KR101267231B1 - Slope tree planting method and tree planting structure that use hot clay - Google Patents

Abstract

PURPOSE: A slope revegetation method is provided to keep contents with good moisture by using hot clay which adheres to a slope or contents with good moisture and to enhance rooting ability of soil and plants by using fiber-based materials. CONSTITUTION: A wire netting is installed in a slope(S100). Horizontal and vertical wires are arranged along horizontal and vertical directions, respectively, in the wire netting(S200). Cross-sections of horizontal wires and vertical wires are stuck in the slope such that the anchor loop of an anchor pin is hung on the cross-sections(S300). Exposed-sections between horizontal wires and vertical wires are stuck in the slope such that the landing loop of a landing pin is hung on the exposed-sections(S400). Wire netting fixed to the slope by the anchor pin and landing pin is coated with hot clay(S500). A clay ball molding step(S510) makes clay containing moisture into ball shape. A clay ball heating step(S520) removes viscosity from the ball clay by heating. A clay ball cooling step(S530) cools the heated clay ball. A clay ball mixing step(S540) mixes the clay ball passed through the clay ball molding step, clay ball heating step and clay ball cooling step with artificial soil which has a fiber-based material. [Reference numerals] (S100) Wire netting installing step; (S200) Wire netting arranging step; (S300) Anchor pin fixing step; (S400) Landing pin fixing step; (S500) Hot clay covering step; (S510) Clay ball molding step; (S520) Clay ball heating step; (S530) Clay ball cooling step; (S540) Clay ball mixing step

Description

Slope tree planting method and tree planting structure that use hot clay}

The present invention relates to a slope recording method and a greening structure using a hot cray, in particular, a hot cray mixed with clay balls heated by clay in a state where a wire mesh is installed by wires, anchor pins and landing pins on a surface of the slope. It is applied to cover the thickness.

In general, when a large-scale building or road is constructed in a forest area, slopes that cut or fill rock or soil are generated, and these slopes are structurally unstable and cause accidents that easily collapse due to rainfall. .

When the coir net is installed on the inclined surface to solve this cause, the soil layer between the net and the strong wind cannot be prevented, and the adhesion of the net is deteriorated due to unstable supply of raw materials and shrinkage caused by repeated wet and dry, Due to the use of natural fiber material, the natural fiber material is corroded and fertilized at the same time, the growth of vegetation is promoted, but there is a problem that can not maintain the function permanently by losing the function of the net.

On the other hand, the green soil method is a method of inducing greening by installing organic wires such as seeds and fertilizers and then forcibly attaching to the soil layer with high pressure sprayer after installing wire mesh in the incision site. However, due to the increase in the unit weight due to the increase of the water content during the rainy season, the cause of the slope collapse, the construction cost is high, there was a risk of death when drying continues.

In addition, the texol method is to install and fix a continuous fiber of a chemical yarn, and then, coarse sand, flounder, moisturizer, adhesive, etc. are mixed with the grass seed and shot on the slope with a thickness of 6 to 10 cm. However, it is easy to select seeds and has the advantage of shortening the air by mechanized construction, on the other hand, the non-declining slope should be less than 60%, there is a problem that requires precise construction and expensive construction cost.

And seed spraying method is to mix seeds and fertilizer, coating curing agent, anti-erosion stabilizer, coloring agent, fresh water, etc. in the tank in the sprayer, and then spray by greening with high pressure pump. There is a problem in determining the seed, such as the use of a small seed because it is exposed, there is a problem that the native growth of the tree is not secured because the growth of woody plants is impossible due to the large amount of herbaceous vegetation.

As such, the existing slope greening stabilization methods are constructed to harmonize with the surrounding environment of the slope, but the surface portion of the cut slope and the artificial soil are not firmly attached, and the surface is easily eroded by rainy seasons such as heavy rains. In addition, during the dry season, the soil moisturizing state is low, the adhesion of the soil and plants are poor, the growth of plants such as plants and shrubs is not smooth, there was another problem that can not be planted in the long term.

The present invention is to maintain a good moisturizing state by using a hot crab with good adhesion to the inclined surface or to a pure content, and to increase the adhesion of soil and plants by a fiber-based agent made of nylon fibers to increase the adhesion, adhesion In this way, it is possible to increase the growth rate of plants such as plants and shrubs.

The present invention is a slope greening method using a hot cradle that is hardened by coating the hot gray on the surface of the inclined surface, the greening method is a wire mesh installation step (S100) is provided with a wire mesh 10 having a mesh on the slope; An iron wire arrangement step (S200) in which the horizontal wire 21 and the vertical wire 22 are arranged to cross each other in the wire mesh 10 in the horizontal and vertical directions; An anchor pin fixing step (S300) that is embedded in the slope so that the anchor ring 31 of the anchor pin 30 is caught in the intersection portion of the horizontal wire 21 and the vertical wire 22; Landing pin fixing step (S400) is embedded in the slope so that the landing ring 41 of the landing pin 40 is caught in the wire mesh 10 exposed between the horizontal wire 21 and the vertical wire 22; And a hot cray cover step S500 in which the hot cray 50 is applied to the wire mesh 10 fixed to the slope by the anchor pin 30 and the landing pin 40.

In addition, the hot cray cover step (S500) is a clay ball molding step (S510) for forming a clay containing water in a ball shape; A clay ball heating step (S520) in which viscosity is removed by heating the clay formed in the ball shape; Clay ball cooling step (S530) for cooling the heated clay ball (51); And the clay ball 51 through the clay ball forming step (S510), clay ball heating step (S520) and clay ball cooling step (S530) is mixed in the artificial clay 53 having the fiber base material 52 Clay ball mixing step (S540) is characterized in that made.

In addition, it is characterized in that the green pigment is added to the artificial clay 53 during the clay ball mixing step (S540).

On the other hand, the present invention is a sloped greening structure using a hot cradle, which is applied to the surface of the slope to be cured by hot cray, the greening structure is in the horizontal and vertical direction on the surface of the wire mesh 10 covered on the slope 60 The horizontal wire 21 and the vertical wire 22 are arranged to cross each other, and the anchor ring 31 of the anchor pin 30 is hooked to a portion where the horizontal wire 21 and the vertical wire 22 cross each other. To be lodged on the slope 60, to be embedded in the slope 60 so that the landing ring 41 of the landing pin 40 is caught in the wire mesh 10 exposed between the horizontal wire 21 and the vertical wire 22. In addition, the hot cray 50 is covered with the wire mesh 10 fixed to the slope 60 by the anchor pin 30 and the landing pin 40.

In addition, the hot cray 50 is characterized in that the clay ball 51 has been removed by heating the clay formed in the ball shape is mixed in the artificial clay 53 having the fiber base material (52).

In addition, the fiber base material 52 is formed of nylon, characterized in that formed to have a length of 40 ~ 50mm.

And the artificial soil 53 is characterized in that the green pigment is added.

The present invention is maintained by the wire mesh on the surface of the inclined slope surface by the wire and anchor pins and landing pins, thereby increasing the adhesion or adhesion to the slope surface to prevent the hot cray is separated from the slope surface can extend the life You can get the effect.

In addition, many holes are provided by the clay clay ball of hot cray moisturizing state is made good, it is possible to further obtain the effect of increasing the adhesion of the soil and plants.

In addition, the air and the drainage is made smoothly by the pores, it is possible to further obtain the effect of increasing the growth rate of plants such as plants and shrubs.

In addition, green pigment is added in the process of mixing clay balls of hot cray into artificial soil, so that the hot cray covered areas become green until the seeds of plants or shrubs germinate and green. You can get more effects to harmonize with your surroundings.

In addition, the fiber-based material formed of nylon fibers is mixed in the process of mixing clay balls of hot cray into artificial clay, and thus it is possible to further obtain an effect of preventing cracks from occurring in hot crayfish.

1 is a process chart showing a sloped greening method using a hot cray according to the present invention.
2 is a cross-sectional view showing a sloped greening structure using a hot cradle according to the present invention.
Figure 3 is an exemplary view showing an enlarged main portion of the sloped greening structure using a hot cray according to the present invention.
4 is an exemplary view showing a wire mesh used in a slope recording method using a hot cray according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 2 to 4, the sloped greening structure using the hot cradle according to the present invention is coated with a hot cray 50 having a predetermined thickness on the surface of the slope 90 to be cured, thereby providing a slope 90. While stabilizing the slope surface 90 is configured to be easily recorded.

To this end, the inclined surface 90 is installed to cover the wire mesh 10 having meshes, and as shown in FIG. 4 as a method for preventing the wire mesh 10 from being spaced apart from the inclined surface 90. The horizontal wire 21 and the vertical wire 22 are spaced apart at regular intervals on the surface of the wire mesh 10 and are arranged to cross each other so as to have a shape that is repeated vertically and horizontally in the horizontal and vertical directions, respectively.

The wire mesh 10 is preferably to be coated with PVC in a way to withstand corrosion for a long time, the size of the mesh forming the wire mesh 10 has a diameter of about 3.2mm in the middle and length More preferably, each has about 58 mm.

The horizontal wire 21 and the vertical wire 22 has a function that the wire mesh 10 is in close contact with the inclined surface 90 in the same way as the wire mesh 10 to withstand corrosion for a long time to the surface It is preferable to use a coated PVC having a predetermined thickness, and more preferably each of the horizontal wires 21 and the vertical wires 22 have about 8 mm.

The crossing portion of the horizontal wire 21 and the vertical wire 22 is configured to be embedded in the slope 60 so that the anchor ring 31 of the anchor pin 30 bent in the shape of a stick.

The wire mesh 10 exposed between the horizontal wire 21 and the vertical wire 22 has a slope 90 so that the landing ring 41 of the landing pin 40 has the same shape as that of the anchor pin 30. It is configured to be embedded in).

The wire mesh 10 fixed to the slope 90 by the anchor pin 30 and the landing pin 40 is configured to be coated and cured so that the hot cray 50 is covered so that the wire mesh 10 can be embedded. have.

The hot cray 50 is formed by heating the clay to remove the viscosity and to have a uniform wear to prevent problems of the soil, consisting of ceramic particles having a permanently stable pores as a capillary tube containing a large amount of water in the pores It is mixed with the artificial soil 53 in a state that allows the air and drainage to be made smoothly so as to effectively slope the greening.

To this end, the hot cray 50 is configured to be mixed with the artificial clay 53 having a fiber-based material 52, the clay ball 51 is removed by heating the clay formed in the form of a ball.

The fiber base material 52 is formed of nylon fibers to have a function of preventing cracks in the hot cray 50 during dry season. It is more preferable that such a nylon has a length of 40-50 mm.

The artificial soil 53 is a green color is added in the process of mixing, to make the green color on the surface of the hot cray 50 to harmonize with the surroundings by the green color until the seeds germinate It becomes possible.

The method of recording the slope surface using hot cray having such a structure is as follows.

First, as shown in Figure 1, the wire mesh installation step (S100) is installed so that the wire mesh 10 with the mesh on the slope (90) after the horizontal wire in the horizontal and vertical directions to the wire mesh 10, respectively ( 21) and the vertical wire 22 to be arranged to cross (wire arrangement step (S200)).

Next, the anchor wire fixing step (S300) so that the anchor ring 31 of the anchor pin 30 to be stuck on the slope to be caught in the cross section of the horizontal wire 21 and the vertical wire 22, the horizontal wire So that the landing ring 41 of the landing pin 40 is stuck to the slope surface to be caught between the wire mesh 10 exposed between the 21 and the vertical wire (22) (fixing pin fixing step (S400)).

Next, the hot cray cover step (S500) is applied to be cured by being applied to the hot cray 50 is covered on the wire mesh 10 fixed to the slope by the anchor pin 30 and the landing pin 40 to the hard surface The basis on which 90 can be recorded is established. At this time, the hot cray 50 of the hot cray cover step (S500) is a clay ball forming step (S510) to make the clay containing the water is formed in the ball shape and then heated clay formed in the ball shape is viscous To be removed (clay ball heating step (S520)). Then, after the clay ball 51 is heated through the clay ball cooling step (S530) to be cooled, the clay ball 51 through the clay ball mixing step (S540) artificial ball having a fiber-based material (52) ( Use the mixture in 53). At this time, the green pigment is added to the artificial clay 53 during the clay ball mixing step (S540).

Wire mesh cover step (S100) Wire arrangement step (S200)
Anchor pin fixing step (S300) Landing pin fixing step (S400)
Hot Cray Cover Step (S500)

Claims (7)

In the inclined greening method using a hot cradle in which the hot cradle is applied to the surface of the slope to be cured,
The greening method is a wire mesh installation step (S100) is provided with a wire mesh 10 having a mesh on the slope;
An iron wire arrangement step (S200) in which the horizontal wire 21 and the vertical wire 22 are arranged to cross each other in the wire mesh 10 in the horizontal and vertical directions;
An anchor pin fixing step (S300) that is embedded in the slope so that the anchor ring 31 of the anchor pin 30 is caught in the intersection portion of the horizontal wire 21 and the vertical wire 22;
Landing pin fixing step (S400) is embedded in the slope so that the landing ring 41 of the landing pin 40 is caught in the wire mesh 10 exposed between the horizontal wire 21 and the vertical wire 22; And
The hot pin cover step (S500) is applied to the hot cray 50 is applied to the wire mesh 10 fixed to the slope by the anchor pin 30 and the landing pin 40,
The hot cray cover step (S500) is a clay ball molding step (S510) for forming a clay containing water in the form of a ball;
A clay ball heating step (S520) in which viscosity is removed by heating the clay formed in the ball shape;
Clay ball cooling step (S530) for cooling the heated clay ball (51); And
Clay ball 51 through the clay ball forming step (S510), clay ball heating step (S520) and clay ball cooling step (S530) is mixed in the artificial clay 53 having a fiber-based material 52 Slope recording method using a hot cray characterized in that the ball mixing step (S540). delete The method of claim 1,
Slope greening method using hot cray, characterized in that the green pigment is added to the artificial clay 53 during the clay ball mixing step (S540). In the inclined greening structure using a hot cradle, which is applied to the surface of the inclined surface and cured,
The greening structure is arranged to cross the horizontal wire 21 and the vertical wire 22 in the horizontal and vertical directions on the surface of the wire mesh 10 covered on the slope 60, respectively, the horizontal wire 21 and vertical The wire mesh 22 is embedded in the slope 60 so that the anchor ring 31 of the anchor pin 30 is caught at the cross section, and the wire mesh 10 exposed between the horizontal wire 21 and the vertical wire 22 is exposed. ) So that the landing ring 41 of the landing pin 40 is embedded in the slope 60 to be hooked, and fixed to the slope 60 by the anchor pin 30 and the landing pin 40. The hot cray (50) is covered, the hot cray (50) is heated to the clay formed in the ball shape clay ball 51 is removed from the artificial clay 53 having the fibrous base material (52) Sloped greening structure using a hot cray characterized in that the mixing. delete 5. The method of claim 4,
The fiber-based material 52 is formed of nylon, but sloped greening structure using hot cray, characterized in that formed to have a length of 40 ~ 50mm. 5. The method of claim 4,
The artificial soil 53 is a sloped greening structure using a hot cray, characterized in that the green pigment is added.

Images