KR200443324Y1 - Mountain stone type retaining wall - Google Patents

Abstract

The present invention relates to a stony-type reinforcement earth retaining wall having a complex structure consisting of a combination of a reinforcing slope and a natural stone retaining wall, which maximizes the advantages of the reinforcing slope and natural stone retaining wall, thereby increasing the utilization of the site and structurally stable. This makes it possible to create a nature-friendly environment having an excellent landscape taste.

The present invention has a reinforcement slope chopped by filling the geogrid covered with geogrid, a plurality of natural stones built and built on the front side spaced apart from the reinforcement slope, a plurality of connecting assemblies to connect the natural stone to the reinforcement slope, and reinforcement It consists of a backfilled fillet filled with spaces between the slope and the natural stone.

Reinforcement Slope, Natural Stone Retaining Wall, Connecting Assembly

Description

Stone Reinforced Soil Retaining Wall {MOUNTAIN STONE TYPE RETAINING WALL}

Figure 1 is a cross-sectional view of the sintered reinforced soil retaining wall for explaining the configuration of the subject innovation.

2 is an enlarged view illustrating an area A of FIG. 1 enlarged.

3 is a plan view of the present invention.

Figure 4 is a reference diagram showing a coupling relationship between the geogrid and the fastening rebar according to the present invention.

5 is a front view of the present invention.

6 to 14 is a series of reference diagrams for explaining the construction method of the stone-shaped reinforced soil retaining wall according to the present invention.

* Description of the symbols for the main parts of the drawings *

110: natural stone 120: connection anchor

200: reinforcing slope 210: geogrid

220: nonwoven fabric 300: connection assembly

310: set anchor 311: nut anchor

313: bolt anchor 330: fastening hook

340: fastening bars

The present invention relates to a composite structure consisting of a combination of a reinforcement slope and a natural stone retaining wall, and in particular, maximizes the advantages of the reinforcement slope and the natural stone retaining wall, thereby increasing the utilization of the site and structurally stable. The present invention relates to a sintered retaining wall suitable for creating a natural environment.

In general, the reinforcement slope is a kind of reinforcement soil structure that installs a planar reinforcement in the structure of the soil slope having a front slope of about 70%.

Reinforcing slopes are applied to road banks, temporary flood control structures, temporary bypasses, restoration of collapsed slopes or railways, and retaining wall alternatives, and are widely recognized as alternatives to secure slopes and prevent the destruction of slopes. It is a trend.

The construction steps of reinforcement slopes using geogrids consist of the excavation and bottom stop work of the foundation floor, the installation of compaction frame, the installation of geogrid and vegetation mat (or non-woven fabric), the filling and compaction of backfilled soil, and the finishing of the back.

Such reinforcing slopes have the advantage that the use of the front block is unnecessary, unlike the increase of the site utilization of the slope or the tip of the slope, the economical efficiency due to the decrease of the fill volume, the use of the fill material which is somewhat less dynamic, and the retaining soil retaining wall.

However, the reinforcement slope by the conventional method was extremely limited to produce a variety of landscaping beauty due to the almost uniform shape. Therefore, while improving the advantages of the conventional reinforcement slopes as needed to improve the variety of landscape beauty was needed.

In this regard, the present invention solves the above-mentioned problems and secures the site as well as proposes a variety of landscaping. The purpose of the present invention is to increase the site utilization and structural stability by utilizing the advantages of the reinforcing slope and the natural stone retaining wall. Its front surface is to provide a stony-reinforced earth retaining wall with excellent landscaping by natural stone.

In order to achieve the above object, the stony-type reinforcement soil retaining wall according to the technical idea of the present invention includes a reinforcement slope chopped by filling the soil filled with geogrid, and a plurality of natural stones built and constructed on the front side spaced apart from the reinforcement slope, It is characterized in that it comprises a plurality of connecting assemblies for supporting the natural stone by connecting to the reinforcement slope, and the backfill fill filled in the spaced space between the reinforcement slope and the natural stone.

Here, the connection assembly, the fastening reinforcing rod is installed in the transverse reinforcement front side in the longitudinal direction, the fastening hook for connecting the fastening reinforcing bars, the anchor nut embedded in the natural stone and anchor bolts coupled thereto Set anchors made of, it may be characterized in that it comprises a connecting reinforcing bar connecting the fastening hook and the anchor bolt.

In addition, the fastening reinforcing bar may be installed in a form inserted into the thread between the ribs of the geogrid formed in the longitudinal direction at a predetermined interval.

In addition, the fastening reinforcing bar is installed in a form inserted so as to be inserted at a predetermined interval between the ribs of the geogrid formed in the vertical direction is arranged up and down so as to take two together with respect to one fastening hook. The two fastening bars adjacent to each other may be alternately stitched with the ribs of the geogrid alternately with respect to each other.

In addition, the reinforcement slope is a stone-shaped reinforcement soil retaining wall, characterized in that the filling step formed by the filling soil is packed in a geogrid wrapped in a multi-stage stack.

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

EXAMPLE

1 is a cross-sectional view for explaining the configuration of the present invention, Figure 2 is an enlarged view of the enlarged portion A of Figure 1, Figure 3 is a plan view of the present invention, Figure 4 is a geogrid and fastening reinforcing bars according to the present invention Reference is a view showing a coupling relationship with, Figure 5 is a front view of the present invention.

As shown, the subject innovation is to construct a reinforcement slope 200 using the geogrid 210 on the back side, and to build a retaining wall by natural stone (110, 115) on the front side, but the two as a connection assembly 300, but robust To connect. The connection assembly 300 is configured to connect the reinforcement slope 200 and the natural stone (110, 115) very quickly during construction by simply hooking the connection using the fastening hook 330.

Below will be described in detail the center of each component of the configuration of the stone-shaped reinforced soil retaining wall according to the present invention.

The ridge-shaped reinforcement soil retaining wall of the present invention includes a reinforcement slope 200, natural stones 110 and 115, a connection assembly 300, and a backfill fill body G40.

The reinforcement slope 200 is provided by stacking the filling stages (200A, 200B, 200C, 200D, 200E, 200F ...) made by filling the filling soil (G30) with the geogrid 210 and then chopped in multiple stages. The reinforcement slopes 200 are formed by stacking the filling ends 200A, 200B, 200C, 200D, 200E, and 200F. The front surfaces are stacked in a stepped inclined form.

The natural stone (110, 115) is basically a large natural stone 110 and the smaller natural stone 115 is provided in a harmonious manner overlapping and is established in a spaced apart from the front reinforcement slope 200. The natural stones 110 and 115 are connected to and supported by the reinforcement slope 200 by the connection assembly 300. As such, when natural stones 110 and 115 are supported by the reinforcement slope 200, more stable support is possible. Natural stone 110 and 115 to be constructed as described above forms a front body with the backfill fill body G40 while being stably supported by the reinforcing slope 200. As such, the stony-type reinforcement soil retaining wall of the present invention can produce a variety of landscaping by the natural stone (110, 115) built on the front, it is possible to create a friendly environment.

The connection assembly 300 serves to support and support the natural stone (110, 115) to the reinforcement slope 200, referring to Figure 2, a partial detail, fastening reinforcing bars 340, fastening hooks 330 ), The set anchor 310, the connecting reinforcement (320). Each component constituting the connection assembly 300 will be described below.

First, the fastening reinforcing bar 340 is installed long in the transverse direction in the front surface of the geogrid 210 when the reinforcing slope 200 is constructed. In this case, as shown in FIGS. 2 and 4, the fastening reinforcing bars 340 may be installed up and down in a group so that two fastening hooks 330 may be caught together. At this time, as shown in Figure 4, the fastening reinforcing bars 340 adjacent to each other up and down a predetermined interval between the ribs 210A of the geogrid 210 formed in the longitudinal direction (longitudinal rib 210A of the geogrid 210) 3 to 4) is installed in the form inserted alternately alternately so as to be opposite to each other. As a result, the fastening rebar 340 may be stably maintained in a state in which the fastening rebar 340 is coupled to the geogrid 210. Here, the fastening reinforcing bars 340 are structurally preferable to be coupled to the geogrid 210 in a state in which two are formed in one group to be caught by one fastening hook 330, but one fastening rebar according to the conditions Only 340 is installed, it is also possible to hook the fastening hook 330.

The fastening hook 330 serves to hook the fastening rebar 340. If the fastening hook 330 is provided, the connection with the reinforcing slope 200 may be easily performed, while effectively coping with the load of the natural stones 110 and 115 applied from the front side. The fastening hook 330 may be prepared by separately purchasing a conventional hook formed in the end of the "⊃" form (see Fig. 2), it may be provided by bending the reinforcing bars typically used in construction sites. The latter has the advantage that it can be easily prepared in various sizes depending on the situation as well as the cost.

The set anchor 310 is composed of an anchor nut 311 is embedded in the natural stone (110, 115) fixed and the anchor bolt 313 coupled thereto.

The connecting reinforcing rod 320 serves to connect the fastening hook 330 and the anchor bolt 313, and both ends are welded to the fastening hook 330 and the anchor bolt 313, respectively (see 315). And 335 indicates a welded portion).

Looking at the construction method of the stone-shaped reinforced soil retaining wall according to the present invention having such a configuration with reference to Figures 6 to 14 as follows.

First, as shown in FIG. 6, a retaining wall foundation G13 for standing and supporting the foundation part G11 dig and natural stone for forming the reinforcement slope 200 on the ground G10.

Subsequently, as shown in FIG. 7, the construction of the reinforcing slope 200 is first started on the reinforcement slope 200 at the base portion G11 to a predetermined height. To this end, first, a compaction frame (not shown) is installed on the base portion G11, and a geogrid 210 is installed. Then, filling the filling soil (G30) inside the geogrid 210, and then chopped the filling soil (G30) with a geogrid 210 together with the nonwoven fabric 220 to complete the filling stage 200A of the first stage. Then, new filling stages 200B, 200C, 200D, 200E, 200F ... are formed and stacked on the filling stage 200A of the first stage.

Then, the natural stone retaining wall foundation (G13) as shown in Figure 8 to the natural stone 110, and the concrete filling (G20) is applied to fix the lower end of the natural stone (110).

Then, the installation work of the connection assembly 300 is performed as shown in FIG. The fastening rebar 340 is installed in the transverse direction on the front surface of the geogrid 210 of the reinforcement slope 200. At this time, the fastening reinforcing bar 340 is installed in the form inserted into the zigzag with a certain interval (about 3 to 4 ribs 210A) between the ribs 210A of the geogrid 210 formed in the longitudinal direction. (See Figure 4). In addition, the fastening reinforcing bars 340 are arranged up and down to form a group so that two fastening hooks 330 are held together, and two fastening bars 340 vertically adjacent to each other are ribs of the geogrid 210. Intersect alternately between 210A and insert them staggered. Then, the anchor nut 311 is fixed to the natural stone 110, and the anchor bolt 313 is coupled to the anchor nut 311 (see FIG. 2) while the opposite side is already installed on the reinforcement slope 200. Hook hook 330 to the fastening reinforcing bars 340 is connected. In addition, the connecting reinforcement 320 is connected to the anchor bolt 313 and the fastening hook 330 by welding. As a result, it is possible to simply connect the natural stone 110 and the reinforcement slopes 200, and the natural stone 110 is supported on the reinforcement slopes 200 to be in a very stable state.

Thereafter, as shown in FIG. 10, the backfill fill body G40 is filled in the spaced space between the reinforcing slope 200 and the natural stone 110 erected on the lower portion. As a result, the composite structure in which the reinforcing slope 200 and the retaining wall of the natural stone 110 are combined is primarily completed.

Thereafter, as shown in FIG. 11, a new natural stone 110 is erected on the backfill fill body G40 filled in the above-described step through FIG. 10. And using the connection anchor 120 between the existing natural stone 110 and the new natural stone 110 to be interconnected.

Subsequently, the installation work of the connection assembly 300 and the filling work of the backfill fillet G40 are performed between the newly established natural stone 110 and the reinforcement slope 200 as shown in FIG. 12. The method for this purpose is not significantly different from the method described above with reference to FIGS. 9 and 10, and thus detailed description thereof will be omitted.

Subsequently, a new reinforcing slope 200 is constructed by the geogrid 210 to the desired height as shown in FIGS. 13 and 14 by the same working method as before, and the natural stone 110 and the backfilled fillet body ( Constructing the retaining wall of the natural stone 110 by the G40 connected to the connection assembly 300 is completed the construction of the composite structure consisting of the combination of the reinforcement slope 200 and the natural stone 110 retaining wall.

The stony-type reinforcement earth retaining wall of the present invention, which is completed as described above, is configured to utilize the advantages of the reinforcing slope 200 and the natural stone 110 retaining wall as it is, and is reinforced by the connection assembly 300 having the fastening hook 330. The 200 and the natural stone 110 can be connected very quickly and simply. And nevertheless, the natural stone 110 is firmly supported on the reinforcement slope 200.

The stony-type reinforcement soil retaining wall of the present invention, which is constructed as described above, has an increased site utilization and structural stability by the reinforcing slope 200, and at the same time, a front surface treatment by natural stones 110 and 115 can create a natural friendly environment by various landscaping. Will be.

In the above described a preferred embodiment of the present invention. The present invention can use various changes and modifications and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Therefore, the above description does not limit the scope of the present invention defined by the limits of the following utility model registration claims.

As described above, the stony-type reinforcement soil retaining wall according to the present invention maximizes the advantages of the reinforcement slope and the natural stone retaining wall by the composite structure composed of the combination of the reinforcement slope and the natural stone, while increasing the utilization of the site and structurally stable. The front surface can create a nature-friendly environment with an excellent landscape taste by natural stone.

In addition, the present invention can be quickly connected to support the natural stone retaining wall to the reinforcement slope during construction by a connection assembly having a fastening hook.

Claims (6)

A reinforcing slope formed by laminating the filling stages formed by being chopped with the filling soil wrapped in the geogrid in multiple stages; A plurality of natural stones built and constructed on the front side spaced apart from the reinforcing slopes; It is installed in the transverse direction to the front surface of the reinforcing slope in the form inserted into the gap between the ribs of the geogrid formed in the longitudinal direction, the two are arranged up and down adjacent to each other forming one group alternately with respect to each other Reinforcing the natural stone comprising a fastening reinforcing bar installed to sew the ribs of the geogrid, and a fastening hook formed in the end of the "⊃" shape so that the two adjacent adjacent fastening reinforcing bars can be connected together A plurality of connection assemblies connected to the four sides to support the four sides; Stone-shaped reinforcement soil retaining wall, characterized in that it comprises a fill body is filled in the spaced space between the reinforcing slope and the natural stone. The method of claim 1, wherein the connection assembly, A set anchor formed of an anchor nut embedded in the natural stone and anchor bolts coupled thereto; Both ends are welded to the fastening hook and the anchor bolt, respectively, and the stone-shaped reinforced soil retaining wall, characterized in that it further comprises a connecting reinforcing bar connecting the fastening hook and the anchor bolt. delete delete delete delete

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