KR960002375B1 - A working method for a open channel - Google Patents

Abstract

excavating pits to lay drainage way sections to be connected into a waterway and filled with earth for covering to form guide way plates for lead water into the drainage way.

Description

Construction method of slope slope

1 is a perspective view illustrating the construction method of the present invention drainage.

2 is a plan view of FIG.

3 is a side cross-sectional view of FIG.

Figure 4 is a side cross-sectional view showing a state in which the channel is formed in the drainage channel constructed in accordance with a conventional construction method.

The present invention relates to a construction method of slope slope drainage that prevents the sideways to be formed on the outer surface of the drainage slope to be built on steep slopes, such as mountain slopes so that the function of the drainage can be correctly performed for a long time.

In the drainage path 1 made of the drainage pipes 1 embedded in a steep slope, such as a conventional hill slope, if a certain time passes after the construction, as shown in FIG. ) Was formed so that the water did not flow into the drainage passage 1a but instead flowed into the side passage 2. The waterway (2) is disposed in the drain pit (1) when filling the drainage pipe (1) after the drainage pipe (1) after the rainwater flows into the upper portion of the filling soil filled with the outer surface of the drainage pipe (1) In the process of entering the drainage channel (1a) begins to form as the filling soil sinks. As such, once the channel 2 is formed on the outer side of the drain 1a, the rainwater to be introduced into the drain 1a flows through the channel 2 formed in the past, and thus the channel 2 ) Is formed deeper. Eventually, the entire drainage pipe 1 was exposed, which was not good in appearance. In particular, when the material of the drainage pipe is light, such as synthetic resin, there is a problem that the drainage pipe itself is lost due to the water flowing in.

An object of the present invention is to prevent the filling of the filling soil filled in the outer surface of the continuous drainage pipe connected to the slope to prevent the formation of the channel so that the drainage can be properly performed for a long time in situ drainage drainage construction method To provide.

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

As shown in FIGS. 1 to 3, when the drainage passage 10a is to be installed on the slope of a steep slope such as a mountain slope, the excavation of the pit at the position where the drainage passage 10a is to be constructed After the process, after the drainage pipe connecting step of connecting the drainage pipes 10 made of a ready-made drainage pipes in the pit continuously, the soil filling process to backfill the soil in the space on the outer surface of the drainage pipe 10 At the time, the water flow guide plate 30 on the outer surface of the drainage pipe 10 is characterized in that the technical configuration in that it is embedded at a predetermined interval.

Here, the drainage pipe 10 may use concrete or synthetic resin, and may be used for on-site casting or ready-made products when constructing concrete.

Here, the interval at which the water flow guide plate 30 is embedded may be arbitrarily set, but preferably about 3-5 m; In addition, the embedding angle of the water flow guide plate 30 formed from the upper side to the lower side of the outer surface and the slope of the drainage pipe 10 is preferably formed at an acute angle or less; In addition, the upper surface of the water flow guide plate 30 is preferably buried so as to protrude to the upper side unit 20 of the drainage pipe (10).

As described above, the water flow guide plate 30 embedded in the outer surface of the drainage pipe 10 at regular intervals is continuously along the outer surface of the drainage pipe 10 in the process of rainwater flowing into the drainage pipe 10. It blocks the flow to That is, the water flow guide plate 30 serves to prevent backfilling along with rainwater to flow along the outer surface of the drainage pipe 10 to prevent the side channel from being formed. The formation of the side channel is more preferably performed when the upper surface of the water flow guide plate 30 protrudes upwardly from the upper side of the side wall 20 of the drainage pipe 10.

At this time, when the drainage pipe 10 is used as a ready-made product during the construction of the water flow guide plate 30, the water flow guide plate 30 is embedded at a predetermined interval so as to be located at the outer surface of the drainage pipe 10, and the drainage pipe tube When the construction (10) is intended to be cast in place of concrete, a part of the water flow guide plate 30 is embedded in concrete so that the water flow guide plate 30 cannot be changed even by the change of the soil.

In addition, the technical configuration that the buried angle of the water flow guide plate 30 is an acute angle from the upper side to the lower side is the rainwater flowing along the outer surface of the drainage pipe 10 along the water flow guide plate 30 drain pipe ( 10) helps to flow into the interior. The inflow guide role of the rainwater is more preferably performed when the upper surface of the water flow guide plate 30 protrudes upward than the upper side of the side wall 20 of the drainage pipe 10.

The embedding angle θ of the water flow guide plate 30 is constructed differently according to the angle of the slope surface. For example, it is preferable that the embedding angle of the water flow guide plate 30 becomes an acute angle as the angle of the slope surface increases. . In addition, the water flow guide plate 30 may use any material regardless of synthetic resin material or wood.

As described above, in the drainage pipe 10 constructed according to the construction method of the present invention, water flows in which rainwater flowing along the outer surface of the drainage pipe 10 protrudes upward from the side wall 20 of the drainage pipe 10. It is caught by the guide plate 30 to be guided into the interior of the drainage pipe 10 so as to flow into the interior of the drainage pipe 10, so that the soil of the outer surface is dug up and the side channel is prevented from being formed. That is, when the soil is lost by the rain outside the side wall of the drainage pipe 10, the water flow guide plate 30 prevents it, so there is no fear that a side channel is formed by preventing the loss of soil. There is no fear of this field.

As described above, the construction method of the present invention prevents the filling soil filling the outer surface of the drain pipe connected continuously to prevent the formation of the channel, so that the drainage channel is not lifted and is buried in place for a long time. It is very useful to ensure that it works correctly.

Claims (4)

After the pit excavation process of excavating the pit at the position where the drainage channel is to be constructed, after the drainage pipe connecting process of continuously connecting the drainage pipes in the inside of the pit, the tosaume filling the soil in the space part of the outer surface of the drainage pipe During the process, the construction method of the slope drainage, characterized in that the water flow guide plates are embedded in the outer surface of the drainage pipe at regular intervals. The method of claim 1, wherein the buried angle at which the water flow guide plate is embedded is formed at an acute angle of less than orthogonal to the lower side from the upper side of the outer surface and the inclined surface of the drainage pipe. The method of claim 1, wherein the upper surface of the water flow guide plate is embedded so as to protrude in units on the side wall of the drain pipe. After the pit excavation process of excavating the pit at the position where the drainage channel is to be constructed, during the concrete pouring process of the drainage pipe which continuously connects the drainage pipes inside the pit, the water flow guide plates are fixed on the outer side of the drainage pipe. A method of constructing a slope drainage channel characterized in that the water flow guide plates are buried by filling a portion of the soil in the space of the outer surface of the drainage pipe after the portion is embedded in concrete to be installed at intervals.