KR101250304B1 - Body-supporting vegetational gabion - Google Patents

Abstract

PURPOSE: A body supporting type vegetation gabion is provided to integrally connect the front wire mesh, rear wire mesh, upper wire mesh, lower wire mesh, and side wire mesh of the gabion, thereby reducing the construction period and cost. CONSTITUTION: A body supporting type vegetation gabion includes a gabion body, a gutter unit, a vegetation maintaining unit, a coconut net, a partition wire mesh, a bulge preventing unit, a body supporting wire mesh, and a bond supporting rod. The gabion body comprises a front wire mesh, a rear wire mesh, an upper wire mesh, a lower wire mesh, and a side wire mesh. The gutter unit is formed in the partial zone of the lower wire mesh adjacent to the front wire mesh. The vegetation maintaining unit and the coconut net are formed throughout the partial zone of the lower wire mesh, the whole zone of the front wire mesh, and the partial zone of the upper wire mesh. The partition wire mesh is formed to partition the gabion into certain zones. The bulge preventing rod is formed to mutually connect the front wire mesh and the rear wire mesh. The body supporting wire mesh is coupled to the lower wire mesh, and protrudes from the lower wire mesh rearwards. The bond supporting rod connects the rear wire mesh and the body supporting wire mesh so that the rear wire mesh and the body supporting wire mesh can be mutually coupled.

Description

Body-Supporting Vegetation Wire Basket {Body-supporting vegetational gabion}

The present invention relates to a body-supported vegetation wire basket, and more specifically, through the body support wire mesh coupled to the lower wire mesh of the wire basket body to enable a stable support of the wire mesh basket body in a steep slope, preventing horizontal rods and fullness Main body support type, so that the front wire mesh does not protrude to the front by the pressure of the earth and sand to maintain the beautiful aesthetic, and is integrated with the front surface without earth and sand loss even after construction through the rod attached resin panel. It is about a vegetation wire basket.

In the case of a concrete block of a general type installed on the surface of the river, the concrete itself is not environmentally friendly, and also because of the nature of the concrete vegetation is not made because there is an aesthetic problem. Therefore, in the case of the revetment block made of concrete, it is installed in various places in the country small river in the state that the replacement is not appropriate, but the soil is difficult to grow because the soil is not able to breathe, it is vulnerable to natural disasters have. In addition, when the concrete revetment block has to be disposed of at the end of its life, the waste reaches tens to hundreds of tons, which is environmentally undesirable.

In order to solve this problem, Korean Laid-Open Patent Publication No. 2010-67565 (published date: June 21, 2010) enables the growth of plants through the selective filling of vegetation on the cage, and the back basket is provided with a wire basket. It is characterized by supporting. However, the above technique has a problem in that the vegetation material is pushed out by the pressure of the stone filled in the wire basket and the effect of the vegetation is lowered. In addition, the above technology is a structure in which the rear reinforcement is connected to the rear portion of the wire basket in a joint manner, when the load is directed to the front of the wire basket by inclining the wire basket inclined within, such that the joint connection portion is broken and practical reinforcement is not achieved. there is a problem.

Korean Patent Publication No. 10-1055295 (2011. 08. 02.) registered after filed by the present applicant to form a grid in the form of a ladle to solve the problem of the technology to be located inside the wire basket However, the grid is formed so as to extend to the rear side in the state formed adjacent to the front portion, the lower portion, the rear portion of the wire basket, it characterized in that the soil outflow to the front or the reinforcing joint material is improved. However, in the case of the above technique, there is a problem in that the construction cost is increased by using a large amount of grid, and the construction period is increased by forming individual wire baskets in small scale. In addition, there is a problem that the supporting force is lowered as the grid extending to the rear side protrudes from the upper part of the wire basket, and the front part is bulging out due to the pressure of the earth and sand, which is an internal filling material, so that the aesthetic problem is not good. have.

KR 2010-67565 A 2010. 06. 21. KR 10-1055295 B 2011. 08. 02.

The present invention was created to solve the problems of the prior art, according to the present invention by connecting a plurality of wire mesh, forming a wire mesh basket front, rear, top, bottom and side portion integrally the construction period and construction cost The lower wire mesh and the main body supporting wire mesh can be combined to enable stable support of the wire basket basket even in small streams with steep slopes, and prevent the front part from popping out through horizontal bars formed outside the front wire mesh. The present invention relates to a body-supported vegetation basket for maintaining the growth of seeds through the panel and at the same time to prevent the loss of soil inside.

Ecological block construction method of the present invention for achieving the above object, (a) spreading the wire mesh of the front, rear, top, bottom and side portions constituting the wire mesh basket body used for ecological block construction in accordance with the assembly position step; (b) after step (a), mutually binding the unrolled wire meshes; (c) after the step (b), installing a drip tray in a portion of the lower wire mesh forming the lower portion of the wire basket body; (d) after step (c), installing vegetation maintenance means over a portion of the lower wire mesh, an entire front portion of the wire mesh, and a portion of the upper wire mesh; (e) after the step (d), installing a coconut net over the same area where the vegetation maintenance means is installed; (f) after the step (e), the step of assembling the front, rear and side portion of the wire mesh constituting the wire basket body; (g) after step (f), installing a partition wire mesh to partition the inside of the assembled wire basket main body into a predetermined area; (h) after step (g), installing an anti-shipping rod connecting the assembled front wire mesh and the rear wire mesh for each predetermined area partitioned by the partition wire mesh; (i) after the step (h), installing a seed resin panel inside the front wire mesh of the wire basket main body; (j) after the step (i), in the state of placing the wire basket basket on the upper portion of the main body support wire mesh pre-installed at the construction site, binding the lower wire mesh of the wire mesh body and the main body support wire mesh; (k) after the step (j), filling the earth and sand inside the wire basket body; And (l) after step (k), assembling the upper wire mesh.

In another aspect, the present invention (m) after the step (l), the step of installing a nonwoven fabric over a portion of the upper wire mesh, the entire region of the rear portion of the wire mesh and a portion of the body support wire mesh; And (n) after the step (m), characterized in that it further comprises the step of filling the back-filling material in the area consisting of the rear portion wire mesh and the main body support wire mesh.

The present invention may further include a process of installing a binding support rod for coupling the main body support wire mesh with the rear support wire mesh when installing the main body support wire mesh formed in step (j).

On the other hand, the main body-supported vegetation basket of the present invention is a wire mesh basket body consisting of a front portion, a rear portion, an upper portion, a lower portion and a side portion wire mesh made of a mesh shape; A drip tray formed in a portion of the lower wire mesh of the wire basket body adjacent to the front wire mesh; Vegetation maintenance means and coconut net formed over a portion of the lower wire mesh, an entire region of the front wire mesh and a portion of the upper wire mesh; A partition wire mesh formed to partition the wire basket body into a predetermined region; An anti-shipping rod formed to interconnect the front wire mesh and the rear wire mesh; A main body support wire mesh coupled to a lower wire mesh of the wire mesh basket body and protruding from the lower wire mesh in a rearward direction; And a binding support rod formed to connect the rear portion wire mesh and the main body support wire mesh of the wire mesh basket body to each other.

In addition, the present invention is the end of the front wire mesh direction of the anti-shipping rod is connected to the horizontal bar is formed in a horizontal direction in the transverse direction of the outside of the front wire mesh, the end of the rear wire mesh direction of the anti-shipping rod is hooked with the rear wire mesh It is characterized in that the coupling formed through the part.

According to the present invention, the partition wire mesh is assembled later in a state in which a plurality of front, rear, top, bottom and side wire meshes constituting the wire basket body are assembled, thereby reducing the construction time and construction cost and economical.

In addition, according to the present invention, by having a horizontal rod of a predetermined length on the outside of the front wire mesh, and the horizontal bar is connected to the anti-burden rod, the front part does not protrude forward in spite of the pressure of the earth filled in the interior, There is a beautiful advantage.

In addition, according to the present invention, there is an advantage that can support the wire mesh basket body at a low cost by forming the body support wire mesh at the lower end of the lower wire mesh to bind to each other and at the same time again to bind the back wire mesh and the body support wire mesh with the binding support rod. .

1 is a flow chart illustrating a construction method of an ecological block using a body-supported vegetation wire basket according to the present invention.
Figure 2 is a view showing the unfolded wire mesh of the construction method of the ecological block according to the present invention.
3 is a view showing a state in which the wire mesh is bound in the construction method of the ecological block according to the present invention.
4 is a view showing a state in which the drip tray is installed in the construction method of the ecological block according to the present invention.
5 is a view showing a state in which the vegetation maintenance means is installed in the construction method of the ecological block according to the present invention.
6 is a view showing a state in which the coconut net of the construction method of the ecological block according to the invention installed.
7 is a view showing a state in which wire meshes other than the upper wire meshes are assembled to each other in the construction method of the ecological block according to the present invention.
8 is a view showing a partition wire mesh installed in the construction method of the ecological block according to the present invention.
9 is a view showing a state in which the anti-drunken bar is installed in the construction method of the ecological block according to the present invention.
10 is a view showing a state in which the resin panel with a seed installed in the construction method of the ecological block according to the present invention.
11 is a view showing a state in which the body support wire mesh is bound with the lower and rear wire mesh of the construction method of the ecological block according to the present invention.
12 is a view showing a state in which the earth and sand is filled in the wire basket body according to the present invention.
13 is a view showing a state in which the upper wire mesh of the construction method of the ecological block according to the present invention.
Figure 14 is a view showing a state in which a non-woven fabric is installed on the rear in a state in which the first stage of the ecological block is installed according to the present invention.
Figure 15 is a view showing a state in which the back filling material is filled in the back of the non-woven fabric of the ecological block according to the present invention.
Figure 16 is a view showing an example of the three-stage ecological block is installed in accordance with the present invention.
Figure 17 is a view showing the appearance of vegetation maintenance means, coconut net and seed resin panel formed adjacent to the inside of the front wire mesh of the present invention.
Figure 18 is a view showing the connection between the bar and the prevention bar formed in the present invention.
19 is a view showing in detail the binding of the body support wire mesh and the binding support rod formed in the present invention.
20 is a perspective view showing a state of completion of the ecological block of the present invention.

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

1 is a flow chart illustrating a construction method of an ecological block using a body-supported vegetation mesh basket according to the present invention, Figures 2 to 16 is an explanatory view showing a construction process according to the flow chart of FIG.

Vegetation wire basket according to the present invention is formed in one or more stages on the top of the ground stops after filling the ground of the river to form the ecological block. Accordingly, the present invention is subject to the condition that the ground of the river is stopped first, and then constructing the vegetation wire basket basket by sequentially raising the step on the suspended ground.

* In a state in which the ground of the river is arranged, the present invention is to install the main body supporting wire mesh 600 forming the vegetation wire basket in the corresponding position. The front wire mesh 110, the rear wire mesh 120, the upper wire mesh 130, the lower wire mesh 140 and the side wire mesh 150 constituting the wire mesh basket 100, the state unfolded near the construction site for assembly To be aligned to (S10). Referring to Figure 2, it can be seen that the wire mesh constituting the wire basket body is aligned in an unfolded state.

Wire mesh basket body 100 is applied to the present invention consists of a plurality of front wire mesh 110, rear wire mesh 120, the upper wire mesh 130 and the lower wire mesh 140, only the side portion wire mesh 150, both sides Each one is formed at. That is, instead of separately manufacturing and assembling each wire mesh basket by the front part, the rear part, the upper part, the lower part and the side part wire mesh in small scale, the partition which will be described later in the state where a large number of the front part, the rear part, the upper part and the lower part mesh except the side part are connected. By installing the wire mesh 160 therein, the construction period and the construction cost can be reduced than before. 2 shows that four wire baskets can be connected to form a wire basket body, but the number of wire mesh baskets assembled at one time can be added or subtracted as needed.

The front wire mesh 110 forming the wire mesh basket body may be formed in a more compact form than other wire meshes. After the soil is filled, pressure is applied from the top and the rear to the front part, and it is necessary to keep the distance between the horizontal wire and the vertical wire of the front wire mesh narrower than other wire meshes to withstand the pressure of the soil. However, because it is possible to withstand the pressure of the earth and sand through the horizontal bar to be described later, the wire spacing of the front wire mesh can be properly adjusted according to the needs, such as construction environment.

After each wire mesh is unfolded in the corresponding position for assembly, it is to bind to each other between the expanded wire mesh (S20). Wire mesh binding generally uses a spring-like binder to form a structure in which the binding is maintained even when both wire meshes are flowed for assembly. The binding member may use a known configuration generally used and is not particularly limited in the present invention.

3 shows the unfolded wire meshes bound together.

After the unfolded wire mesh is bound to each other to install the drip tray 200 (S30). The drip tray 200 is for maintaining the moisture required for plant growth in the wire basket main body as long as possible, and is formed in a portion of the lower wire mesh 140.

That is, the drip tray part may be formed at a portion adjacent to the front wire mesh of the lower wire mesh so that moisture may be maintained in the front portion where the coconut net 410 and the seed resin panel 420 which will be described later are located. When the drip tray is installed in the entire area of the lower wire mesh, there may be a problem of drainage, so that the coconut net and the seed tray resin panel are installed adjacent to the front part in order to maintain seed germination and growth.

The shape of the drip tray is not particularly limited, and for example, a flat vinyl can be used. 4 shows the drip tray installed in a part of the lower wire mesh.

After the installation of the drip tray is completed to install the vegetation maintenance means 300 adjacent to the front wire mesh 110 (S40). The vegetation maintenance means is made of a grid form so that the plant grows smoothly, it is preferably formed to maintain a more compact form than the front wire mesh (110).

17A is a view showing the vegetation maintenance means 300, the coconut net 410 and the seed resin panel 420 formed adjacent to the inside of the front wire mesh 110 of the present invention. It can be seen that the grid form. As a vegetation maintenance means to be applied to the present invention, a polypropylene net (commonly known as PP net), which is generally used, may be adopted. It also plays a role in keeping it from being picked up. The PP network, which is used as a vegetation maintenance means, has the advantage of being environmentally friendly as it can be recycled.

The vegetation maintenance means is to be formed over a portion of the lower wire mesh 140, the entire region of the front wire mesh 110 and a portion of the upper wire mesh 130. A drip tray is formed at a portion adjacent to the front part of the lower wire mesh. The vegetation holding means is to be formed over all or a portion of the drip tray is formed, and to be formed in a portion of the upper wire mesh.

When the wire basket main body is formed with a step toward the upper portion, vegetation is also made at the exposed portion of the upper wire mesh among the wire basket basket formed at the bottom, and the vegetation maintenance means is a part of the upper wire mesh so that the plant can grow smoothly. It can also be formed on the exposed part. 5 shows that the vegetation maintenance means is formed over a partial region of the lower wire mesh 140, an entire region of the front wire mesh 110, and a partial region of the upper wire mesh 130.

After the vegetation maintenance means is installed, the coconut net 410 is installed (S50). The coconut net is formed by compressing the coconut fiber, and serves to form a shade film so that the seeds attached to the seed-attached resin panel 420 to be described later can germinate easily. In addition, the coconut net can prevent the situation that the internal soil is lost to the outside through the front wire mesh due to the relatively dense characteristics.

The coconut net is to be installed in the same area as the vegetation maintenance means is installed. The installation range of the coconut net is not particularly limited, but the coconut net is located in the drip tray of the lower wire mesh so that the coconut net absorbs the moisture necessary for germination and growth of the seed and supplies the seed to the seed. . In addition, it is also located in some areas of the upper wire mesh, so that the water can be supplied to the plants growing through the upper wire mesh.

Referring to Figure 17a, the vegetation maintenance means 300 is formed adjacent to the inside of the front wire mesh 110, it can be seen that the coconut net 410 is formed adjacent to the back. 6 shows the coconut net 410 is installed in the same area on the surface on which the vegetation maintenance means is installed.

After the coconut net is installed, the front wire mesh 110, the rear wire mesh 120 and the side wire mesh 150 are assembled to be assembled to each other (S60). There may be a variety of binding devices for assembly, it is possible to use a known coupling means will not be described in detail here.

FIG. 7 shows a view in which wire meshes except for the upper wire mesh 130 are bound to each other, and the vegetation maintenance means 300 and the coconut net 410 formed in a portion of the upper wire mesh are partially protruded from the upper wire mesh. Able to know.

In the state in which the wire meshes except the upper wire meshes are assembled to each other, the partition wire mesh 160 is installed (S80). The partition wire mesh is formed in plural in the inside of the wire basket body, so that the inside of the wire basket body is divided into a predetermined area to fill the soil. In addition, the partition wire mesh allows the front wire mesh 110 and the rear wire mesh 120 to be connected to each other to withstand the pressure of the earth and sand in the ecological block is organically combined as a whole.

Although it is possible to prevent the full length of the front wire mesh through the binding of the bar and the horizontal bar to be described later, it is necessary to properly disperse the pressure of the earth and sand to maintain the length of the wire basket main body. Therefore, the present invention by installing the partition wire mesh 160 at a predetermined interval inside the wire basket body so that the ecological block can withstand the pressure of the earth and sand to maintain a stable form.

Preferably, the partition wire mesh is to be installed in a size that divides the size of the wire mesh that can be produced separately. That is, referring to Figure 2, it can be seen that there are four wire meshes that can be manufactured separately, as shown in Figure 8 can be installed partition wire mesh so that the inside of the wire mesh basket body is divided into four.

8 is a view illustrating a state in which a load preventing rod, which will be described later, is provided for convenience of description. In FIG. 8 and FIG. 9, two lines of anti-bending bars are formed for each inside of the partition wire mesh, but the anti-bing bars may be added or removed as necessary.

After the partition wire mesh is installed, it is to install the anti-burden rod 510 connecting the front wire mesh 110 and the rear wire mesh 120 (S70). The anti-dread bar is made of an iron wire, and a hook portion 511 having a hook shape is formed at both ends.

FIG. 18 shows a state in which the doe bar 510 connects the front wire mesh 110 and the rear wire mesh 120. As shown in the figure, it can be seen that the locking portions 511 are formed at both ends of the anti-bending bar 510.

The horizontal bar 520 is further provided on the outside of the front wire mesh 110. The horizontal bar is formed in the transverse direction on the outside of the front wire mesh, the end of the hanger prevention rods facing the front portion is formed in the horizontal bar to support the front wire mesh.

The horizontal length of the horizontal bar is maintained by 1/3 to 1/2 of the length of each front wire mesh, so that the front wire mesh 110 can be stably supported. Therefore, even when pressure from the inner filler and / or the upper portion is applied, since the horizontal bar is formed in a structure surrounding the front wire mesh, it is possible to prevent the front wire mesh from protruding toward the front surface. Through this, ecological blocks can be maintained with beautiful aesthetics and stable structure.

FIG. 9 is a view illustrating a state in which the anti-bending bar is installed. A horizontal bar 520 is formed on the outside of the front wire mesh 110, and a plurality of anti-bulking rods 510 are formed in the wire basket body 100. It can be seen. Referring to FIG. 18, the horizontal bar may be formed at a central portion of the front wire mesh to support the front wire mesh in a stable form as a whole. 9 illustrates a form in which the partition wire mesh 160 is omitted to explain the anti-bending bar.

After the anti-dreading bar is installed for each predetermined area partitioned by the partition wire mesh, the resin panel 420 with seeds is installed (S90). 17A, it can be seen that the seed resin panel 420 is formed adjacent to the coconut net 410. The seed-attach resin panel combines organic materials that activate loess and plant growth with materials such as tributary fibers that can easily absorb moisture, form a flat shape, and then naturally dry them, and then insert them into the wire basket body. It is manufactured to a suitable size so that it can be fitted to fit. The seed attaching resin panel may be formed with a plurality of grooves to allow seeds to germinate, for example, seeds to be inserted therein, and insert growth of seeds into the grooves.

After the seed-attach resin panel 420 is prepared according to the size partitioned by a partition wire mesh, the seed-attach resin panels may be attached to seeds for growth, and then installed on the front wire mesh. Referring to Figure 17b, it can be seen that the groove 421 is formed in a predetermined portion of the seed resin panel. The groove is for allowing the already formed anti-burping bar 510 to pass therethrough, and when the seed attaching resin panel is installed on the front wire mesh while lowering the seed resin panel from the top to the bottom, the anti-burping bar is inserted into the groove. Can be passed through.

Figure 10 shows a state that the resin panel with seed is installed in the construction method of the ecological block according to the present invention.

After the resin panel with seed is installed, the finished wire mesh basket 100 is moved near the construction site through steps S10 to S90 to bind the main body supporting wire mesh 600 pre-installed at the construction site (S100). At this time, so that the main body support wire mesh is positioned in the rear direction with respect to the lower wire mesh of the wire mesh basket body, so that the wire mesh basket main body is placed on the front of a predetermined length from the main body support wire mesh. Thereafter, the lower wire mesh and the main body supporting wire mesh are bound, and the binding means can be applied by selecting a suitable one from a known technique.

11 shows a state in which the main body supporting wire mesh is bound to the lower wire mesh and the rear part wire mesh of the construction method of the ecological block according to the present invention, and FIG. have. Referring to FIG. 19, it can be seen that the main body supporting wire mesh 600 of the present invention protrudes to the rear side in a state located at the lower end of the lower wire mesh 140.

In addition, the main body supporting wire mesh 600 applied to the present invention is to be formed in a grid form using a thicker wire than the thickness of the wire constituting the wire basket body. In order to stably support the wire basket body after the creation of the ecological block, it is preferable that the main body supporting wire mesh is formed of a thicker wire than the wire basket body.

Preferably, the main body supporting wire mesh 600 is formed after the entire area of the lower wire mesh 140, and then binds. Protrude rearward from 1/3 to 1/2 of. The protruding length to the rear side is not particularly determined and may be appropriately adjusted according to the construction environment.

In the present invention, by using the binding support rods 530, the rear portion wire mesh 120 and the main body supporting wire mesh 600 protruding to the rear surface can be bound to each other. Therefore, in the present invention, the main body supporting wire mesh is coupled to the lower wire mesh, and through the double structure in which the rear portion wire mesh and the main body supporting wire mesh are bound through the binding support rod, the wire basket body can be stably supported.

The binding support rod is also made of a long iron wire, both ends may have a hook-shaped hook portion.

As shown in FIG. 11, in operation S100, a partition wire mesh 160 may be further provided as necessary. In the case of FIG. 10, three partition wire meshes are provided so that the wire basket main body is divided into four parts, and FIG. 11 shows that the partition wire mesh is provided one by one for each quarter of the partition wire mesh.

When the partition wire mesh is further provided, the force supporting the front wire mesh increases, so that the ecological block can be maintained in a stable state as a whole. The newly installed partition wire mesh is bound with the front wire mesh and the rear wire mesh, the binding method is not particularly limited and can be used in general known techniques.

After the main body supporting wire mesh is installed, the soil is filled in the inside of the wire basket body (S110). Figure 12 shows the soil filled in the wire basket body according to the present invention.

After the soil is filled, the upper wire mesh 130 is assembled (S120). 13A and 13B show the assembled top wire mesh in different directions, respectively.

As described above, the processes of S10 ~ S120 are all made after arranging the ground of the river to create the ecological block, and then the foundation of the filling stone. Figure 14 is a view showing a state in which the non-woven fabric is installed on the rear side in the state in which the first stage of the ecological block is installed, it shows that the present invention is made in the stream of the foundation ground.

After the upper wire mesh is assembled, the nonwoven fabric 700 is installed to the rear of the rear wire mesh. The nonwoven fabric is installed over a partial area of the upper wire mesh, the entire area of the rear wire mesh and a portion of the main body supporting wire mesh, so that the boundary between the earth and sand of the stationary river and the basket basket body can be maintained.

The rear surface of the nonwoven fabric is finished using a backfill material 800 to be described later. The nonwoven fabric prevents the backfill material from entering and exiting the wire basket main body, so that the ecological block can maintain a stable form. If the backfill material made of gravel is repeatedly entered and exited through the rear wire mesh under the influence of rainwater, there is a possibility that the entire ecological block may not be maintained in a stable form due to the soil filled inside the mesh basket main body. . Therefore, in the present invention by closing the rear wire mesh using a non-woven fabric, so that the shape of the ecological block can be stably maintained.

15 shows a state in which the back filling material 800 is filled on the rear surface where the nonwoven fabric is installed. As the backfill material, as described above, it is to use gravel or general stone, so that the main body support mesh can be supported in a downward direction by a material having a certain weight so that the ecological block can be maintained in a stable state.

FIG. 16 shows a state in which three ecological blocks are installed according to the present invention, and FIG. 20 shows a state in which the ecological block of the present invention is completed.

According to the present invention, the partition wire mesh is assembled later in a state in which a plurality of front, rear, top, bottom, and side wire meshes constituting the wire basket body are assembled, thereby reducing the construction period and construction cost, and is economical. By having a horizontal rod of a predetermined length on the outside, the horizontal rod is connected to the anti-burden rod, the front part does not protrude forward in spite of the pressure of the earth and sand has an advantage that the aesthetics are beautiful.

In addition, according to the present invention, there is an advantage that can support the wire mesh basket at a low cost by forming a main body support wire mesh at the lower end of the lower wire mesh to bind to each other and at the same time again by binding the back side wire mesh and the main body support wire mesh with a binding support rod.

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: wire basket body
110: front wire mesh 120: rear wire mesh
130: upper wire mesh 140: lower wire mesh
150: side wire mesh 160: partition wire mesh
200: drip tray
300: vegetation maintenance means
410: Coconut Net
420: resin panel with seed 421: groove
510: anti-shipping rod 511: hook
520: horizontal bar 530: binding support rod
600: main body support wire mesh
700: nonwoven fabric 800: backfill

Claims (2)

Wire mesh basket body consisting of a front portion, a rear portion, an upper portion, a lower portion and a side portion wire mesh made of a mesh shape;
A drip tray formed in a portion of the lower wire mesh of the wire basket body adjacent to the front wire mesh;
Vegetation maintenance means and coconut net formed over a portion of the lower wire mesh, an entire region of the front wire mesh and a portion of the upper wire mesh;
A partition wire mesh formed to partition the wire basket into a predetermined region;
An anti-shipping rod formed to interconnect the front wire mesh and the rear wire mesh;
A main body support wire mesh coupled to a lower wire mesh of the wire mesh basket and protruding from the lower wire mesh in a rearward direction; And
A binding support rod formed to connect the rear portion wire mesh of the wire mesh basket body and the main support wire mesh to each other;
Body-supported vegetation wire basket, characterized in that consisting of.
The method of claim 1,
The end of the front wire mesh direction of the load preventing rod is connected to a horizontal bar formed in a horizontal direction in the horizontal direction outside the front portion of the wire mesh, the end of the rear wire mesh direction of the anti-drain bar is coupled through the rear wire mesh and the hook portion Body-supported vegetation wire basket, characterized in that formed.

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