KR200326338Y1 - Drainage structure of a breast wall - Google Patents

Abstract

The present invention relates to the drainage structure of the retaining wall structure, and has the purpose of introducing the groundwater or rainwater flowing into the inclined retaining wall structure to guide the lower portion of the retaining wall structure to discharge into the drainage. To this end, the present invention is provided in a retaining wall structure drainage structure which is installed in a retaining wall structure installed on an inclined surface to guide the infiltration water flowing from the inner soil of the retaining wall structure to the drainage channel under the retaining wall structure, and one side thereof is perpendicular to the inner wall of the retaining wall structure. It is installed, the other side is installed across the lower portion of the retaining wall structure and its end is located in the drainage channel of the retaining wall structure, the drain pipe for discharging the infiltration water from the earth and sand discharged into the drainage channel, a pair of water pipes are installed in a predetermined angle at a predetermined angle to penetrate. It comprises a blocking plate for blocking the water, and installation means for fixing the blocking plate to the drain pipe at a predetermined angle. According to the present invention configured as described above, it is possible to prevent the collapse of the fill portion due to the loss of the soil by absorbing and draining the infiltration water located in the earth and sand of the retaining wall structure.

Description

Drainage structure of a breast wall

The present invention relates to a retaining wall structure, and more particularly, to a retaining wall structure drainage structure that discharges groundwater or rainwater flowing into a retaining wall structure installed on an inclined surface to a lower portion of a retaining wall structure and discharges it to a drainage channel installed below the retaining wall structure. .

In general, when some of the slopes of the mountain slopes or hills are damaged by natural disasters such as heavy rains or floods, the damaged slopes are cut down by a certain amount, and the soil is filled in the areas to form new slopes. When a new railway is opened, the slope of the hillside or hill is cut by a certain amount to flatten the gas plane, and then the rest is formed as a new slope. In addition, in order to prevent flooding of rivers and the efficient use of water resources, banks and banks formed near rivers and lakes and slopes due to sedimentary soils are formed.

As such, when the unstable slope of the fill area or cut area created by cutting or filling the soil as a new terrain is left to the ground, the soil is easily lost due to various natural causes such as heavy rain or flood. In addition to the need to carry out repair work, in severe cases there is a high risk of collapse of the inclined surface of the earth, which can cause enormous human and property damage. And risk factors such as rockfall should be blocked in advance.

As a conventional slope reinforcement method for stabilizing an unstable slope as described above, the Asuna method for fixing the vegetation mat and the wire mesh on the inclined surface using an anchor bolt, and then attaching the green soil composition having excellent viscosity through the wire mesh, and a perforator. The hole nailing method is to clean a hole of a certain depth on the inclined surface, and then grind by inserting the soil nail and mortar into the hole, and filling the rubble in a wire mesh box made of galvanized iron wire to build a soft part of the slope. There are known concrete retaining wall construction methods and the like in which a concrete structure is constructed to support a slope by constructing a retaining wall.

In particular, the concrete retaining wall method is not only very strong but also has the advantage that there is no risk of leakage or collapse until a certain period of time after construction.However, rainwater or groundwater isolated from the slope may be used to erode the inner wall of the concrete. In the case of the freezing and thawing process of the infiltration water, since the corrosion and cracks of the retaining wall of the concrete proceeds at a very high speed, there was a problem that continuous maintenance must be performed after construction.

1 is a view showing a conventional retaining wall structure and its drainage structure, as shown in the drainage structure of the conventional retaining wall structure is a plurality of drain holes for discharging groundwater or rainwater to the retaining wall structure 20 installed on the inclined surface 10 ( 22 is formed, and a non-woven filter aggregate (not shown) is installed on the rear surface of the retaining wall structure 20 in which the drain hole 22 is formed. In addition, the lower portion of the retaining wall structure 20 is provided with a drainage path 24 for leading rainwater or groundwater discharged from the drain hole 22 to the public water or other drainage areas. For reference, reference numeral 30 is a road or a railroad.

That is, rainwater or groundwater introduced from the nonwoven filter aggregate flows down the surface of the retaining wall structure 20 through the drain hole 22 and then is led to the public water or other drainage area through the drainage passage 24.

In the drainage structure of the retaining wall structure, the outflow of the soil is generated through the drain hole 22 to cause reddening of the surface of the retaining wall structure 20, and also in the drainage hole 22 of the retaining wall structure 20 in winter. There was a problem that defects occur within a short period of time due to freezing phenomenon on the concrete surface due to leakage.

The present invention has been made to solve the above-mentioned problems, the purpose is to guide the groundwater or rainwater flowing into the retaining wall structure installed on the inclined surface to the lower portion of the retaining wall structure to discharge to the drainage installed in the lower portion of the retaining wall structure.

Another object of the present invention is to reduce the freezing phenomenon of the retaining wall structure by discharging the groundwater or rainwater through the retaining wall structure through a separate drain pipe, and not allowing the infiltration water to flow along the outer surface of the retaining wall structure. It is to ensure aesthetics.

Another object of the present invention is to prevent the collapse of the fill portion due to the loss of the soil by absorbing and draining the infiltration water located in the soil inside the retaining wall structure.

1 is a view showing a conventional retaining wall structure and its drainage structure.

2 is a view showing a retaining wall structure according to the present invention.

3 is a cross-sectional view of the retaining wall structure according to the present invention.

4 is a view showing the drainage structure of the retaining wall structure according to the present invention.

5 is a cross-sectional view of the drain pipe according to the present invention.

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

100: retaining wall structure 102: drainage

111: Merit Hall 112: Hall

114: mesh 116: mesh mat

118: guide pipe 120: blocking plate

122: hinge 124a: bolt

124b: nut 126: round part

The present invention devised to achieve the above object is as follows. That is, the present invention is installed in the retaining wall structure is installed on the inclined surface in the retaining wall structure drainage structure to guide the infiltration water flowing from the inner soil of the retaining wall structure to the drainage channel below the retaining wall structure, one side is perpendicular to the inner wall of the retaining wall structure It is installed, the other side is installed across the lower portion of the retaining wall structure and its end is located in the drainage channel of the retaining wall structure, the drain pipe for discharging the infiltration water from the earth and sand discharged into the drainage channel, a pair of water pipes are installed in a predetermined angle at a predetermined angle to penetrate. It comprises a blocking plate for blocking the water, and installation means for fixing the blocking plate to the drain pipe at a predetermined angle.

Here, the drain pipe has a plurality of holes into which the infiltration water flows and is installed in the inner wall of the retaining wall structure, a net covering the oil pipe, a mesh mat surrounding the net, and one end connected to the hole and the other end crosses the lower part of the retaining wall structure. It includes a guide pipe located in the drainage channel.

In addition, the blocking plate is installed in the adjacent drain pipe to the side end portion in contact with each other in the direction intersecting with each other to block the inflow of the infiltration water into the inner wall of the retaining wall structure.

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

2 is a view showing a retaining wall structure according to the present invention, Figure 3 is a cross-sectional view of the retaining wall structure according to the present invention.

First, the retaining wall structure 100 constructed on the inclined surface 10 is provided with a plurality of drain pipes 110 crossing the inner surface and its lower portion at regular intervals.

Drainage pipe 110 is to discharge the groundwater or rainwater (hereinafter referred to simply as 'penetration water') that penetrates into the earth and sand inside the retaining wall structure 100 to discharge to the drainage path 102 below the retaining wall structure 100, FIG. As shown in, the upper end extends to the inclined surface 10 and the lower end is located in the drainage passage 102 across the lower portion of the retaining wall structure 110.

The drainage pipe 110 is provided with a blocking plate 120 to block the infiltration water flowing from the earth and sand to guide the drainage pipe 110. The blocking plate 120 is installed in a pair of one drain pipe 110, respectively, is installed while maintaining a predetermined angle around the drain pipe (110).

On the other hand, by installing a plurality of blocking plates 120 may be connected vertically.

Therefore, each of the blocking plates 120 installed in the direction of crossing each other in the adjacent drain pipe 110 so that the ends thereof abut each other or the end of one of the blocking plate 120 is located on the rear of the other blocking plate 120. By minimizing the gap between the blocking plate 120 and the blocking plate 120, the infiltration water flowing from the earth and sand passes between the blocking plate 120 and the blocking plate 120 to directly contact the inner surface of the retaining wall structure 100. Do not

The angle formed by the blocking plate 120 installed in the drain pipe 110 may be maintained in various ways according to the distance between the drain pipe 110 and the size of the blocking plate 120, and when the angle is small, the blocking plate 120 may be used. Because the distance between the rear surface of the retaining wall structure 100 and the inner wall of the retaining wall structure 100 may be far therebetween, the angle of the blocking plate 120 is increased to increase the angle of the rear plate of the blocking plate 120 and the inner wall of the retaining wall structure 110. It is desirable to make the distance to the smallest possible.

4 is a view showing a drainage structure of the retaining wall structure according to the present invention.

The drain pipe 110 and the blocking plate 120 has a round part 126 formed to round one side of the blocking plate 120 to surround the drain pipe 110, and the drain pipe 110 is also formed on the round part 126. After connecting the round part 126 formed to surround the hinge structure 122 to position the drain pipe 110 on the inner surface of each round part 126, the end of each round part 126 is bolted (124a) And may be installed by tightening through the nut 124b. Such installation means may be implemented in various ways without being limited to this embodiment.

5 is a cross-sectional view of the drain pipe in the present invention.

The drain pipe 110 absorbs the infiltration water blocked by the blocking plate 120 and guides the drainage pipe 102 to the drain pipe 102, the perforated pipe 111, the mesh 114, the mesh mat 116, and the induction pipe ( 118).

First, the perforated pipe 111 is formed with a plurality of holes 112 so that the infiltration water is introduced, the upper end is formed to extend to the inclined surface of the upper end is installed to the lower portion of the retaining wall structure 100. The perforated pipe 111 is connected to the induction pipe 118 to guide the infiltration water to the drainage channel 102, one end of the guide pipe 118 is connected to the perforated pipe 111, the other end of the retaining wall structure 100 One side at the bottom is located in the drainage passage 102 across the bottom of the retaining wall structure 100.

Therefore, the infiltration water introduced through the hole 112 formed in the hole pipe 111 flows down the hole pipe 111 and is led to the drainage path 102 through the induction pipe 118.

The mesh 114 is made of polyethylene and wrapped around the outer circumferential surface of the perforated pipe 111, and the mesh mat 116 is wrapped on the outer circumferential surface of the mesh 114.

The mesh room 114 and the mesh mat 116 is filtered to prevent the soil from entering the hole tube 112 by the infiltration water to prevent the hole 112 formed in the hole tube 112 is blocked by the soil.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the range allowed by the technical idea of the present invention.

According to the present invention configured as described above, it is possible to reduce the freezing phenomenon of the retaining wall structure by discharging the infiltration water through a separate drain pipe instead of entering the drainage channel through the retaining wall structure, and also to prevent the infiltration water from flowing down the outer surface of the retaining wall structure. By preventing reddening, it is possible to secure the aesthetics of the retaining wall structure.

In addition, it is possible to prevent the collapse of the fill portion due to the loss of the soil by absorbing and draining the infiltration water located in the soil inside the retaining wall structure.

Claims (3)

In the retaining wall structure drainage structure is installed in the retaining wall structure is installed on the inclined surface to guide the infiltration water flowing from the internal soil of the retaining wall structure to the drainage channel below the retaining wall structure, One side is installed perpendicular to the inner wall of the retaining wall structure, the other side is installed across the lower portion of the retaining wall structure and the end thereof is located in the drainage passage of the retaining wall structure to discharge the infiltration water flowing from the soil into the drainage passage. Drain pipe; Blocks are installed in the drain pipe at a predetermined angle to block the infiltration water; And Retaining wall structure drainage structure comprising a mounting means for fixing the blocking plate to the drain pipe at a predetermined angle. The method of claim 1, wherein the drain pipe A perforated pipe having a plurality of holes into which the infiltration water flows and installed in the inner wall of the retaining wall structure, a net surrounding the perforated pipe, a mesh mat surrounding the net, and one end connected to the perforated pipe and the other end of the retaining wall structure Retaining wall structure drainage structure characterized in that it comprises a guide pipe positioned in the drainage passage across the lower portion. The method of claim 1 or 2, wherein the blocking plate is Retaining wall structure drainage structure, characterized in that the side end portion is installed in contact with each other in the direction crossing each other in the adjacent drain pipe to block the inflow of the infiltration water into the inner wall of the retaining wall structure.