KR200297571Y1 - Vegetation retaining wall structure - Google Patents

Abstract

Vegetation retaining wall structure according to the present invention, the center of which forms a curved surface protruding forward, the front end wall portion is formed at both ends of the coupling jaw for coupling with the neighboring structure; It is formed integrally with the front wall, and the through-holes for the passage of water and plant roots are formed on the center of the body, respectively, and the upper and lower ends of the body are formed with protrusions and grooves for stacking assembly with neighboring structures, respectively. Side wall portions; And a rear plate portion formed to connect the left and right side wall portions to the rear bottom of the left and right side wall portions, and the vegetation retaining wall construction method using the vegetation retaining wall structure is based on the bottom slope of the river. Then, the unit vegetation retaining wall structure is laminated and assembled in multiple stages thereon to construct one retaining wall structure as a whole, and then, the plant is planted in the vegetation space exposed at each end.

According to the present invention, the coupling means for coupling with the adjacent structure in the left and right and up and down direction of the body is provided, respectively, easy to assemble and construct, the interior is provided with a space to fill the vegetation soil as a retaining wall Not only functions, but also sufficient vegetation space can be secured. Therefore, after the retaining wall structure is constructed in multiple stages, the vegetation can be planted in vegetation spaces exposed to each stage, thereby recording and restraining the waterfront ecosystem.

Description

Vegetation retaining wall structure

The present invention relates to a vegetation retaining wall structure, in particular, easy to assemble and construction, and relates to a vegetation retaining wall structure capable of restoring and preserving the waterside ecosystem by securing sufficient vegetation space as well as function as a retaining wall.

In general, masonry or concrete retaining walls are installed on the waterways or river slopes to prevent the outflow of soil, which is the main cause of collapse. However, the stone or concrete retaining walls constructed for this purpose, although structurally stable, may also destroy the waterside ecosystem. For example, it has a kind of barrier wall structure that can not be exchanged with the internal soil ecosystem of dike soils and streams, and not only prevents and blocks the circulation of the ecosystem, but also prevents the growth of plants at the bottom of the rivers (waterways). It creates an environment where waterside plants cannot grow. Therefore, not only the water purification function naturally made by natural plants in natural rivers is lost, but also the habitats of various fish, algae, and insects are damaged, leading to the destruction of the waterfront ecosystem.

The present invention was created in view of the above matters, and its purpose is to provide a vegetation retaining wall structure that is easy to assemble and construct, and that can function as a retaining wall and restore and preserve the waterside ecosystem by securing sufficient vegetation space. have.

1 is an external perspective view of the vegetation retaining wall structure according to the present invention.

FIG. 2 is a plan view of the vegetation retaining wall structure of FIG. 1. FIG.

3 is a front view of the vegetation retaining wall structure of FIG.

4 is a side view of the vegetation retaining wall structure of FIG.

5 is a rear view of the vegetation retaining wall structure of FIG. 1.

Figure 6 is a side cross-sectional view showing a state of the vegetation retaining wall constructed using the vegetation retaining wall structure according to the present invention.

Figure 7 is a view showing a state in which the anti-sucking material or the elastic filler is installed on the back of the engagement coupling site when constructed using the vegetation retaining wall structure according to the present invention.

8 is a plan view illustrating a state in which the unit vegetation retaining wall structures are stacked and assembled in multiple stages in the vegetation retaining wall construction using the vegetation retaining wall structure according to the present invention.

9 is a view showing a state in which the drain pipe is buried using the internal space of the vegetation retaining wall structures in the vegetation retaining wall construction using the vegetation retaining wall structure according to the present invention.

10 is an external perspective view of a vegetation retaining wall structure according to another embodiment of the present invention.

FIG. 11 is a side view of the vegetation retaining wall structure of FIG. 10. FIG.

12 is a side cross-sectional view showing a state of the vegetation retaining wall constructed using the vegetation retaining wall structure of FIG.

<Explanation of symbols for the main parts of the drawings>

100,100 '... (unit) vegetation retaining wall structure 110 ... Front wall part

110t ... Joint Jaw 120a, 120a '... Left Side Wall

120b, 120b '... right side wall part 120h ... through hole

120t ... engagement projection 120y ... engagement groove

130 back panel 601 base concrete layer

602 Anti-Drain Material (Non-Woven Fabric) 603 Rubble

604 Waterside Plants

606 ... elastic filler 701 ... engagement joint

801 ... water pipe

Vegetation retaining wall structure according to the present invention to achieve the above object,

A pattern of a specific shape is formed on the surface thereof, and a central portion thereof forms a curved surface protruding forward with a predetermined curvature, and at each end of the curved center portion and the left and right flat plate wings extending therefor, for engaging engagement with a neighboring structure. A front wall portion having coupling jaw portions formed therein;

It is formed integrally with the front wall to be perpendicular to the front wall to the rear of the front wall, a through-hole of a predetermined size for the passage of water and plant roots are formed on the center of the body, respectively, the upper portion of the body adjacent to Coupling protrusions for stack assembly with the structure are formed, respectively, and the left and right side wall portions having coupling grooves corresponding to the coupling protrusions are formed at predetermined portions of the lower end of the body; And

It is characterized in that it comprises a rear plate portion formed integrally with the left and right side wall portion to connect the left and right side wall portion to the rear lower end of the left and right side wall portion.

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

1 to 5 show the vegetation retaining wall structure according to the present invention, Figure 1 is an external perspective view, Figure 2 is a plan view, Figure 3 is a front view, Figure 4 is a side view, Figure 5 is a rear view.

1 to 5, the vegetation retaining wall structure 100 according to the present invention is a block structure of a specific shape that forms an integrated body as a whole, the front wall part 110 and the left and right side wall parts 120a ( 120b) and the back plate portion 130 is largely characterized by not having a bottom plate or a sealed back plate.

The front wall portion 110 has a specific pattern (for example, turtle back pattern) is formed on the surface, the center portion is formed to protrude forward to form a curved surface of a predetermined curvature, the left side is formed to extend the curved center At each end of the right wing portion, coupling jaw portions 110t are formed for engagement with neighboring structures. Here, the coupling jaw portion (110t) is, for example, one side is formed in the "b" shape, the other side is formed in the "b" shape to be coupled to the "b" shape.

As shown in FIG. 2, the left and right side wall parts 120a and 120b are rearwards of the front wall part 110 at respective points separated by 1/4 of the length of the front wall part 110 from the left and right coupling jaw parts 110t. It is formed integrally with the front wall portion 110 so as to form a right angle to the front wall portion 110, the through-hole 120h of a predetermined size for the movement and passage of water and plant roots are formed on the center of the body, respectively. In addition, coupling protrusions 120t for stacking assembly with neighboring structures are respectively formed at predetermined portions of the upper end of the body, and coupling recesses 120y are engaged with corresponding coupling protrusions 120t at predetermined portions of the lower end of the body. Are formed respectively.

Here, preferably, the height of the upper end of the front wall part 110 is higher than the height of the upper end of the left and right side wall parts 120a and 120b by a predetermined height (for example, 2 to 5 cm). This is to allow more filling of filling soil after planting waterside plants in the vegetation space exposed when the multi-stage retaining wall construction is completed.

In addition, the thickness of the rear ends of the left and right side wall portions 120a and 120b is relatively thicker than the thickness of the front side wall. This is to suppress the sliding phenomenon due to the back earth pressure during the construction of the retaining wall, and the vertical inclination angle of the rear end is freely formed from 0 ° to 45 ° according to the soil conditions as shown in FIGS. 1 and 10 to 12.

The rear plate portion 130 is connected to the left and right side wall portions 120a and 120b according to the inclination angles of the rear ends of the left and right side wall portions 120a and 120b. It is formed integrally with the rear end of 120b) and the length and height of the back plate portion 130 can be freely adjusted according to site conditions, such as soil conditions, building height.

Then, the process of constructing the vegetation retaining wall using the vegetation retaining wall structure according to the present invention having the structure as described above will be described.

Figure 6 is a side cross-sectional view showing a state of the completed vegetation retaining wall construction using the vegetation retaining wall structure according to the present invention.

Referring to FIG. 6, first, after arranging the lower ground of the sloped surface of the river to be constructed, the foundation concrete is poured and the prevention of drainage to prevent soil loss on the upper surface of the foundation concrete layer 601 where the lowest unit vegetation retaining wall structure is to be installed. Ash (eg, nonwoven) 602 is laid sufficiently wide along the longitudinal direction of the foundation concrete layer 601.

Thereafter, a plurality of unit vegetation retaining wall structures 100 are installed side by side horizontally so that the engaging jaw parts 110t formed at both ends of the front wall part 110 are engaged with each other. As shown in FIG. 7, the anti-soil loss is prevented by filling the anti-exhaust material 605 or the elastic filler 606 on the rear surface of the coupling part 701. In addition, both side wall portions 120a and 120b are formed to closely contact the backplate portion 130 of the vegetation retaining wall structure 100 with the extraction preventing material 602 disposed on the bottom surface of the assembly structure by the plurality of unit vegetation retaining wall structures. After fixing to the upper height of the L-shaped up, and then filling the vegetation soil suitable for the growth of the plant inside the vegetation retaining wall structure 100, the back of the vegetation retaining wall structure 100 is filled with rubble 603 after Compaction to complete the first stage construction of the prefabricated retaining wall structure.

In this way, when the one-stage construction of the prefabricated retaining wall structure is completed, the anti-sucking material 602 is again provided on the one-stage vegetation retaining wall structure and the compaction layer thereof, and as shown in FIG. 8, the one-stage vegetation retaining wall structure The first stage vegetation retaining wall structure 100f is positioned so that the central portion of the two-stage vegetation retaining wall structure 100s is positioned at a position backward from the upper portion of the engaging coupling portion 701 of the front wall portion of the front wall portion 100f. The right side wall portion 120b of the two-stage vegetation retaining wall structure 100s on the left side wall portion 120a of the second stage vegetation retaining wall structure 100s on the right side wall portion 120b of the one-stage vegetation retaining wall structure 100f. The left side wall portion 120a is mounted using a coupling protrusion 120t and a coupling recess 120y, respectively, to install a plurality of unit vegetation retaining wall structures side by side so that the coupling jaw portions 100t are engaged with each other. (701) on the back of the anti-bleeding material 605 or the elastic filler (6 06) so that soil is not lost at the joint.

When the installation of the two-stage vegetation retaining wall structure is completed, the anti-sucking material 602 disposed on the bottom surface of the assembly structure by the two-stage vegetation retaining wall structures is installed as in the case of the one-stage vegetation retaining wall structure. After expanding and fixing in an L shape up to the top height of both side wall portions 120a and 120b so as to be in close contact with the back plate 130, the vegetation retaining wall structure 100 is filled with vegetation soil, and the vegetation retaining wall structure 100 The back of the backfilled with rubble 603 and compacted to complete the two-stage construction of the prefabricated retaining wall structure. At this time, the anti-bleeding material is installed on the bottom surface in order to prevent the up and down direction loss of the filling soil inside the vegetation retaining wall structure 100 and the back plate portion to prevent the mixed rubble 603 and the inner filling soil to be laid behind the vegetation retaining wall structure. It is to be installed in the "L" shape up to the top height of both side portions (120a, 120b) to be in close contact with the 130.

Subsequently, the stacked construction process of the vegetation retaining wall structures from the first stage to the second stage is repeatedly performed to the design height in the same manner to construct the vegetation retaining wall structures as shown in FIGS. 6 and 8 in multiple stages. Then, after the multi-stage construction is completed, the vegetation retaining wall construction is completed by planting the watery vegetation 604 in the vegetation space exposed at each stage and covering the soil sufficiently.

In the above-described series of retaining wall constructions, in order to smoothly treat the surface water flowing out during flooding, as shown in FIG. 9, in some cases, an empty space inside the vegetation retaining wall structure 100 constructed in multiple stages is used. The drain pipe 801 may be embedded. As such, when the drain pipe 801 is embedded, the surface water flowing from the top of the sloped surface is smoothly discharged to the river more quickly through the drain pipe 801 to prevent the loss of the filled soil.

On the other hand, Figures 10 and 11 show another embodiment of the vegetation retaining wall structure according to the present invention, Figure 10 is an external perspective view, Figure 11 is a side view.

10 and 11, the vegetation retaining wall structure 100 ′ according to this other embodiment is basically the same in overall structure as the vegetation retaining wall structure 100 of the first embodiment above. However, in the case of this other embodiment, in the structure of the left and right side wall portion (120a ') (120b'), the feature is that the length of the upper end is formed in an inverted trapezoidal shape that is relatively longer than the length of the lower end. . Therefore, the vegetation retaining wall structure 100 ′ of the other embodiment has the vegetation retaining wall structure 100 according to the site conditions such as the soil quality and the stacking height when constructing the vegetation retaining wall on the inclined surface of the river or incision as shown in FIG. 12. It can be said to be a form that can be laminated by easily attaching the ') to the inclined method surface, the inclination angle of the rear end of the left and right side portions (120a', 120b ') or the height and length of the back plate portion 130 can be freely molded. .

As described above, the vegetation retaining wall structure according to the present invention is provided with a coupling means that can be engaged with the neighboring structure in the left and right direction and the vertical direction of the body, respectively, easy assembly and construction, the inside of the vegetation Soil-filled spaces are provided, so that not only the function as retaining wall but also sufficient vegetation space can be secured, and the vegetation retaining wall construction method using the vegetation retaining wall structure of such a structure is constructed with prefabricated retaining wall structures in multiple stages and then exposed at each stage. Planting riparian plants in the vegetation space, which is a part of the vegetation space, can be used to contribute to the restoration and preservation of waterside ecosystems. In particular, it is an open structure excluding the bottom plate and the sealed back plate, so that the river water or ground water freely exchanges up and down, left and right, so that the ground humidity is maintained uniformly, so that the tenderness of the vegetation is easy, and the soft soil is the habitat of small animals as well as the insects. Providing a good growth condition for plants, there is a great advantage to restore ecosystems such as plants, small animals, insects and birds.

Claims (5)

A pattern of a specific shape is formed on the front surface thereof, and the center portion thereof forms a curved surface protruding forward with a predetermined curvature, and each end portion of the left and right flat plate wings extending thereon is engaged with a neighboring structure. A front wall portion having a coupling jaw portion formed therein for each; It is formed integrally with the front wall to be perpendicular to the front wall to the rear of the front wall, a through-hole of a predetermined size for the passage of water and plant roots are formed on the center of the body, respectively, the upper portion of the body adjacent to Coupling protrusions for stack assembly with the structure are formed, respectively, and the left and right side wall portions having coupling grooves corresponding to the coupling protrusions are formed at predetermined portions of the lower end of the body; And Vegetation retaining wall structure characterized in that it comprises a back plate formed integrally with the left and right side wall portion to connect the left and right side wall portion to the rear lower end of the left and right side wall portion. The method of claim 1, The height of the upper end of the front wall portion is a vegetation retaining wall structure, characterized in that formed 2 to 5 cm higher than the height of the upper end of the left, right side wall. The method of claim 1, The vegetation retaining wall structure, characterized in that the thickness of the rear end of the left, right side wall portion is formed relatively thicker than the thickness of the front side wall. The method of claim 1, The left and right side wall portions are formed at right angles with respect to the front wall portion at respective positions 1/4 of the length of the front wall portion from the left and right coupling jaw portions, and the inclination angles of the rear ends of the left and right side wall portions are freely formed from 0 ° to 45 °. A vegetation retaining wall structure, characterized in that it has a rectangular or inverted side shape. The method of claim 1, The back plate portion is integrally formed according to the inclination of the rear end of the left and right side wall portion, vegetation retaining wall structure, characterized in that the length and height can be freely molded according to the site conditions, such as soil conditions, stacking height.