KR20210017196A - Debris barrier with integrated side wall - Google Patents

Abstract

A disclosed side wall-integrated debris barrier includes: a foundation part provided with a set length and width along an installation target flow path, and having a flat upper surface; a blocking part provided on the upper surface of the foundation part, provided on an upstream side with respect to the installation target flow path, and blocking floodwood and soil and stones; a flow velocity degradation part provided on the upper side of the foundation part, provided in the downstream of the blocking part with respect to the installation target flow path, and reducing the flow velocity and kinetic energy of water flowing along the installation target flow path; a sand heap part placed between the blocking part and the flow velocity degradation part, provided in a storage space formed by the blocking part, the flow velocity degradation part and the foundation part, and having an opening filled with rocks or pebbles; and a vertically positioned side wall being extended from both sides of the foundation part, to which both ends of the flow velocity degradation part and the blocking part are fixed, and provided with a length including the foundation part along the installation target flow path. Therefore, the present invention is capable of reducing construction costs and shortening construction periods.

Description

{Debris barrier with integrated side wall}

The present invention (Disclosure) relates to an all-in-one side wall dam, and more specifically, to a side-wall all-in-one all-in-one dam that can be constructed in a complex area in an urban living area.

Here, background technology related to the present invention is provided, and these do not necessarily mean known technology (This section provides background information related to the present disclosure which is not necessarily prior art).

Sabang Dam is a barrier that is installed across the mountain stream to reduce damage from landslides and floods in mountain streams, that is, a small dam, and is a disaster prevention facility that secures the safety of residents living in downstream areas.

The Sabang Dam blocks sedimentary power coming down from the upstream due to landslides, soil flows, and floods, and reduces the flow velocity and kinetic energy of the running water to prevent secondary damage in the downstream areas.

The Sabang Dam is installed in a place where the sediment and stone power is severely moved, and its purpose is to stabilize the desolate gye-sang (溪上).

The Sabang Dam has a drainage hole in the lower part of the main body, and water is waterproofed through this hole in normal water.

In the event of a flood, water and sedimentary power are temporarily deposited to the effective height of the dam, creating a gentle slope around the dam, and the lag time of running water and sedimentary power. It increases and decreases kinetic energy to inhibit the downstream movement.

In addition, in order to maintain the stability of the structure through solid fixation to the ground, the Sabang dam is constructed by digging the slope at the edge of the mooring in the direction orthogonal to the flow path to install the structure.

However, in recent years, urban living areas are expanding and expanding to mountainous areas, and rural areas are expanding.

Due to this, the mountainous area and the living area are very close, the movement distance of the soil caused by the landslide is shortened, and the space that can block the soil is narrowed, and there is a fear of very great damage when a landslide occurs in the urban living area.

Accordingly, it is necessary to establish all-around facilities in the area adjacent to the mountain area.

However, when installing the Sabang Dam, the Sabang Dam structure installed in an existing mountainous area that requires widespread construction of the shoulder of the dam to secure the surrounding land has difficulty in securing land due to the rise in land prices and complex intellectual property in the periphery of the city.

Therefore, it is necessary to propose a new type of four-way dam structure considering the characteristics of urban living areas.

1. Korean Patent Application Publication 10-2017-0075497

The present invention (Disclosure) is an integrated side wall type, and it is possible to support the load of the dam even when the shoulder intrusion for securing the stability of the dam is minimized. Is for work purposes.

An object of the present invention (Disclosure) is to provide a side wall integrated four-way dam to which a double blocking structure is applied in order to increase the effect of preventing soil flow in a narrow section.

Here, a summary of the present invention is provided, and this section provides a general summary of the disclosure and is not a comprehensive disclosure of its full scope or all of its features).

In order to solve the above problems, the side wall integrated four-way dam according to any one of the various aspects describing the present invention is provided to have a length and width set along a flow path to be installed, and has a flat top surface. Foundation; A blocking part provided on the upper surface of the base part, provided upstream of the installation target flow path, and blocking driftwood and soil stone; A flow rate lowering part provided on the upper surface of the base part, provided downstream of the blocking part based on the installation target flow path, and reducing a flow rate and kinetic energy of water flowing through the installation target flow path; A bottom sand portion disposed between the blocking portion and the flow rate lowering portion, provided as an accommodation space formed by the blocking portion, the flow rate lowering portion, and the base portion, and filled with rocks or gravel in which voids are formed; And sidewalls extending from both sides of the base part and erected, and fixing both ends of the blocking part and the flow rate reducing part, and having a length including the base part along the installation target flow path.

In the all-in-one sidewall dam according to an aspect of the present invention, the blocking unit is disposed on the upper surface of the base, connects the sidewalls across the base in the width direction, and is provided to have a set height. Body part; And a blocking structure that is fixed to the upper surface of the blocking body and passes water flowing down the flow path to be installed, but blocks driftwood and soil.

In the all-in-one side wall dam according to an aspect of the present invention, the blocking structure may be a slit structure or a screen structure using at least one of stone, concrete, and steel.

In the sidewall integrated four-way dam according to another aspect of the present invention, the blocking structure unit includes: a plurality of blocking pillars erected and provided with an interval on the upper surface of the blocking body unit; And a plurality of blocking bars provided by connecting two adjacent blocking pillars of the plurality of blocking pillars in a horizontal direction, and having a distance from each other in the longitudinal direction of the blocking pillars.

In the all-in-one sidewall dam according to another aspect of the present invention, the blocking pillars are n (n>2 natural numbers) on the upstream side based on the installation target flow path, and (n-1) on the downstream side. ) Is provided in (n>2 natural number), and are arranged to be offset from each other in the direction of the installation target flow path, and the blocking bar is installed in a W shape when viewed from the top in the longitudinal direction of the blocking pillar.

In the sidewall integrated four-way dam according to another aspect of the various aspects describing the present invention, the flow rate reducing portion is disposed on the upper surface of the foundation, and connects the sidewalls across the foundation in the width direction, A water outlet pipe provided to have a set height, the height of the upper end being lower than both sides, provided at the lower side adjacent to the base, and penetrating in the direction of the installation target flow path; and in the direction of the installation target flow path. It has; a mesh net member provided on the inlet side of the water outlet pipe.

In the side wall integrated four-way dam according to an aspect of the present invention, a purification member accommodated in the bottom sand, disposed at one side of the outlet pipe, and filled with activated carbon therein.

In the sidewall integrated four-way dam according to another aspect of the various aspects describing the present invention, the sidewall has a length of 2L to 2.25L based on the length L of the foundation, but the installation It extends in the direction of the target flow path at a length ratio of 5:3 upstream and downstream of the base.

According to the present invention, it is possible to construct a minimum width in a complex area in an urban living area with an integrated sidewall structure, and shorten the business air by saving the time required for installation of the work piece through the integrated construction.

According to the present invention, it is possible to save construction cost by reducing the quantity of digging for shoulder access with the integrated sidewall structure.

According to the present invention, it is possible to prevent erosion in the downstream area by increasing the effect of preventing earth and stone flow with the double blocking facility (first driftwood blocking, second bottom sand), and reducing the flow rate and kinetic energy of flowing water.

According to the present invention, by installing a simple purification facility in a low dead space, it is possible to prevent odor civil complaints by inducing the suppression of floating matter and water purification in the Sabang Dam.

1 is a perspective view showing a first embodiment of a side wall integrated four-way dam according to the present invention from a downstream side.
Figure 2 is a perspective view of the side wall integrated four-bang dam of Figure 1 seen from the upstream side.
3 is an enlarged view of the blocking portion of the second embodiment of the integrated sidewall dam according to the present invention.
Figure 4 is a view showing the side wall integrated four-way dam of Figure 3 from the upper side.
Figure 5 is a perspective view showing a third embodiment of the side wall integrated four-sided dam according to the present invention from the upstream side.
6 is a perspective view showing a fourth embodiment of the integrated sidewall dam according to the present invention from an upstream side.
7 is a perspective view showing a fifth embodiment of the integrated side wall four-way dam according to the present invention from the downstream side.
Figure 8 is a perspective view showing a sixth embodiment of the side wall integrated four-sided dam according to the present invention from the upstream side.
Fig. 9 is a perspective view showing a seventh embodiment of the integrated sidewall dam according to the present invention from the upstream side.

Hereinafter, with reference to the drawings, an embodiment in which a side wall integrated four-way dam according to the present invention is implemented will be described in detail.

However, the intrinsic technical idea of the present invention cannot be said to be limited by the embodiments to be described below, and the intrinsic technical idea of the present invention is given below by a person skilled in the art. It turns out to cover the range that can be easily proposed by a method of substitution or change of the embodiment described in FIG.

In addition, since the terms used below are selected for convenience of description, in grasping the intrinsic technical idea of the present invention, it is not limited to the dictionary meaning and is appropriately interpreted as a meaning consistent with the technical idea of the present invention. Should be.

1 is a perspective view showing an embodiment of the side wall integrated four-sided dam according to the present invention from a downstream side, and FIG. 2 is a perspective view of the side-walled four-sided dam of FIG. 1 from an upstream side.

1 to 2, the side wall integrated four-way dam according to the present embodiment includes a base portion 10, a blocking portion 30, a flow rate lowering portion 40, a bottom dead portion 50, and a side wall 20. Have.

The base portion 10 is provided to have a length and width set along a flow path to be installed, and has a flat top surface.

The blocking part 30 is provided on the upper surface of the foundation part 10, provided on the upstream side of the installation target flow path, blocks driftwood and earth and rocks, and reduces the flow velocity and kinetic energy of water.

The flow rate lowering part 40 is provided on the upper surface of the base part 10, is provided downstream of the blocking part 30 based on the installation target flow path, and reduces the flow velocity and kinetic energy of water flowing through the installation target flow path.

The bottom part 50 is disposed between the blocking part 30 and the flow rate reducing part 40, and is a receiving space formed by the blocking part 30, the flow rate reducing part 40, and the base part 10. It is provided and is filled with rocks or gravel in which voids are formed.

The side wall 20 is erected and extended from both sides of the base 10, and both ends of the blocking part 30 and the flow rate lowering part 40 are fixed, and the base part 10 is moved along the path to be installed. It is provided in a length including.

1 to 2 show a state in which a part 20a of the sidewall is removed.

In the all-in-one side wall dam according to the present embodiment, the side wall 20 is integrally fixed (reinforced concrete structure) with the base portion 10, the blocking portion 30 and the flow rate lowering portion 40 and provided, and the installation target flow path By being provided along the length, it is possible to replace the shoulder muscle mouth.

Therefore, it is possible to construct in an intellectually complex area within an urban living area.

Further, according to the present embodiment, the blocking portion 30 and the bottom dead portion 50 form a double blocking facility.

The blocking unit 30 is large in size and blocks the weight of driftwood and soil. Driftwood and soil, which are blocked from moving downstream by the blocking unit 30, are accumulated on the upstream side of the blocking unit 30.

The bottom sand portion 50 disposed on the downstream side of the blocking portion 30 reduces the flow velocity of water. Water whose flow rate is slowed reduces kinetic energy, thereby minimizing the loss of soil or trees and damage to property and human life in the downstream.

In addition, small particles of soil or various floating matters contained in water having a slow flow rate and reduced kinetic energy are blocked by being precipitated in the bottom sand portion 50.

Therefore, with a double blocking facility formed by the blocking part 30 and the bottom sand part 50, it is possible to increase the effect of preventing soil flow and prevent erosion in the downstream area.

3 is an enlarged view of the blocking portion of the second embodiment of the integrated sidewall dam according to the present invention, and FIG. 4 is a view showing the integrated sidewall dam of FIG. 3 from above.

Referring to FIGS. 3 to 4, in the sidewall integrated four-way dam according to the present embodiment, the blocking portion 30 includes a blocking body portion 31 and a blocking structure portion 32.

The blocking body part 31 is disposed on the upper surface of the base part 10, and connects the side walls 20 across the base part 10 in the width direction, and is provided to have a set height.

The blocking structure part 32 is fixedly provided on the upper surface of the blocking body part 31, and passes water flowing down the flow path to be installed, but reduces the kinetic energy by slowing the speed thereof, and blocks driftwood and soil.

In addition, referring to FIGS. 3 to 4, the blocking structure 32 includes a blocking pillar 32a and a blocking bar 32b.

Blocking pillars (32a), a plurality of the blocking body portion 31 is erected with an interval on the upper surface is provided.

The blocking bars 32b are provided by connecting two adjacent blocking pillars 32a among the plurality of blocking pillars 32a in the horizontal direction, and are provided in plurality with spaces apart from each other in the longitudinal direction of the blocking pillars 32a. .

In addition, the blocking pillars 32a are provided with n (n>2 natural numbers) on the upstream side and (n-1) (n>2 natural numbers) on the downstream side based on the installation target flow path, They are arranged to be shifted from each other in the flow direction. Further, the blocking bar 32b is installed in a W shape when viewed from the top in the longitudinal direction of the blocking pillar 32a.

In addition, the blocking structure 32 may have a plurality of fastening bars 32c connecting each of n pieces of blocking pillars 32a disposed on the upstream side and (n-1) blocking pillars 32a disposed on the downstream side.

Fig. 5 is a perspective view showing a fourth embodiment of a sidewall integrated four-way dam according to the present invention from an upstream side.

Referring to FIG. 5, in the all-in-one side wall dam according to the present embodiment, the flow rate lowering portion 40 is disposed on the upper surface of the base 10, and crosses the base 10 in the width direction, and the side wall 20 ) Is connected and provided to have a set height, but the height of the upper end is provided with the central part lower than both sides.

In addition, the flow rate lowering portion 40 of the all-in-one side wall dam according to the present embodiment is provided on the lower side adjacent to the base portion 10, and a water outlet pipe 41 penetrated in the direction of the installation target flow path, and the installation target It has a mesh net member 42 provided on the inlet side of the water outlet pipe 41 in the flow path direction.

6 is a perspective view showing a fourth embodiment of a side wall integrated four-way dam according to the present invention from an upstream side.

Referring to FIG. 6, in the sidewall integrated four-way dam according to the present embodiment, it is accommodated in the bottom part 50, is disposed at one side of the water outlet pipe 41, and has a purification member 51 filled with activated carbon therein. .

Accordingly, in the all-in-one side wall dam according to the present embodiment, by installing the purifying member 51 in the bottom part 50, it is possible to prevent odor civil complaints by inducing the suppression of floating matter and water purification in the four-way dam.

In addition, the purification member 51 may be provided with activated carbon, and the bottom sand portion 50 may be filled with the purification member 51.

Fig. 7 is a perspective view showing a fifth embodiment of a sidewall integrated four-sided dam according to the present invention from a downstream side.

Referring to FIG. 7, in the all-in-one side wall dam according to the present embodiment, the side wall 20 has a length of 2L to 2.25L based on the length L of the foundation 10, but in the direction of the installation target flow path. It extends at a length ratio of 5:3 upstream and downstream of the base 10.

FIG. 8 is a perspective view showing a sixth embodiment of the side wall integrated four-way dam according to the present invention from an upstream side, and FIG. 9 is a perspective view showing a seventh embodiment of the side wall integrated four-way dam according to the present invention from an upstream side.

First, referring to FIG. 8, the blocking structure part 30 of the integrated side wall type four-way dam according to the present embodiment has a slit structure.

In addition, referring to FIG. 9, the blocking structure part 30 of the integrated sidewall dam according to the present embodiment is a screen structure.

The blocking structure part 30 of FIGS. 8 to 9 may be made of at least one of stone, concrete, and steel.

Claims (8)

A base portion provided to have a length and a width set along the path to be installed and having a flat upper surface;
A blocking part provided on the upper surface of the base part, provided on an upstream side of the installation target flow path, and blocking driftwood and soil or reducing a flow rate of water;
A flow rate lowering part provided on the upper surface of the base part, provided downstream of the blocking part based on the installation target flow path, and reducing a flow rate and kinetic energy of water flowing through the installation target flow path;
A bottom sand portion disposed between the blocking portion and the flow rate lowering portion, provided as an accommodation space formed by the blocking portion, the flow rate lowering portion, and the base portion, and filled with rocks or gravel in which voids are formed; And
A side wall integrated four-way dam having a side wall extending from both sides of the base and erected, and fixed to both ends of the blocking part and the flow rate reducing part, and having a length including the base part along the installation target flow path. The method according to claim 1,
The blocking unit,
A blocking body disposed on an upper surface of the base, connecting the sidewalls across the base in a width direction, and having a set height; And
A side wall integrated four-way dam having a; a blocking structure provided fixed to the upper surface of the blocking body portion, allowing water flowing down the flow path to be installed to pass, but blocking driftwood and soil or reducing the flow velocity of water. The method according to claim 2,
The blocking structure part,
A slit structure or a screen structure using at least one of stone, concrete, and steel. The method according to claim 2,
The blocking structure part,
A plurality of blocking pillars that are erected and provided with an interval on the upper surface of the blocking body; And
A side wall integrated four-way dam having a plurality of blocking bars provided by connecting two adjacent blocking pillars in a horizontal direction among the plurality of blocking pillars, and having a plurality of blocking bars having a distance from each other in the longitudinal direction of the blocking pillar. The method of claim 4,
The blocking pillar,
It is provided with n (a natural number of n>2) on the upstream side and (n-1) (a natural number of n>2) on the downstream side based on the installation target flow path, and are arranged to deviate from each other in the direction of the installation target flow path. ,
When the blocking bar is viewed from the upper side in the longitudinal direction of the blocking pillar, the sidewall integrated four-way dam is installed in a W-shape. The method according to claim 1,
The flow rate lowering part,
It is disposed on the upper surface of the base part, connects the sidewalls across the base part in the width direction, and is provided to have a set height, but the height of the upper end is provided with the central part lower than both sides,
A water outlet pipe provided at a lower side adjacent to the base and passing through the installation target flow path; and
A side wall integrated four-way dam having; The method of claim 6,
Doedoe housed in the bottom, disposed on one side of the outlet pipe, a purification member filled with activated carbon therein; The method according to claim 1,
The side wall has a length of 2L to 2.25L based on the length (L) of the foundation, but extends upstream and downstream of the foundation in the direction of the installation target flow path at a length ratio of 5:3. .

Images