KR20110128576A - Trees growing slope area greening structure and greening method - Google Patents

Abstract

PURPOSE: A slope greening structure capable of cultivating woody plants, and a slope greening method using thereof are provided to reduce the problem of a conventional soil seed spraying process. CONSTITUTION: A slope greening structure capable of cultivating woody plants comprises the following: holes(110) formed on a cut slope(11) with the constant interval; a wire mesh(210) covering the cut slope, fixed to the surface of the cut slope with the holes using anchor pins(220,320); a soil seed spray layer buried to the cut slope for filling the holes with a nonwoven fabric planting bag; and soil seed spraying soil for woody plants filling the nonwoven fabric planting bag for planting the woody plants. A vegetation bag storing box is fixed to the upper side of the wire mesh on the location of the holes using the anchor pins.

Description

Trees Growing Slope Area Greening Structure and Greening Method

The present invention relates to a greening structure and a greening method for recording an inclined slope, by using a non-woven vegetation bag pre-planted with woody plants, it is possible to vegetation of woody plants and effectively prevent the loss of installed green soil. do.

In order to construct a new building after cutting a road or slope, artificial natural incisions are made, which causes incised slopes, which are seeded as a greening method to prevent soil loss. spray), rice straw method, rust soil method, etc. are used.

In general, when the incision slope is gentle and the incision soil is high quality land, seed spray and rice straw method is used as a simple greening method, and the slope of the incision slope is steep and the incision soil is made of gravel layer, wind rock, soft rock, etc. In this case, a method of adsorbing green algae made by blending seeds with green soil is adsorbed on the inclined slope.

The currently used green soil earthwork method covers the ridge net by covering the ridge net (wire net) on the inclined slope and anchoring the ridge net as shown in FIG. After sticking to the ground, the green soil, which contains green soil and seeds, is installed at a high pressure to be installed to have a constant thickness (10 to 15 cm).

The conventional green soil soiling method has a problem that the vegetation of woody plants is impossible. The reason for this is that when the green soil mixed with herbaceous seeds and woody seeds is placed on the green soil, the seeds of the herbaceous (grass) are first germinated and grown to grow in the shade of herbaceous plants. Shrouded woody seeds are unable to germinate and grow.

In addition, after the construction of green soil, it is possible to find a way to plant trees by excavating the green soil construction surface. In this case, the construction of the green soil on the incision surface is difficult to be lost due to flooding.

The present invention relates to a new technology that can be planted on the slope of the incision site at the same time by improving the conventional rust soil construction method as described above.

It is an object of the present invention to provide a greening structure and a greening method in which wood main trees (trees) are planted and grown on the slope of the incision site at the same time by improving the problems of the current greening soil method as described above.

The configuration of the present invention created to solve the above technical problem is as follows.

The present invention is a plurality of pits (110) excavated at regular intervals on the inclined slope (11); Wire mesh 210 is fixed to the surface of the incision slope 11 is formed with an anchor pin 220 as covering the incision slope 11; A plurality of non-woven vegetation bags 310 fixed to the upper part of the wire mesh 210 in which the pit 110 is located by the binding line 320; And a green rust soil layer 410 installed on the incision slope 11 to cover the nonwoven fabric sacks 310 and the wire mesh 210 and to fill the pit 110. The inside of the woody vegetation rusted soil 311 is filled with woody vegetation is possible slope vegetation structure, characterized in that the woody vegetation is planted in advance.

In addition, the present invention is a first step of excavating a plurality of holes (110) at regular intervals along the inclined slope (11); A second step of covering the wire mesh 210 on the cut slope 11 in which the pit 110 is excavated and fixed with an anchor pin 220; The third step of installing a non-woven vegetation bag 310 is built on the upper part of the wire mesh 210, the pit 110 is located on the green vegetation vegetation green algae 311 and fixed to the wire mesh 210 by the binding line 320 ; And a fourth step of filling the pit 110 by installing green rust soil on the inclined slope 11 and forming a rust soil layer 410 covering the nonwoven vegetation sac 310 and the wire mesh 210. Slope greening is possible with vegetation.

Technical effects of the configuration of the present invention are as follows.

First, the woody plant is pre-planted non-woven vegetation bag 310 is fixed to the inclined slope 11 at regular intervals, and the green soil is laid, the pit 110 is excavated in the lower portion of the non-woven vegetation bag 310 By filling the green soil inside, the roots of planted wood (tree) plants grow deep into the soil, thereby preventing the loss of incised slopes.

Second, by installing a plurality of non-woven vegetation bags 310 at regular intervals can serve as a fence to prevent the loss of the green rust soil installed itself.

Third, by distinguishing the types of trees planted in the non-woven vegetation bag 310, the non-woven vegetation bag 310 is installed in the vicinity of the lower end of the inclined slope 11, a tree such as a forsythia or rose of sharon is planted, Planting a relatively tall tree in the remaining portion can prevent the phenomenon that the traffic flow of the road adjacent to the inclined slope 11 is inhibited by fallen leaves and the like.

Fourth, woody planting using the non-woven vegetation bag 310 together with the flower planting according to the installation of green soil is possible at the same time to give travelers traveling on the road to feel the flowers and forests and improve the surrounding landscape beautifully.

Figure 1 schematically shows a conventional rust-free soil method.
2 shows a sloped greening structure according to the present invention.
3 shows a cross section of an inclined greening structure according to the present invention.
Figure 4 is a specific embodiment of the nonwoven vegetation bag 310 used in the present invention.
5 illustrates a case where the vegetation bag receiving box 510 is used together with the nonwoven vegetation bag 310, and the lower part of the wire mesh 210 is omitted.

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

Fig. 2 shows an inclined greening structure according to the present invention, and Fig. 3 shows a cross section of the inclined greening structure according to the present invention.

Pit 110 is excavated at regular intervals in the incision 11 is completed incision is to choose the top, bottom, left and right intervals in consideration of the size of the growth of the tree planted in the nonwoven vegetation bag (310).

That is, the civil engineering work of the incision is completed, and using the excavator on the well-maintained inclined slope 11, the pit 110 is made at regular intervals as shown in Figs. Form a soil and nourishing space.

The size of the pit 110 is excavated to an appropriate size (horizontal / vertical / depth) in consideration of the type of wood planted in the nonwoven vegetation bag 310.

The wire mesh 210 serves to prevent the loss of the inclined slope 11 by covering the inclined slope 11, covering the wire mesh 210 on the surface of the inclined slope 11 where excavation of the pit 110 is completed and at regular intervals. The anchor pin 220 is poured to fix the wire mesh 210 to the inclined slope 11.

The nonwoven vegetation bag 310 is installed on the upper portion of the wire mesh 210 in which the pit 110 is located. The nonwoven vegetation bag 310 is fixed to the wire mesh 210 by using the binding line 320.

The nonwoven vegetation bag 310 is a block shape of a rectangular parallelepiped by sewing, adhering or heat-sealing a nonwoven fabric having a plurality of holes 315 perforated so that roots of woody plants planted therein can grow well as shown in FIG. 4. The final product is not necessarily limited to a rectangular parallelepiped block, but may be modified in various forms.

The thickness (height) of the nonwoven vegetation bag 310 is manufactured to have a similar thickness in consideration of the thickness (10 to 15 cm) of the rusted soil layer 410 laid later.

The material of the nonwoven fabric is PE (polyethylene) or PP (polypropylene), but in the soil, since it is blocked from ultraviolet rays and is not corroded, the stability of the inclined slope 11 can be secured continuously. Planting the tree by filling the rust soil 311 firmly can effectively protect the roots of the grown tree when transplanted.

Inside the non-woven vegetation bag 310 is filled with wood vegetation vegetation green algae 311, the wood plants are planted in advance.

Woody vegetation green rust soil (311) generally refers to artificial soil containing a large amount of organic matter and slow-fertilizing fertilizer needed for tree growth and incision rock wall greening, it is preferable that the soil stabilizer is mixed and used together to prevent the loss of the surface Do.

The nonwoven vegetation bag 310, which is manufactured in the form of a block and filled with woody vegetation vegetation green algae 311, is fixed to the upper portion of the wire mesh 210 at regular intervals so that the green algae layer 410, which is subsequently laid, is lost due to flooding before the grass grows. It will act as a fence to prevent it.

In the case of Figure 5 shows a case where the vegetation bag receiving box 510 is used, the vegetation bag receiving box 510 is a box shape in the upper portion of the open top of the wire mesh 210 where the pit 110 is located ankapin 220 is fixed.

The specific shape, size, material, etc. of the vegetation bag container 510 is not particularly limited, but generally, a box made of a synthetic resin material is used, and is manufactured in consideration of the size and shape of the nonwoven fabric bag 310 accommodated therein. If necessary, a plurality of holes may be formed in the vegetation bag receiving box 510.

If the vegetation bag receiving box 510 is used, the nonwoven vegetation bag 310 only needs to be put in the vegetation bag receiving box 510, and no separate binding line 320 is required.

The outer surface of the wire constituting the binding wire 320 for fixing the wire mesh 210 and the nonwoven fabric bag 310 to the wire mesh 210 is covered with a synthetic resin coating material such as PVC to prevent corrosion And durability can be ensured.

The green soil layer 410 is installed at a high pressure on the inclined slope 11 after the installation of the nonwoven fabric sacks 310 is completed, covering the nonwoven sacks 310 and the wire mesh 210 as well as the internal space of the pit 110. Will also fill.

Green soil layer 410 refers to artificial soil containing a large amount of organic matter and slow-release fertilizer required for plant growth promotion and rock wall greening of the incision, it is preferable that the soil stabilizer is mixed together to prevent the loss of cotton. The green soil layer 410 is installed mixed with the herbaceous seeds, covering the wire mesh 210 and the non-woven fabric bag 310 together with the pit 110 to complete the greening structure of the inclined slope (11).

Hereinafter, a method for completing the greening structure of the present invention will be described.

1.When using nonwoven fabric bag 310

(1) First step

Excavation is a step of excavating a plurality of pit 110 at regular intervals using an excavator along the incision slope 11 is completed civil work.

The interval or size of the pit 110 is determined in consideration of the type of wood planted in the nonwoven vegetation bag 310.

(2) Step 2

The pit 110 covers the wire mesh 210 on the excavated inclined slope 11 and fixes it with an anchor pin 220. The wire mesh 210 prevents loss or falling of the inclined slope 11 and later. It also serves to increase the adhesion of the green soil layer 410 is installed.

(3) Step 3

The non-woven vegetation bag 310 having the woody vegetation vegetation green soil 311 is installed on the upper portion of the wire mesh 210 where the pit 110 is located and fixed to the wire mesh 210 by the binding line 320.

As such, the nonwoven fabric bag 310 is fixedly installed to protrude to the upper portion of the wire mesh 210 so that the nonwoven fabric bag 310 also serves as a fence to prevent loss of the green soil layer 410 that is later installed.

Before performing the third step, it is necessary to produce the nonwoven sachets 310 beforehand, and planted woody plants in the nonwoven sachets 310 filled with woody vegetation green algae 311 before transporting them to the construction site. It is fixed to the wire mesh 210 using the binding line 320.

(4) Step 4

It is a step of forming a green soil layer 410 to fill the pit 110 by laying the green soil on the inclined slope 11 and to cover the non-woven vegetation bag 310 and the wire mesh 210.

Through this step, the final greening structure is completed, and the green soil layer 410 filled in the pit 110 is the soil necessary for the growth of the wood (tree) together with the green vegetation vegetation green soil 311 filled in the non-woven vegetation bag (310). Herbs and wood can grow together by supplying nutrients to enable the vegetation of trees.

2. When using the vegetation bag container (510) together

(1) First step

Excavation is a step of excavating a plurality of pit 110 at regular intervals using an excavator along the incision slope 11 is completed civil work.

The interval or size of the pit 110 is determined in consideration of the type of wood planted in the nonwoven vegetation bag 310.

(2) step 2-1

The pit 110 covers the wire mesh 210 on the excavated inclined slope 11 and fixes it with an anchor pin 220. The wire mesh 210 prevents loss or falling of the inclined slope 11 and later. It also serves to increase the adhesion of the green soil layer 410 is installed.

(3) Step 2-2

The pit 110 is a step of arranging the vegetation bag receiving box 510 on the upper portion of the wire mesh 210 is located and fixed with an anchor pin (220).

(3) Step 3

It is a step for accommodating the nonwoven vegetation bag 310, which is embedded in the green vegetation vegetation rust soil 311 in the vegetation bag receiving box (510).

As such, the non-woven vegetation bag 310 and the vegetation bag receiving box 510 are fixedly installed to protrude to the upper portion of the wire mesh 210, thereby serving as a fence to prevent loss of the green soil layer 410 which is later installed.

Before performing the third step, it is necessary to produce the nonwoven sachets 310 beforehand, and planted woody plants in the nonwoven sachets 310 filled with woody vegetation green algae 311 before transporting them to the construction site. You can put in the vegetation bag storage box (510).

(4) Step 4

It is a step of forming a green soil layer 410 to fill the pit 110 by laying the green soil on the inclined slope 11 and to cover the non-woven vegetation bag 310 and the wire mesh 210.

Through this step, the final greening structure is completed, and the green soil layer 410 filled in the pit 110 is the soil necessary for the growth of the wood (tree) together with the green vegetation vegetation green soil 311 filled in the non-woven vegetation bag (310). Herbs and wood can grow together by supplying nutrients to enable the vegetation of trees.

As described above, the technical spirit of the present invention has been described with reference to specific embodiments of the present invention, but the protection scope of the present invention is not necessarily limited to these embodiments, and various designs may be made without changing the technical spirit of the present invention. Changes, additions or deletions of well-known technology, and simple numerical limitations also make it clear that they belong to the protection scope of the present invention.

11: incised slope
110: The pit
210: wire mesh (ridge net)
220: anchor pin
310: Non-woven fabric bag
311: Wood green vegetation green soil 315: Through
320: Binding Line
410: green soil layer
510: Vegetation bag

Claims (7)

A plurality of pits 110 excavated at regular intervals on the inclined slope 11;
Wire mesh 210 is fixed to the surface of the incision slope 11 is formed with an anchor pin 220 as covering the incision slope 11;
A plurality of non-woven vegetation bags 310 fixed to the upper part of the wire mesh 210 in which the pit 110 is located by the binding line 320; And,
A green soil layer 410 installed on the inclined slope 11 to cover the non-woven vegetation bag 310 and the wire mesh 210 and fill the pit 110;
Consisting of
The inside of the nonwoven vegetation bag 310 is filled with wood vegetation vegetation green algae 311, woody vegetation is possible slope vegetation structure, characterized in that woody plants are planted in advance. A plurality of pits 110 excavated at regular intervals on the inclined slope 11;
Wire mesh 210 is fixed to the surface of the incision slope 11 is formed with an anchor pin 220 as covering the incision slope 11;
Vegetation bag container (510) is fixed to the upper part of the wire mesh 210 in the form of an open box in the upper portion of the wire mesh 210 is anchored with an anchor pin (220);
A plurality of nonwoven vegetation bags 310 accommodated in the vegetation bag receiving box 510; And,
A green soil layer 410 installed on the inclined slope 11 to cover the non-woven vegetation bag 310 and the wire mesh 210 and fill the pit 110;
Consisting of
The inside of the nonwoven vegetation bag 310 is filled with wood vegetation vegetation green algae 311, woody vegetation is possible slope vegetation structure, characterized in that woody plants are planted in advance. According to claim 1 or 2, The nonwoven vegetation bag 310,
It is made in the form of a block of rectangular parallelepiped greening structure that can be vegetated vegetation, characterized in that a plurality of holes 315 is formed on the surface. [3] The inclined greenery structure of claim 1 or 2, wherein a synthetic resin coating material is covered on an outer surface of the wire constituting the wire mesh 210 and the binding line 320. A first step of excavating a plurality of holes (110) at regular intervals along the inclined slope (11);
A second step of covering the wire mesh 210 on the cut slope 11 in which the pit 110 is excavated and fixed with an anchor pin 220;
The third step of installing a non-woven vegetation bag 310 is built on the upper part of the wire mesh 210, the pit 110 is located on the green vegetation vegetation green algae 311 and fixed to the wire mesh 210 by the binding line 320 ; And,
A fourth step of forming the green soil layer 410 covering the pit 110 by installing the green soil on the inclined slope 11 and covering the nonwoven fabric bag 310 and the wire mesh 210;
Slope greening method that can be used as a main vegetation vegetation characterized in that consisting of. A first step of excavating a plurality of holes (110) at regular intervals along the inclined slope (11);
A second step of covering the wire mesh 210 on the cut slope 11 in which the pit 110 is excavated and fixing it with an anchor pin 220;
A second step of arranging the vegetation bag receiving box 510 on the upper portion of the wire mesh 210 where the pit 110 is located and fixing it with the anchor pin 220;
A third step of accommodating the nonwoven vegetation bag 310 in which the green vegetation vegetative rust soil 311 is embedded in the vegetation bag receiving box 510; And,
A fourth step of forming the green soil layer 410 covering the pit 110 by installing the green soil on the inclined slope 11 and covering the nonwoven fabric bag 310 and the wire mesh 210;
Slope greening method that can be used as a main vegetation vegetation characterized in that consisting of. In claim 5 or 6,
Woody planting step of planting woody plants in advance inside the non-woven vegetation bag 310 before performing the third step;
Slope greening method is possible that the main vegetation of wood, characterized in that it further comprises.

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