KR101294244B1 - Greenification composition containing plant fiber, preparation thereof and mehthod for greenifying using the same - Google Patents

Abstract

According to the present invention, wood waste waste fibers 35 to 45% by weight of crushed and crushed wood waste 0.05 ~ 0.1 cm; 25 to 35% by weight of herbal fibers crushed one or two or more hay selected from the group consisting of water plants, corn stalks, corn leaves, rice straw, barley straw and straw; And 20 to 40% by weight of compost containing pig meal; greening composition, a manufacturing method and a greening construction method using the same are provided.

Description

Greening composition containing plant fiber, preparations and greening using the same}

The present invention relates to a greening material composition for recycling environmentally friendly waste resources such as slope cut, fill soil, ripping rock, soft rock, blasting rock, etc. In particular, the greening material composition using wood waste and herbaceous plant fiber, its manufacturing method and using the same It relates to the greening construction method.

According to the expansion of social indirect facilities and economic development plans nationwide, the slopes of natural damage caused by artificial slopes, landslides, and floods caused by large-scale development projects such as road expansion, pavement construction, new town construction, and entertainment complex development have increased. There is a situation. If the slope is left as it is, erosion and collapse may occur, causing a large amount of soil to be lost and damaging rivers, roads, fields, and land, causing damage to real life. Therefore, road slope damage should be restored and recorded as it was before being damaged in order to prevent erosion, to recover landscape beauty, and to restore and promote species diversity.

In Korea, the dependence on exotic species was too high for slope greening. In other words, by over-planting the cold grassland of the early stage of the fast-growing grassland, they are also invasive species in the region, threatening the native species, such as disturbing the ecosystem was accompanied.

As such, the success of the sloped greening method lies in the selection of the proper method according to the type of slope, the ground and the slope of the slope. However, in Korea, the slope-surface collapse and erosion occur because the construction method considering the slope condition is not applied.

At present, the seed spraying method or the herd planting method has been applied to places where the vegetation environment is good, such as the soil slope, among the cut and fill slopes in Korea, and these methods are covered with natural fibers and shading nets for early germination of plants after construction. However, these materials have a problem that the vegetation rate is low because they do not naturally induce slow germination or the seed after germination but also induce early germination of plants. Therefore, development of a method using materials that are environmentally friendly and can promote early germination of plants is required.

In the case of slopes with poor vegetation environments such as weathered soil and weathered rocks, the wet method of spraying wet polymer-based vegetation base material with pressure water has been applied. The vegetation base is often blended with fibers to prevent spilling. However, when the fiber is not mixed, there is a problem that the sliding occurs and the seed in the vegetation base material flows downward to not homogeneous vegetation. In addition, when incorporating chemical fibers to supplement the soil cohesion, there is a problem that the fiber is not broken down to inhibit vegetation and environmentally friendly. Moreover, this technology uses PVC coating net or natural fiber net for attaching vegetation base material, and these materials are not decomposed in the natural environment or need to be removed after seed germination due to slow decomposition. Problems that cause environmental pollution, such as inhibiting the growth of plants and generating soil pollution and waste. Therefore, it is necessary to develop materials and construction methods that can prevent the vegetation from being homogeneous and run down, as well as solve environmental hazards caused by fiber mixing.

Conventionally, the following are known as a prior art regarding a greening material composition.

Korean Patent Registration No. 10-355175 discloses 30-50% by weight of organic flounder soil having a water content of 50-80%, 40-60% by weight of earth and sand having a water content of 5-15%, rice straw, barley straw and straw. A sloped paper comprising 0.1 to 5% by weight of natural short fibers selected from one or more and having a size of 3 to 5 cm, 5 to 12% by weight of water, 0.001 to 0.1% by weight of sodium alginate, and 0.001 to 0.1% by weight of an acid regulator. A greening composition for greening is shown.

Korean Patent Registration No. 10-423004 discloses a forest topsoil composition comprising a mixture of mass soil, organic maturity compost, crushed wood crushed powder, coco peat, and pit moss, wherein the forest topsoil composition is made of perlite peat, bright light, fly ash, Charcoal powder, sodium alginate and wood vinegar were added and mixed to form a mixture, and each composition forming the mixture was 10 to 30 Kg% of silty soil, 25 to 40 Kg% of organic maturity compost, and 15 to 25 Kg% of wood crushed wood. ㆍ Cocofit 5 ~ 15Kg%, Perlite 1 ~ 5Kg%, Pittmoss 5 ~ 10Kg%, Peat 15 ~ 25Kg%, Wheatite 10 ~ 20Kg%, Fly Ash 5 ~ 15Kg%, Charcoal Powder 1 ~ 3Kg%, Sodium Alginate 0.5 A forest topsoil composition composition is obtained by mixing water at a ratio of ˜1.0 Kg% and grass herb solution at 0.5 to 1.0Kg%, and adding and mixing water at a ratio of 5 to 15 Kg% of the weight of the mixture.

Republic of Korea Patent Registration No. 10-419583, 3 to 5% by weight peat, 5 to 10% by weight of hardwood bark, 10 to 20% by weight, Masato 20 to 25% by weight, activated carbon 2 to 4% by weight, paper sludge 15 to 25 A green earth composition comprising a weight percent, 15-25 weight percent papermaking bar, 1-2 weight percent carboxymethylcellulose (CMC) and 2-4 weight percent composite fertilizer is shown.

Korean Patent Registration No. 10-925817 discloses a greening material used for restoring soil for stabilizing slopes of incisions, wherein 20% by weight of Masato, 10% by weight of clay, 20% by weight of organic fertilizer, and 15% by weight of vermiculite are mixed. Recording base material to be configured by; A cured material composed of 10% by weight of peatmouth, 14.5% by weight of cocopit, 10% by weight of sawdust, and 0.5% by weight of chemical fertilizer; As a vegetation plant, 25 g of native mixed herbaceous fruit per 1m2 of greening composition; 500 l of mixed water per 1,000 kg of the total weight of the greening base material and the curing material; And as a soil stabilizer, 1 kg of superabsorbent polymer PVA per m 3 of mixing water is used; By mixing the superabsorbent polymer PVA together with the greening base material, curing material, native mixed species and water, the soil stabilizer polymer PVA is uniformly distributed in the surface greening material and is required for the germination of early plants without continuous water supply. There is described a legal greening material using a super absorbent polymer PVA, wherein water is supplied to a plant and gelled to be firmly attached to the surface without an adhesion network to prevent loss of the plant.

In the case of the existing greening materials as described above, in the case of the vegetation-based material mounting method, the main composition has sufficient nutrients necessary for plants such as peat, bark compost, peat moss, etc. This can be achieved by repeating the thickness 2 ~ 3cm several times in one time to achieve the desired mounting thickness, the efficiency of the equipment is low and there is a problem of high construction cost according to the use of expensive materials.

In addition, Korean Patent Registration No. 10-612767 as a prior art in the field relates to a plant growth supplement composition that recycled waste resources to settle vegetation on cut and fill slopes, 5 to 30% by weight cotton fiber, specific gravity less than 0.8 A growth aid composition comprising 5 to 50% by weight of papermaking sludge, 5 to 30% by weight of ocher and 5 to 30% by weight of fecal soil, 10 to 60% by weight of organic compost and 0.5 to 3% by weight of chemical fertilizer is proposed.

The composition has the advantage that it can be produced at a low production cost and the adhesion of the sludge is excellent, but its hardness is increased, so that germination and growth of the vegetation is significantly lowered to achieve the desired restoration goal.

As a conventional method of filling soil and cut soil slope surface greening method, a seed spray method or a method using various nets is mainly used, and a thin vegetation base material mounting method having a relatively high construction cost on some soil slope surfaces (organic soil mounting method) ) Is being applied. In addition, thick vegetation-based material mounting method of various compositions is used on the rock slope.

Seed spray method is a method of spraying mixed seeds, chemical fertilizer, and paper fiber on the slope to be green, and is mainly used for premature greening of sheep grass, and delays germination and growth due to lack of moisture and nutrients immediately after spraying. When the plants are sown, the germination rate is significantly lowered, so there is not only a problem of greening quality but also the loss of rainfall, wind sprayed seeds, slope erosion and clavicle.

In addition, in the greening method using various nets, the only difference is that the seedlings, which are coated with coconut shells or straws, extracted from coconut shells are covered only for seeding effect after seed spraying. It is the same as the seed spray method and it should be seen that there is no difference in the recording quality, and it is inferior to the economics by installing the rebar fixing pins by manpower to fix this net, and the use of the rebar fixing pins after a certain period of time. May cause environmental pollution due to corrosion (ferrous oxide, ferric oxide, rust). These iron oxides can flow to rivers and the like during the rainfall, causing water pollution.

Net seeding method can prevent initial seed loss, but like seed spray method, germination rate is low due to lack of nutrients necessary for early germination and growth of plants, and there is a limit to restoration of various vegetation. As it is fixed, there are problems in terms of construction and environment.

In the case of the thin vegetation base drilling hole (organic soil drilling hole), it is effective to prevent the early germination, growth and loss by attaching organic soil to the soil to a certain thickness. However, there are high construction costs such as equipment for installation and the use of cranes for mixing vegetation-based materials, and the cost of supplying organic soils (top soil concept) is high. Because of the high cost of organic soils, as a result, there is a disadvantage in the construction and economic efficiency.

In the rocky areas such as ripping rock, soft rock, and blasting rock, a thin vegetation base mounting hole and a thick vegetation base mounting hole are used with only some composition changes, and when the low-cost base material is used, the germination rate decreases, The construction cost is high due to poor construction and poor construction.

On the other hand, in Korea, due to the rapid increase of waste and the difficulty of securing landfill, the existing waste treatment method has reduced the generation of waste at the source and promotes the recycling of the generated waste. In order to preserve the environment, waste management and recycling plans have been continuously implemented, including the revised Act on Saving Resources and Promotion of Recycling (02.2). In the meantime, due to the lack of research and interest in recycling waste wood, which is a recyclable resource, it has not been properly dealt with. As the Enforcement Decree of the Recycling Promotion Act was revised and implemented ('07. 1. 5.), wood wastes generated from construction work are excluded from construction wastes, and the need for recycling of wood wastes at construction sites is highlighted. We are looking for

Wood wastes generated during construction work can be mentioned as materials that can solve environmental hazards. The development of greening techniques that crush wood wastes (leaves, branches, wood, roots) and recycle them as growth-based soils for sloped greening can contribute to the development of environmentally friendly construction technology. Using undigested crushed wood can reduce the time required for composting and can be easily used on site. Crushed wood from field waste wood waste can serve as a growth-based reinforcement and can be effectively used to prevent steep slope slope erosion.

Crushing and recycling wood waste is the most desirable resource recycling since it returns to the natural rust circulation system.

Therefore, one object of the present invention is to provide a new recording material composition that can improve the problems of the prior art as described above.

It is also an object of the present invention to provide a new greening material composition of improved properties using wood waste.

It is a further object of the present invention to provide a method for producing the above-mentioned greening material composition.

It is also an object of the present invention to provide a method for greening with the recording material composition described above.

According to the present invention achieving the above object

35-45% by weight of wood waste fibers, crushed and crushed wood waste, 0.05 ~ 0.1cm in size;

25 to 35% by weight of herbal fibers crushed one or two or more hay selected from the group consisting of water plants, corn stalks, corn leaves, rice straw, barley straw and straw; And

Provided is a greening material composition using a plant fiber, characterized in that it comprises; 20 to 40% by weight of compost containing pig flour.

Preferably according to the present invention, the compost is a greening using plant fibers, characterized in that the compost containing 35 to 45% by weight, 25 to 45% by weight of foliar soil, 15 to 25% by weight of Masato, 5 to 15% by weight of zeolite Ash compositions are provided.

Moreover, according to this invention, as one of the preferable methods for manufacturing said recording material composition,

Crushing wood waste; And

35-45% by weight of shredded wood waste; 25 to 35% by weight of one or two or more kinds of herbal hay selected from the group consisting of water plants, corn stalks, corn leaves, rice straw, barley straw and straw; And pulverizing and mixing 20 to 40% by weight of compost containing pig flour to prepare a crushed mixture in which the compost is uniformly mixed with wood fibers and herbaceous fibers having a size of 0.5 to 0.1 cm. Provided is a method for producing a recording material composition using fibers.

Preferably, according to the present invention, there is provided a method for producing a greening material composition using plant fibers, further comprising the step of reducing the packing volume by pressurizing or granulating the pulverized mixture.

In addition, according to the present invention there is provided a greening method using the greening material composition.

Preferably, according to the present invention, the greening material composition and water are added to an agitator, followed by stirring. Construction methods are provided.

Preferably, according to the present invention, the biodegradable binder is provided with a polylactic acid binder (PLA).

The present invention recycles the waste resources generated in the development process in accordance with the purpose of low carbon rust growth, and saves the cost of carbon dioxide, material costs, and construction, as well as avoiding the uniform green grass-based early greening of various plants and trees By germinating and growing, there is an effect to improve the recording quality.

The greening material composition of the present invention has an effect of improving the greening quality while being eco-friendly and cost-effective by using recycled materials.

The construction method of the present invention may be an alternative method to solve the seed spray applied to the existing sloped soil, the germination rate of the disadvantages of the netting method, the net installation according to the manpower, the inefficiency due to the installation of the fixing pin, It can replace the high cost of thin vegetation base material installation method that is indiscriminately used on the slope.

In addition, by installing a vegetation base material of a certain thickness and low cost in the vegetation base material installation hole which is used for rock, and installing the greening material composition (1 ~ 2cm) on it, it is possible to improve the economics and the greening quality. .

Without using expensive vegetation base material, it is possible to form the primary vegetation base layer with medium and low price vegetation base material, and to install this greening material composition with the thickness of 1 ~ 2cm to achieve high quality greening quality while improving economic efficiency. have.

Greening material composition of the present invention and the greening technology using the same can bring about carbon dioxide reduction by the effective use of resources in terms of the environment, and in terms of economics can reduce the material cost and construction cost by using recycled materials and ease of construction and recycling in the technical aspect By adjusting the proper ratio of organic fiber and mixed compost, optimum quality of slope-free greening can be achieved.

The present invention replaces the seed spray method and the net method used for general soils to improve the quality of greening limited to the initial germination and plant growth, and to remove the pollution source due to the iron oxide generated after the use of the reinforcing pins used in the net method. At the same time, it is an environmentally friendly method that shows the effects of erosion prevention, mulching and soil improvement without the need for nets.

The present invention is applied to the existing vegetation base material mounting method to form a seed layer with the greening material to provide a suitable base to increase the germination rate and growth of a variety of seeds, increase the efficiency of construction to reduce construction costs and greening quality Can improve.

1 is a photograph showing a state of crushing wood waste with a hammer crusher at the construction site.

Hereinafter, the present invention will be described in detail.

The greening material composition according to the present invention contains wood waste fibers, herbal fibers and mixed compost.

Wood waste fiber in this composition is crushed wood waste waste to the size of 0.05 ~ 0.1cm, stabilizing the ground and gives the bonding force to seed the seeded seed germinate firmly rooted and grow, After erosion over time, it functions as a slow-release fertilizer that is a source of nutrition for plant growth and reproduction. Wood waste fibers also provide good mulching effects by strengthening the bond between herb fibers and compost. Forest wastes can be used for forest wastes generated at construction sites and forest wastes generated during thinning of forests. In particular, it is effective to use the wood waste generated at the construction site to which the present green soil composition is applied because it has better affinity for the ground and the surrounding environment than the other wood waste, so that the green plants can grow better.

In the present composition, the size of wood waste fibers is preferably 0.05 to 0.1 cm. The reason for this is that when the size of wood waste fibers is smaller than 0.05 cm, the above-mentioned binding force is inferior. It is difficult to uniformly mix with the compost and there is a problem that the coating property of the greening plant becomes uneven.

In addition, the content of wood waste fibers in the composition is suitable 35 ~ 45% by weight, because the content of wood waste fibers less than 35% by weight is easy to be lost in rain due to the sedimentation of greening plants, 45 If it is more than% by weight, it may be difficult to uniformly mix the components, resulting in uneven coating of the green plant.

Herbal fibers in the composition is a pulverized hay, dried one or two or more herbal plants selected from the group consisting of water plants such as reeds, corn stalks, corn leaves, rice straw, barley straw and straw. Herbal fibers are preferably prepared by adjusting the amount of water plants, corn cobs, corn leaves, rice straw, barley straw or straw according to the supply and demand conditions. Herbal fiber in the composition serves to complement the above-mentioned binding force of the wood fiber, and after a certain period of time to function as a slow-acting fertilizer that is a source of nutrients necessary for the growth and reproduction of plants. In particular, the hay has a good affinity for the ground and the surrounding environment, compared to the use of other hay, using the hay of the herbaceous plant, which occurs at the construction site to which the greening composition is applied, so that the greening can grow better. It is effective because it is possible.

The content of herbal fibers in the composition is preferably 25 to 35% by weight. If the amount is less than 25% by weight, the function of complementing the wood waste fiber's binding force is somewhat insufficient, and in more than 35% by weight, greening plants There is a disadvantage in that the seating properties, coating properties and the like of the easily deteriorate.

The composition contains compost containing pig meal in an amount of 20 to 40% by weight. In this composition, compost is fully fermented by microorganisms and has high cation exchange capacity (CEC), which is a measure of soil fertility, and is rich in microorganisms and trace elements that decompose organic matter in the soil, thus activating the soil to help plant germination and growth. It works. In particular, pig meal promotes the composting of wood waste fibers and herbaceous fibers to help form high quality vegetation. If the content of the compost in the composition is too small, the effect of the compost is somewhat inadequate, in too many cases the seeding seeds germinate to firmly root down to grow somewhat insufficient.

As compost containing pig flour, it is preferable to contain 35-45 weight% of pig flour, 25-45 weight% of foliar soil, 15-25 weight% of masato, and 5-15 weight% of zeolites.

Hereinafter, one example of a preferred method for preparing the composition of the present invention will be described.

The method for producing a recording material composition according to the present invention may include the following steps.

Crushing wood waste; And

35-45% by weight of shredded wood waste; 25 to 35% by weight of one or two or more kinds of herbal hay selected from the group consisting of water plants, corn stalks, corn leaves, rice straw, barley straw and straw; And 20 to 30% by weight of mixed compost containing 35 to 45% by weight of piglets, 25 to 45% by weight of compost, 15 to 25% by weight of masato, and 5 to 15% by weight of zeolite, Preparing a pulverized mixture in which mixed wood and herb fibers and mixed compost are uniformly mixed.

The pulverized mixture may be packaged and commercialized, but more preferably, the pulverized mixture is pressed and granulated with pellets or the like to reduce the volume of the packaged product. When granulating in pellet form, a conventional pellet mill can be used.

Hereinafter, a method for greening using the greening material composition of the present invention will be described.

The greening material composition according to the present invention has a specific gravity lower than that of general organic soil, and has good breathability and water-retainability, and can increase the one-time mounting amount in terms of construction. The composition of the present invention, which is an environmentally friendly resource recycling greening material, is a product applied to the greening method by circulating waste resources, and by using this, it is possible to improve greening quality through efficient construction on soil or rock slopes.

For example, in the greening construction using the greening material composition, the greening material composition and water are added to an agitator, followed by agitation. The biodegradable binder, an erosion inhibitor, and seeds of desired greening plants are added and mixed. It is possible to use a method of mounting at a predetermined thickness to the intended factory. In this case, the biodegradable binder may be a conventional one well known in the art, and a representative example thereof is a polylactic acid binder (PLA). The PLA is a corn starch-based polymer polymerization material that is a natural raw material, not a petroleum-based binder, and does not harm nature, and has excellent bond strength with wood waste fibers, herbal fibers, and compost, which are organic fibers. It has more than twice the water holding capacity and promotes the granulation of the base material of the mixed composition, which is effective in the root development of plants.

When greening slopes, if the soil on the slope is irreversible soil or if it is a strong horseshoe, if the cut soil slope is less than 1: 1, the thickness of the mixture containing the composition, seeds, and biodegradable binders should be 1 ~ 2cm. In the case of high quality soils and gradients of 1: 1 or more, 0.5cm thickness can be used for germination and growth of various plants and woods, so that good greening is possible in terms of species diversity as well as vegetation restoration.

When planting rock slopes, using a common vegetation base agent, install it with a thickness of 5 to 7 cm, and then mount a mixture containing the composition, seeds, and biodegradable binders on it to increase the effect of greening.

As described above, the installation method of the present greening material composition is an intermediate step between the general organic soil mounting method and the seed spraying method, and since the main composition used in the seed spraying method is paper fiber, the moisturizing power is somewhat, but rainfall erosion resistance It is weak, free from organic and essential nutrients, and can be replaced with the present composition, which is rich in essential nutrients and trace elements and contains organic fibers, thereby increasing moisturizing and preserving power.

The features and other advantages of the present invention as described above will become more apparent from the following embodiments.

Example 1

40% by weight of crushed wood waste prepared by crushing wood waste collected in the vicinity of the plant at 2 ~ 3cm size over 2 times; 35% by weight of herbal fibers prepared by crushing the reeds collected around the plant at the size of 3 ~ 4cm; 25% by weight of compost (40% by weight pig, 35% by weight soil, 15% by weight masato, 10% by weight zeolite) is placed in the grinding mixer through each inlet until the shredded wood waste is 0.05 ~ 0.1cm in size. The pulverized mixture was compressed, the resulting pulverized mixture was compressed and packed in a plastic bag in 20 kg units to prepare a greening material composition.

Fill the water with 1/3 of water in a 5,000L mounting device, open 24 bags of 20kg filled with greening material composition, put it in the mounting container, stir, mix and stir the polylactic acid-based binder and native herbal mixture seeds, and mix and stir it. The composition mounting liquid was prepared.

25% by weight of Masato, 15% by weight of clay, 15% by weight of organic fertilizer, 15% by weight of vermiculite, 10% by weight of peatmouth and 15% by weight of coco peat were placed on the earth and sand slope of the planting plant. Thereafter, the greening material composition mounting solution was mounted to a thickness of 2 cm to be greened.

Comparative Example 1

The same procedure as in Example 1 was repeated except that the greening material composition containing 75% by weight of wood waste fibers and 25% by weight of compost was used without herbal fibers.

Comparative Example 2

The greening installation solution prepared by mixing and stirring the polylactic acid-based binder and the native herbaceous mixed seed in the vegetation base material of Example 1 was mounted to the cut soil slope of the plant at the time of greening to have a thickness of 10 cm.

[Measurement and evaluation]

* Chemical analysis: Based on the soil chemical analysis method (National Institute of Agricultural Science and Technology, 2000), vegetation-based soil was collected from field test site and transported to the room for analysis. The results are shown in Table 1.

* Vegetation survey: For the vegetation survey on the inclined slope, 18 specimens of 1.0m × 1.0m standard spheres were installed at the slope of the slopes. After sowing, it was investigated every 4 weeks. The measurements examined the emergence species and coverage of each plant. Coverage rate is a measure of the state that plants cover the space, also known as vegetation rate, it is expressed as a percentage of the extent of the area of the irradiated area projected above the ground of the plant perpendicular to the ground surface. The results are presented in Table 2 (coverage change) and Table 3 (emergence species change), respectively.

pH Organic matter
(%) Substituent Cation (cmol / kg) TN
(%) C / N K ⁺ Na ⁺ Ca ^{2 +} Mg ^{2 +} Example 1 8.3 12.3 0.72 0.73 15.8 4.5 0.4225 15.23 Comparative Example 1 8.2 12.7 0.72 0.73 15.8 4.5 0.4175 14.92 Comparative Example 2 8.6 8.5 0.70 0.71 15.9 4.4 0.4754 9.54

Coverage change over time (%) 4 weeks 8 weeks 12 weeks 18 Weeks Example 1 One 47 85 99 Comparative Example 1 One 22 32 45 Comparative Example 2 One 3 13 25

Species changes over time (total number of appearances) 30 days 60 days 90 days 120 days Example 1 4 6 7 9 Comparative Example 1 4 5 6 6 Comparative Example 2 2 4 4 6

Claims (7)

35-45% by weight of wood waste fibers, crushed and crushed wood waste, 0.05 ~ 0.1cm in size; 25 to 35% by weight of herbal fibers crushed one or two or more hay selected from the group consisting of water plants, corn stalks, corn leaves, rice straw, barley straw and straw; And 20 to 40% by weight of mixed compost mixed with 35 to 45% by weight of pig meal, 25 to 45% by weight of pulp soil, 15 to 25% by weight of masato, and 5 to 15% by weight of zeolite. Greening material composition.
delete In preparing the greening material composition,
Crushing wood waste; And
35-45% by weight of shredded wood waste; 25 to 35% by weight of one or two or more kinds of herbal hay selected from the group consisting of water plants, corn stalks, corn leaves, rice straw, barley straw and straw; And 20 ~ 40% by weight of compost mixed with 35 ~ 45% by weight of ground manure, 25 ~ 45% by weight of ground soil, 15 ~ 25% by weight of masato, and 5 ~ 15% by weight of zeolite. A method of manufacturing a greening material composition using plant fibers, comprising the steps of: preparing a pulverized mixture in which fibers and herbal fibers and mixed compost are uniformly mixed.
The method according to claim 3, further comprising the step of pressing or granulating the pulverized mixture to reduce the packing volume.
delete The greening material composition according to claim 1, wherein the greening material composition and the water is added to the mounting apparatus and stirred, and the biodegradable binder and the seed of the greening plant are added thereto, mixed, and the greening is installed in a plant at the time of greening. Construction method.
7. The method of claim 6, wherein the biodegradable binder is a polylactic acid binder (PLA).

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