KR101334975B1 - Construction method for gabion formed on river slopes - Google Patents

Abstract

The present invention relates to a construction method for planting gabions to stably maintain the outer shape of a gabion body during construction and to enable planting on the gabion. To achieve this purpose, the construction method for planting gabions comprises: a step of arranging the ground in the cutting areas and the slopes of a river (a); a step of assembling gabion bodies (b); a step of fastening the gabion bodies (c); a step of injecting stone into the gabion bodies by spaces partitioned by wire mesh partitions (d); a step of installing a fixing unit to the top of the contacting sides of the neighboring gabion bodies (e); a step of fastening one end of a connection line to a wire mesh partition and the other end of the connection line to the fixing unit (f); a step of installing a front planting cover mesh on the remaining gabion bodies after the injection of the stone (g); a step of filling the top of the gabion bodies with soil and compacting the soil (h); a step of unfastening one end of the connection line and removing the fixing unit from the top of the sides of the gabion bodies (i); a step of scattering seeds for planting on the top of the soil after the arrangement of the soil (j); a step of installing a top planting cover mesh on the top of the soil (k); a step of exposing one end of the connection line through the top planting cover mesh (l); and a step of placing the top wire mesh of the gabion body on the top of the top planting cover mesh and fastening one end of the connection line to the top wire mesh (m). [Reference numerals] (S10) Step of arranging the ground in the river;(S100) Step of arranging the soil and scattering seeds for planting;(S110) Step of installing a top planting cover;(S120) Step of exposing the connection line;(S130) Step of installing a top wire mesh;(S140) Step of combining the connection line and the top wire mesh;(S20) Step of assembling the body of a gabion;(S30) Step of arranging the gabion body and then combining;(S40) Step of inputting stone materials;(S50) Step of installing a fixing unit;(S60) Step of combining the connection line;(S70) Step of installing the planting cover;(S80) Step of filling earth and sand and tramping;(S90) Step of removing the fixing unit

Description

Vegetation gabion formed on river slopes or incisions {Construction method for gabion formed on river slopes}

The present invention relates to a vegetation gabion construction method formed on a river slope or incision site, and more specifically, to present a construction method that can maintain the appearance of the gabion main body stably during construction stable construction of the gabion body by allowing the vegetation The present invention relates to a method of constructing a vegetation gabion that can improve the stability of the river slope or the entire incision through the vegetation.

On slopes such as river banks, incisions, or lakes, structures are installed to prevent soil loss or water loss. Construction methods include stone pasting method that combines cement after lamination of stone, concrete block method, and gabion method of filling stone into wire mesh.

However, the conventional method has a problem that the vegetation is difficult to look good and not environmentally friendly. In order to improve this, Korean Patent No. 10-432855 (Registration Date: May 13, 2004) provides a method of constructing a revetment work that prevents the loss of soil constituting the revetment work and allows plant seeds to grow. It is characterized by. However, the above technique may have difficulty in construction because the soil escapes to the front part of the gabion when the revetment is formed on the slope through the process of covering the soil cover only at the upper part, and the connecting member is filled in the stone and soil filling process. There is a concern that the stone and soil may be buried, there is a problem that the construction time may be delayed in the process of finding the connecting member.

KR 10-432855 B 2004. 05. 13.

The present invention was created to solve the problems of the prior art, according to the present invention can be maintained in the appearance of the gabion main body stably during construction, the gabion main body after each construction is made stable, river slope or The present invention relates to a vegetation gabion construction method that is formed on an environment-friendly river slope or incision by growing plants in a state where the incision is settled evenly and stably.

Vegetation gabion construction method of the present invention for achieving the above object, (a) the ground clearance step of the river slope or incision ground to clean up the foundation of the slope or incision ground of the river is a vegetation gabion; (b) assembling the gabion main body using a front wire mesh, a rear wire mesh, a side wire mesh, a lower wire mesh and a partition wire mesh used for vegetation gabion construction; (c) sequentially arranging the assembled gabion bodies so as to be adjacent to each other on a clean stream slope or incision; (d) injecting stone for each space partitioned by the partition wire mesh of the assembled gabion body; (e) after the stone is put, installing the fixing means on the upper side of the mutual contact between the mutually bound gabion main body; (f) binding one end of the connection bundle line to the fixing means in a state where one end of the connection bundle line is bound to the partition wire mesh of the gabion body; (g) installing a vegetation coverlet for the front surface which can cover the inside of the front wire mesh and a part of the upper surface of the upper space of the gabion body main body remaining with the stone; (h) filling the earth and sand in the upper space of the gabion main body into which the stone is injected; (i) removing the fixing means from the upper side of the gabion body after releasing one end of the connecting tie wire which is mutually bound with the fixing means; (j) spraying the vegetation seeds in the state of maintaining the upper surface of the soil after removal of the fixing means; (k) After spraying the vegetation seeds, the soil to which vegetation seeds are sprayed in a state in which the portion that can cover a portion of the upper surface of the front vegetation coverlet installed in the step (g) is located on the upper surface of the soil Installing an upper vegetation coverlet on an upper surface of the upper surface; (l) exposing one end of the tie bundle line from which the binding is released from the fixing means through the upper vegetation coverlet; And (m) disposing the upper wire mesh of the gabion body to the upper portion of the vegetation coverlet for the upper end with the one end of the tie bundle exposed to the upper portion, and then binding one end of the tie wire to the upper wire mesh to couple to the upper wire mesh. Characterized in that made.

In addition, the partition wire mesh of the gabion body according to the present invention is made of a welded wire mesh of the rectangular shape, the vertical lines coupled to the uppermost horizontal line is to have an end portion formed by being finished at least once in the uppermost horizontal line in the welded state with the uppermost horizontal line. The partition wire mesh is characterized by being formed at a height of 1/4 to 3/4 of the height of the gabion main body.

On the other hand, in the present invention, when the fixing means is installed in step (d), the auxiliary fixing means is further provided for each of the front wire mesh that the mutually bound gabion body contact each other, one end of the auxiliary fixing means of the river slope or incision It is characterized in that the insert is fixed to the ground.

According to the present invention, it is possible to prevent deformation of the appearance such as dents of the gabion body through the fixing means formed on the upper side and the connecting tie line connected to the fixing means, and the slope or incision of the stream is formed evenly through this. have.

In addition, according to the present invention, since the tie bundle line can be continuously exposed to the upper part of the soil during the construction process, the coupling of the tie wire and the upper wire mesh can be easily made at the time of construction, thereby simplifying the entire construction work and In addition, construction costs can be reduced.

In addition, according to the present invention, since the fixing means can be fixed through the connecting tie, there is no need for a separate means for fixing the fixing means that can flow down the slope or incision of the stream during the construction process have.

In addition, according to the present invention, the vegetation can be moisturized and solar blocking of the vegetation through the vegetation cover can be effectively made, the vegetation of the seed, through the part of the vegetation coverlet is installed inside the front wire mesh of the upper stone The wire mesh can effectively block the loss of soil.

1 is a flow chart showing a vegetation gabion construction method formed on the river slope or incision according to the present invention.
2 is a view showing a river ground clearance process of the construction method according to the invention.
Figure 3 is a view showing a gabion body assembly process of the construction method according to the invention.
Figure 4 is a view showing a state of binding after placing a plurality of gabion body in the river slope or incision in the construction method according to the invention.
5 is a view showing a stone filling process of the construction method according to the invention.
6 is a view showing a process of installing the fixing means of the construction method according to the invention.
7 is a view showing a state in which the vegetation coverlet installed to cover a part of the upper space of the gabion body main body after the stone is put in the construction method according to the present invention.
8 is a view showing the soil filling and compacting process of the construction method according to the invention.
9 is a view showing a state in which the fixing means is removed of the construction method according to the invention.
10 is a view showing a vegetation seed spraying of the construction method according to the invention.
11 is a view showing a vegetation coverlet installation process of the construction method according to the invention.
12 is a view showing a process of binding the tie wire and the upper wire mesh after the installation of the upper wire mesh in the construction method according to the present invention.
Figure 13 is a view showing the completed vegetation gabion in accordance with the construction method according to the invention.
14 is a view showing the vegetation made to the vegetation gabion completed according to the construction method according to the invention.

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

1 is a flow chart showing a vegetation gabion construction method formed on a river slope or incision according to the present invention, Figures 2 to 12 is a view showing the construction process according to the flow chart of Figure 1, Figure 13 according to the present invention The drawing shows the completion of the vegetation gabion according to the construction method.

According to the present invention, the vegetation gabion construction process in which the gabion main body 100 is continuously formed by neighboring neighboring, first, the process of arranging the foundation of the ground such as slopes, incisions, etc. of the river where the gabion main body is installed (S10) is performed. . It is necessary to go through the planarization process, etc. to facilitate the construction of vegetation gabions on slopes or slopes of the river.

Figure 2 is a view showing the process of cleaning the river ground of the construction method according to the invention, Figure 2 (a) shows a state in which the slopes or incisions of the stream is arranged to form vegetation gabion, Figure 2 (b) is summarized Non-woven fabric 900 is shown installed on the slope or incision of the river. The nonwoven fabric serves to stably support the vegetation gabion installed on the soil and the top of the slope or incision.

After the ground of the river slope or the incision is cleared, the gabion main body is assembled to appropriately correspond to the slope of the river slope or the incision (S20). 3 is a view showing the assembly process of the gabion body 100, the gabion body according to the present invention is the front wire mesh 110, the rear wire mesh 120, the side wire mesh 130, the upper wire mesh 140 and the lower wire mesh ( It is made of 150, the partition wire mesh 160 for the compartment is further provided inside the gabion body. The front wire mesh, the back wire mesh, the side wire mesh, the upper wire mesh, the lower wire mesh and the partition wire mesh are to have a form in which a plurality of horizontal lines and vertical lines are combined in the form of mutual welding or twisting. Particularly, in the case of the partition wire mesh, a plurality of horizontal wires and vertical lines may be formed in a state in which a plurality of horizontal wires and vertical lines are intersected, and a rectangular weld wire mesh welded to each other at an intersection point may be used. In the state can be formed by finishing one or more times in the uppermost horizontal line.

 The gabion body assembly process of step S20 is to assemble the front wire mesh, the back wire mesh, the side wire mesh, the lower wire mesh and the partition wire mesh inside except the upper wire mesh 140, and the upper wire mesh is one of the last steps of the construction process. The process of installing the upper wire mesh will be described later. FIG. 3 (a) shows that the front wire mesh 110, the rear wire mesh 120, and the partition wire mesh 160 may be combined in a state in which both sides of the lower wire mesh 150 stand up to form the side wire mesh 130. 3 (b) shows a state in which each of the wire meshes except the upper wire mesh is coupled to each other.

In the gabion body assembly process of the present invention, the wire meshes may be coupled to each other by mutual welding, or may be coupled to each other using a binding member such as a wire, and the coupling method between the wire meshes is not particularly limited. However, the partition wire mesh applied to the present invention allows the vertical lines coupled to the uppermost horizontal line to be formed by finishing the uppermost horizontal line one or more times. Referring to FIG. 2 (c), it can be seen that an end portion 161 is formed in which the vertical lines are finished one or more times in the horizontal line at the top of the partition wire mesh, and the manufacture of the end wire mesh is registered after filing by the present applicant. It can be manufactured using a wire frame finishing device of the Patent No. 10-1219403 (Registration Date: 2013. 01. 02.).

According to the present invention, the partition wire mesh is to support the stone formed inside the wire mesh, and may serve to prevent the coupling between the wire mesh to be broken or relaxed by the weight of the stone. In other words, when there is no partition wire mesh, the downward pull of stone may occur in the inside of the wire mesh formed on the inclined surface, thereby overloading the front wire mesh of the gabion main body, and also appearing to be placed on the front wire mesh safety There is also a problem that is not good. When the partition wire mesh is formed at regular intervals inside the gabion body, the downward pull of the stone can be prevented, so that the pressure of the stone applied to the front wire mesh can be dispersed, and the filling phenomenon can also be prevented.

In the present invention, by forming an end portion at the upper end of the partition wire mesh can prevent the coupling between the horizontal line and the vertical line of the wire mesh by the pressure of the stone applied to the partition wire mesh. If the welded connection between the top and bottom lines of the partition wire mesh breaks, there is a problem that the stone can move downward through the partition wire net, but if the vertical lines are finished more than once on the top horizontal line, Downward movement can be prevented.

Referring to Figure 3, the partition wire mesh 160 of the present invention is to be formed shorter than the height of the gabion body. The partition wire mesh is intended to maintain the stable state of the vegetation gabion itself by preventing the overloading of the front of the gabion main body by preventing the downward pull phenomenon of the stone when filling the stone. Therefore, the partition wire mesh is sufficient to be formed only at a height enough to divide the stone formed in the lower portion of the gabion main body into a predetermined section, and does not necessarily have to be formed to the height of the gabion main body.

In the present invention, the height of the partition wire mesh to be formed to the height of 1/4 ~ 3/4 of the height of the gabion main body, so that the stone can be formed only to the height of filling. If the stone is filled to less than 1/4, the gabion body is insufficiently fixed and supported, or the soil is excessively formed to form an excessive amount of water, which is not preferable, and it is not preferable, and the stone exceeds 3/4. When the filling is formed, the gabion body can be fixed and supported, but due to the excessive input of the stone is not preferable due to excessive pressure on the partition wire mesh itself, and the filling of the soil is not desirable because the vegetation is not easy.

In order to ensure that the gabion body is fixed and supported on the slopes or incisions of the river stably, the soil is filled with soil at an appropriate height so that the vegetation can be made smoothly. It is preferable that the filling is formed, and accordingly, the height of the partition wire mesh may also be formed to a height of 1/3 to 2/3.

After the gabion main body is assembled except the upper wire mesh, the gabion main body is disposed on the slope or incision of the river, and then a process of binding to each other is performed (S30). Gabion main body according to the present invention is to be formed so as to be continuous adjacent to each other in the left and right width direction and / or vertical length direction over the slope or incision of the stream. Figure 4 is a view showing the state after binding a plurality of gabion body after the construction method according to the present invention, the construction to be described later by being coupled to each other using a binding member (not shown) such as wire between the neighboring gabion body Prevent the gabion body from flowing during the process.

After the gabion body is assembled, it is possible to connect the connecting bundle 700 to the partition wire mesh. The tie wire is finally connected to the upper wire mesh 140 to maintain the gabion body in a stable state as a whole, the tie wire is generally wire can be used, if necessary, flexible and moisture and Synthetic resin material resistant to the external environment may be used.

The connecting bundle line may be prepared by connecting one end of the connecting bundle line to the cocktail wire mesh in any of the steps S20 or S30, and before the coupling means between the fixing means and the connecting bundle line is made in step S40 or In step S50 it is possible to interconnect between one end of the tie and the partition wire mesh.

4 to 12, it can be seen that two connecting bundle lines are connected in a pair for each partition wire mesh. The number of tie bundles can be increased or decreased as necessary, but at least two tie wires are preferably connected in a pair for connection of the fixing means installed on the side of the neighboring gabion main body. When the two tie wires are connected in a pair, the tie wires are connected at one end to a point where the divider wire mesh can be divided into three parts so that the other end is balanced in connection with the fixing means or the upper wire mesh. To lose.

After the gabion main body is disposed on the river slope or incision site and then bound to each other, the stone 200 is to be put in each space partitioned by the partition wire mesh (S40). 5 is a view showing a stone filling process, showing that the stone is formed at the height of the partition wire mesh.

As described above, the water can be smoothly discharged while fixing and supporting the gabion body by filling the stone. As an example of the stone applied to the present invention, a heavy aggregate having a straight line of 10 to 30 cm may be used. In order to prevent the stone from escaping from the gabion body, the size of the mesh eye of the gabion body is smaller than that of the filled stone. It is preferable to be made.

After the stone is put, the fixing means 500 is installed on the upper sides of the gabion main body contact with each other, and after the fixing means is installed, the other end of the connecting tie line 700, one end of which is bound to the partition wire mesh of the gabion main body A process of binding one end to the fixing means is performed (S50 to S60). Figure 6 is a view showing a process for installing the fixing means according to the present invention, Figure 6 (a) is a fastening means in the state in which the two connecting wires are connected to each other in the partition wire mesh of the gabion main body formed in a pair It shows how it is placed. In addition, Figure 6 (b) shows that the fixing means are located on each side of the upper side, in the state in which the fixing means is located on the upper side is to be combined with the connecting tie line. 6 (c) shows an enlarged view of the fixing means 500 and the tie bundle line 700 are mutually bound.

Referring to FIG. 6, it can be seen that the other ends of the two lines of the connecting bundle line connected to the partition wire net 160 are respectively connected to the left and right fixing means. The connecting bundle line is to maintain the overall stable state of the gabion body by strengthening the binding of the wire manganese in the state of being finally connected to the upper wire mesh 140, but the gabion during the process of constructing the gabion body on the slope or incision of the river It is also necessary to prevent damage to the body. That is, by binding the fixing means 500 and the connecting tie wire to each other, it is possible to prevent the problem that the side portion of the gabion body is crushed or damaged due to the weight due to the input equipment or subsidiary materials during the stone input and / or the earth and sand input. .

If the construction is completed in the state where the gabion body is crushed or damaged, the slope or incision of the river is uneven and the completion of the vegetation gabion is reduced. In other words, while the shape of the entire vegetation gabion is distorted due to the weight of the stone, the lateral wire mesh popping up to one side due to the weight of the stone, the other end of the connecting bundle line connected to the partition wire mesh is connected to the side wire mesh. When tied together in a fastening means firmly fixed, the side wire mesh is immediately erected, it is possible to prevent side dents or breakage of the vegetation gabion through this, there is an advantage that the overall shape of the vegetation gabion is formed stably.

The fixing means may be utilized as a means for continuously exposing one end of the connection bundle line to the upper portion in the stone and earth filling process, through which the connection bundle line is buried in the stone or soil in the stone and earth filling process Problems such as delay in construction can be prevented. When using the tie wire, a separate connecting means for connecting the fixing means and the side wire mesh can be omitted, so that the construction time can be shortened and the construction cost can also be reduced.

In order to further strengthen the binding between the fixing means and the side wire mesh, the fixing means and the side wire mesh may be coupled to each other using a binding member such as a wire. At this time, the binding position may be an intermediate portion of the position connected through the partition wire mesh and the connecting tie wire, by fastening the fastening means tightly with the fixing means in the state of passing the binding member such as wire to the top of the side wire mesh, Support the lateral wire mesh so that the construction can be done with the gabion main body as a whole stable.

6 (b) and 6 (c), it can be seen that the auxiliary fixing means 600 may be further provided between the lowermost front wire meshes to which the mutually bound gabion bodies contact each other. In view of the nature that the gabion body of the present invention is constructed on a slope or inclined incision in the river, the auxiliary fixing means may be installed as necessary for the support of the gabion body. That is, the auxiliary fixing means may be provided in order to install the gabion body of the present invention in a position where the inclination is relatively steep, or to effectively block the frontal phenomenon of the gabion body. In addition, the auxiliary fixing means is preferably such that one end is inserted into the slope of the river or the ground of the incision for the support of the gabion body.

The material of the fixing means and the auxiliary fixing means is not particularly limited, but may be a metal material or a synthetic resin material having good strength, and the fixing means is a length corresponding to the length of the side wire mesh, which is slightly longer or shorter than the length of the side wire mesh. It should be made to the degree, and in the case of the auxiliary fixing means to be formed in the same length or slightly shorter length of the front wire mesh after fixing and inserted in the ground of the river slope or incision site.

After the fixing means and the tie line is bound, the stone is put in and installs the vegetation coverlet (400b) for the front surface that can cover the inner portion of the front wire mesh and the upper surface of the remaining space of the upper gabion main body (S70). 7 is a view showing a state in which the vegetation coverlet is installed to cover a part of the upper space of the gabion body main body left after the stone is inserted, Figure 7 (a) is a gabion body body with the front vegetation cover (400b) is located at the bottom 7 (b) shows an enlarged view of the front vegetation coverlet partially protruded outward from the inside of the front wire mesh in a state in which the front vegetation coverlet is partially laid on the top of the stone. .

If the front vegetation coverlet is not installed, the soil may flow through the space of the front wire mesh and be lost in the process of filling the soil on the upper part of the stone, which may lead to a material loss and a long construction period. . In the present invention, by installing a vegetation coverlet for the front of the stone upper part, the inner side of the front wire mesh and the upper part of the earth to the extent that the part is exposed, it is possible to prevent the increase in the construction cost and construction period due to the earth and sand loss room and the earth and sand room Make sure

After the front vegetation coverlet is installed, the process of compacting while filling the earth and sand 300 in the upper space (S80). 8 is a view showing a process of filling and compacting the soil, so that the soil is easily settled on the top of the stone through the process of sprinkling with water while putting the soil. In the present invention, since the soil bundle is made in the state in which the tie bundle 700 is connected to the fixing means 500, it is possible to solve the problem that the tie bundle is buried in the soil during construction. After the soil is compacted, the part of the front vegetation coverlet that protrudes outward beyond the inside of the front wire mesh can be positioned as the top of the soil.

After filling and compacting the soil, the fixing bundle 500 and the binding bundle line 700 mutually released are released, and the fixing means is removed from the upper side of the gabion body (S90). The fixing means is necessary in order to prevent the problem that the side part of the gabion main body is crushed or damaged due to the weight of the input equipment or subsidiary materials, etc., when the stone is inserted and / or the soil is put together in the state of being tied with the connecting bundle line. After filling is complete it needs to be removed.

If there is a binding member used for binding the fixing means and the side wire mesh, the binding member may also be removed when the fixing means is removed. When the auxiliary fixing means 600 is installed, the auxiliary fixing means may also be removed, but if it is determined that the slope is steep or necessary, the auxiliary fixing means may be maintained without being removed for stable support of the gabion body. 9 shows a state in which the fixing means and / or the auxiliary fixing means are removed.

After the fixing means is removed, the top surface of the soil is maintained to be made flat, and then the vegetation seeds 800 are sprayed (S100). Figure 10 shows the vegetation seeds sprayed during the construction method according to the invention.

The vegetation seeds are intended to allow the gabion body of the present invention to act as a vegetation gabion, and when the vegetation seeds are sprayed on the top of the earth and sand, the vegetation coverlet 400a to be described later is installed on the top. Conditions are prepared for germination and growth can be made smoothly. Vegetation seeds can be sprayed by selecting the appropriate type according to the surrounding environment where the gabion body is constructed.

Vegetation seeds can be sprayed together with vegetation greening soil. By spraying the vegetation greening soil with the seeds on the slope of the slope and the revetment used for greening the slopes, it is possible to maintain the hardness and moisture suitable for the growth of plants in poor soil. For example, vegetation green soil may consist of a mixture of peat, sewage, purified sludge, pulp, paper sludge, organic nitrogen, and masato, and the height of 1/40 to 1/10 of the height of the filled soil on the top of the stone. Spray with In the present invention, 5 to 10% by weight of peat, 5 to 10% by weight of sewage and purified sludge, 10 to 20% by weight of pulp and paper sludge, 20 to 30% by weight of organic matter and 50 to 60% by weight of masato By mixing the vegetation green soil with the vegetation seeds in a state in which the vegetation green soil is formed, the vegetation of the seeds may be made stable. In the case of the present invention, the vegetation seeds are to use herbal-oriented seeds, the vegetation seeds are 30 to 40% by weight of wildflowers such as Golden Rooster, Ludvecchia, Cosmos, Gujeolcho, Sticky Sprouts, and Tolsque Cue, Kentucky Bluegrass, Ferrer It is made of 60 to 70% by weight of the paper species of grass such as Nilaigrass.

In the state in which the vegetation seeds are sprayed, a portion of the front vegetation coverlet 400b that can cover a part of the upper surface is positioned on the upper surface of the earth and sand, and the upper portion is disposed on the upper surface of the earth and sand sprayed with vegetation seeds. The vegetation coverlet (400a) is to be installed, and one end of the connection bundle line from which the binding is released from the fixing means is exposed through the upper vegetation coverlet (S110 to S120). Figure 11 (a) shows the connection vegetation line 700 is projected to the upper portion of the vegetation coverlet for the upper vegetation coverlet is installed on the top of the soil sprayed vegetation seeds, 11 (b) is an enlarged view of the lower portion of the front wire mesh, vegetation seeds 800 in the state that the front vegetation coverlets (400b) covering the top of the earth and sand 300 is sprayed, then the vegetation cover for the upper The process of installing the let (400a) is shown. In addition, Figure 11 (a) and Figure 11 (b) shows the connection bundle line 700 is exposed, the connection bundle line is a length sufficient for coupling with the upper wire mesh in the state connected to the partition wire mesh To be made.

The front or upper vegetation coverlet according to the present invention may use the vegetation coverlet described in Patent No. 10-1055295 filed after the applicant filed, the vegetation coverlet for helping the growth of seeds As, it is to be formed by compressing the coconut fiber, so that the PP seed net can be included so that the earth and sand is not escaped through the front or upper vegetation coverlet. PP stands for polypropylene and refers to a thermoplastic resin representative of petrochemical products. It is characterized by excellent tensile strength, impact strength and surface strength. The PP seed net using the P, P as a seed net may prevent soil from escaping to the outside and allow the seed to grow stably in the vegetation coverlet. The vegetation coverlet is provided to prevent the phenomenon of germination during the initial growth process by being exposed to the external environment, such as the sun, as well as to provide a shade and maintain moisture necessary for the initial germination of the seed, It acts to make growth stable.

After the upper vegetation coverlet is installed, the connecting bundle line is exposed to the upper portion of the vegetation coverlet, so that the upper wire mesh 140 of the gabion main body is disposed on the upper portion of the vegetation coverlet, and the connecting bundle line is connected to the upper wire mesh. By binding to and combined in to complete the construction of the vegetation wire mesh (S130 ~ S140). 12 is a process of completing the vegetation gabion by binding the connecting bundle line and the upper wire mesh in a state in which the upper wire mesh 140 is installed on the upper portion of the upper vegetation coverlet, and the connecting bundle line is exposed to the upper portion of the upper wire mesh. Is showing. Figure 12 (a) shows the upper wire mesh 140 is installed on top of the vegetation coverlet after the connection bundle line exposed to the upper portion of the upper wire mesh, Figure 12 (b) is the connection bundle line It shows the binding to the upper wire mesh. The upper wire mesh is to be bound to each other using a binding member such as a wire adjacent to the front wire mesh, rear wire mesh and side wire mesh.

Figure 13 shows the completed vegetation gabion in accordance with the construction method according to the present invention, Figure 14 shows the appearance of the vegetation made to the completed vegetation gabion.

According to the present invention, the deformation of the appearance such as dent of the gabion body is prevented through the fixing means formed on the upper side and the connecting tie line that is bound to the fixing means, through which the slope or incision of the river is formed evenly In addition, since the connecting bundle line can be continuously exposed to the upper part of the earth and sand during the construction process, the connecting bundle line and the upper wire mesh can be easily combined at the time of construction, thereby simplifying the whole construction work and the construction cost. This can be reduced. In addition, since the fixing means can be fixed through the tie bundle line, no additional means for fixing the fixing means that can flow from the slope or the incision of the river during the construction process is not required. Moisturizing and sun protection of the seeds can be made so that the vegetation of the seeds can be made effectively.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: gabion body
110: front wire mesh 120: rear wire mesh
130: side wire mesh 140: upper wire mesh
150: wire mesh
160: partition wire mesh 161: end edge
200: stone 300: earth and sand
400a: upper vegetation coverlet 400b: front vegetation coverlet
500: fixing means 600: auxiliary fixing means
700: Bundle 800: Vegetation Seed
900: non-woven

Claims (4)

In the vegetation gabion construction method formed on the river slope or incision,
(a) stream ground clearance step of arranging the ground of river slopes or incisions where vegetation gabions are constructed;
(b) assembling the gabion main body using a front wire mesh, a rear wire mesh, a side wire mesh, a lower wire mesh and a partition wire mesh used for vegetation gabion construction;
(c) sequentially arranging the assembled gabion bodies so as to be adjacent to each other on a clean stream slope or incision;
(d) injecting stone for each space partitioned by the partition wire mesh of the assembled gabion body;
(e) after the stone is put, installing the fixing means on the upper side of the mutual contact between the mutually bound gabion main body;
(f) binding one end of the connection bundle line to the fixing means in a state where one end of the connection bundle line is bound to the partition wire mesh of the gabion body;
(g) installing a vegetation coverlet for the front surface which can cover the inside of the front wire mesh and a part of the upper surface of the upper space of the gabion body main body remaining with the stone;
(h) filling the earth and sand in the upper space of the gabion main body into which the stone is injected;
(i) removing the fixing means from the upper side of the gabion body after releasing one end of the connecting tie wire which is mutually bound with the fixing means;
(j) spraying the vegetation seeds in the state of maintaining the upper surface of the soil after removal of the fixing means;
(k) After spraying the vegetation seeds, the soil to which vegetation seeds are sprayed in a state in which the portion that can cover a portion of the upper surface of the front vegetation coverlet installed in the step (g) is located on the upper surface of the soil Installing an upper vegetation coverlet on an upper surface of the upper surface;
(l) exposing one end of the tie bundle line from which the binding is released from the fixing means through the upper vegetation coverlet; And
(m) arranging an upper wire mesh of the gabion body to an upper portion of the upper vegetation coverlet in a state where one end of the tie bundle is exposed to the upper portion, and then binding one end of the tie bundle to the upper wire mesh;
Vegetation gabion construction method formed on the river slope or incision consisting of.
The method of claim 1,
The partition wire mesh is formed of a welded wire mesh having a rectangular shape, and the river slope or incision is characterized in that the vertical lines coupled to the uppermost horizontal line has an end portion formed by being finished at least once in the uppermost horizontal line in the welded state with the uppermost horizontal line. Vegetation gabion construction method formed on.
The method of claim 1,
The partition wire mesh is a vegetation gabion construction method formed on a river slope or incision, characterized in that formed in the height of 1/4 ~ 3/4 of the height of the gabion body.
The method of claim 1,
When installing the fixing means in the step (d),
Auxiliary fixing means is further provided for each of the front wire meshes which are mutually bound to the gabion main body, and one end of the auxiliary fixing means can be inserted into and fixed on the slope of the river or the ground of the cutout. Vegetation gabion construction method formed in the incision site.

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