimize such damages, the plant type, the degree of management, location conditions, weather conditions, soil material, which can be restored when determining the vegetation mat (M) thickness, which is the growth base, are used. In addition, economics should be thoroughly reviewed.

Therefore, the organic growth-based thickness of the vegetation mat (M) has a better moisturizing properties and more excellent maintenance than ordinary soil, even if a little thinner than the minimum soil soil can be obtained a better effect.

In addition, the vegetation mat (M) is an area that cannot be grown on sandy soil or grows, and it is necessary to secure a thickness suitable for the field so that plants such as neighboring plant transitions can grow continuously without special watering or fertilization. It is an important issue.

Here, since the basic thickness of the vegetation mat (M) is closely related to the supply of moisture and nutrients which are most important in the essential conditions of plant growth (sun, moisture, oxygen, temperature, carbon dioxide, nutrients, etc.) The thickness criteria of the vegetation mat (M) is set by the precipitation and the slope of the slope (S).

In addition, the inclination of the slope S has a great influence on the growth of plants.

If the growth base cannot be grown by the external environment, that is, it does not play a role as a base agent, exposure to direct sunlight inevitably leads to various detrimental effects such as deodorization, cracking of the base agent, and death of plants.

In addition, in the case of plants that grow on slopes S or slopes, the root diameter is shortened and the growth of roots is not active.

As such, the slope and plant growth are closely related to each other, the necessity of reinforcing the thickness of the current growth base material such as giant covering, seed spray, etc. is emphasized.

If we add conservatism and bobbyness on top of that, I think we can create greener green environment.

In the table below, which is an important criterion for the construction of vegetation mat (M), the thickness of the growth base agent has the greatest effect on plants in the case of artificial soil.

Table-1 Ground Conditions Vegetation Mat Thickness (Rock)

Table-2 State of Soil Vegetation Mat Thickness (Sandite)

Table 3 Precipitation and Vegetation Mat Thickness

Table 4 Ground Slope and Vegetation Mat Thickness

Step (II) is a step of marking the construction range of the vegetation mat (M) on the slope (S) with a rope.

That is, before installing the vegetation mat (M) on the slope (S) is a step of determining the section by marking the construction range of the vegetation mat (M) in advance with a rope.

Herein, in the present invention, the construction range is determined by ropes, but the construction range may be determined by other piles or trees.

In addition, step (III) is a step of laying vegetation mat (M) on the slope (S).

That is, the step of spreading the vegetation mat (M) laid on the portion defined by the rope on the slope (S) construction area.

In addition, step (IV) is a step of fixing the vegetation mat (M) to the component decomposition anchor (A).

That is, after installing the vegetation mat (M) on the slope (S), the vegetation mat (M) is fixed using a 50 cm length decomposition decomposition component (A).

At this time, the constituent decomposition anchor (A) is preferably using a constitutive decomposition constituent anchor (A), in the case of a rock where it is impossible to fix the vegetation mat (M) with such constitutive decomposition component (A). The vegetation mat (M) is fixed to the component decomposition anchor (A).

On the other hand, step (V) is a step of injecting mixed soil soil and mixed soil soil generated in the field in the vegetation mat (M).

That is, on-site forest surface soil generated at the site to install the vegetation mat (M); The mixed soil consisting of the plant generator and the growth base agent generated in the field to the surface forest soil is mixed well by using an injector and injected into the vegetation mat (M).

In this case, the seed injector may use a seed sprayer, the table below is the standard of the equipment.

Standard equipment machine (example)

Machine type standard Quantity Remarks mixer 11kw One Seed spreader 7.5kw One Rotary pump generator Less than 20kw One truck 4t One Small Crane

Finally, in the metering step (VI), after injecting the forest soil surface soil and mixed soil into the vegetation mat (M), the inspection thickness of the vegetation mat (M) is read by setting a metering place every 200 m2.

In particular, the metering is excluded from the protruding portion of the vegetation mat (M) or the pore section.

As described above, the vegetation mat construction method according to the present invention has the following effects.

First, the present invention has the advantage that can be restored to the vegetation closest to the ecological group of the affected area by recycling the site forest surface soil generated on the site, without recycling the plant generator generated on the site.

Second, the present invention has the advantage of preserving the slope by the herbaceous plants in order to protect the slope by the vegetation mat, to create an ideal growth base thereon and also to the growth environment of woody plants.

Third, the present invention has the advantage that the growth of the tree can be expected while the gap between the vegetation mat tissue is gradually increased while the vegetation mat is gradually degraded.

Fourthly, the present invention responds safely to loss of base material, deformation of form, cracks, etc. after construction due to heavy rain or abnormal temperature, and also has an effect of suppressing moisture evaporation of the dryer.

Fifth, the present invention has a unique shape of yin and yang different from the conventional vegetation mat after construction, there is an advantage that makes a distinction from the monotonous conventional vegetation mat.

Sixth, the present invention has the advantage that it is possible to secure a stable growth base by adjusting the thickness of the vegetation mat of sandy soil or rock surface, which is not possible to grow the base of growth.

Seventh, the present invention has the advantage that the slope is protected by the vegetation mat can prevent erosion due to precipitation and the East Sea, and can also be constructed in cold or highlands difficult to greening.

Eighth, the present invention has the advantage that can be prevented in advance damage that can be germinated outside plants or seeds because the slope is covered with a vegetation mat covered with vegetation mat.

Claims (4)

Arranging protruding arms or other obstacles on the slope (S) (I); Displaying the construction range of the vegetation mat (M) on the slope (S); Laying a vegetation mat (M) on the slope (S) (III); Fixing (V) the vegetation mat (M) with a component decomposition anchor (A); Vegetation mat construction method comprising the step (V) of injecting mixed soil soil and mixed soil soil soil generated in the field in the vegetation mat (M). The method of claim 1, The vegetation mat (M) is a vegetation mat construction method, characterized in that the mat was prepared from the starch extracted from the corn as a main material. The method of claim 1, The mixing ratio of the site soil surface soil and mixed soil is on-site forest surface soil occurring in the field; Vegetation mat construction method characterized in that consisting of mixed soil consisting of plant-generating agent and growth base agent generated in the field. The method of claim 3, wherein The plant generating agent and the growth base agent is a vegetation mat construction method, characterized in that the ratio is made of 1: 1.

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