KR100808923B1 - Water storaging system of an incline area - Google Patents

Abstract

A water storage system for a slope is provided to prevent the breaking of a slope by rainwater by storing up flowing water from the upper part of a slope not to flow along a slope and making water storage tanks function as barriers, and to promote the growth of plants by circulating water stored in the water storage tanks and supplying the water to plants growing on a slope. A water storage system for a slope comprises a filter device(1) composed of one or more filter tanks(11,12) installed in multistage from the top of a slope to filter out rainwater containing fallen leaves or soil, and a water storage device(2) composed of multistage water storage tanks(21,22,23) buried in multistage along the slope and connected mutually by connection pipes(24) to store filtered water discharged from the filter device, wherein inspection holes(221,231) are formed on the upper part of each water storage tank to remove impurities accumulated in the water storage tank. In addition, a circulation pipe is installed between the uppermost filter tank and the lowermost water storage tank, and a circulation pump is installed to the circulation pipe and operated with electricity supplied by a power supply device to pump water stored in the water storage tank and to circulate the water to the filter tank to prevent decomposition of water.

Description

Water storaging system of an incline area

1 is a block diagram of a storage system for a slope according to the present invention,

Figure 2 is a side cross-sectional view of the storage system for slopes according to the present invention shown in FIG.

Figure 3 is a side cross-sectional view showing another example of the storage system for slopes according to the present invention.

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

1: filtration means

  11, 12: filtration tank 121: filter

2: storage means

  21, 22, 23: reservoir tank 21a: water inlet 221, 231: inspection port

  24 connector

3: circulation tube

4: circulation pump

5: lid

6: filter

7: drainage

The present invention relates to a storage system for slopes, in particular, is installed in the incision or steep slope of the mountain to store the rainwater flowing from the top during heavy rains and the slopes or incisions are collapsed by the heavy rain due to the load by the stored water acts It relates to a sloping reservoir system that can act as a barrier to prevent this.

Furthermore, the present invention relates to a storage system for slopes, which can store rainwater and supply water to slopes or incisions during the dry season, so that plants in the incisions or slopes can be killed by lack of moisture.

In large-scale civil engineering works for road and rail facilities, one of the essential works is to cut off part of the mountain to form an incision. Incisions or natural slopes (hereinafter referred to as 'slopes') having a predetermined angle formed by such civil works are collapsed by rainwater during heavy rains, thereby blocking roads or greatly damaging buildings.

As a facility for reinforcing such slopes, reinforcing structures such as gabions or nets are being installed.

However, these reinforcing structures are grounded on roads or railway tracks due to the flow of water or sand from the top of the slopes, making it impossible to pass the roads or railroad tracks, as well as the grounds that support these structures by severely flowing water. There was a problem that collapsed slopes collapse.

In addition, in the case of the slopes thus constructed, the landscaping is made by planting grass or trees on the slopes, but the trees or grasses are dried in the dry season, and thus there is a problem that the slopes reinforcement role is not sufficiently fulfilled by them.

Accordingly, the present invention has been invented to solve the above problems, the water flowing from the top of the slope is stored by preventing the water flowing along the slope to prevent the slope to be broken down by rainwater to prevent the collapse of the slope To provide a system.

In addition, the present invention can prevent the collapse of the slope by the storage tank that stores the water flowing from the top of the slope to act as a barrier, by circulating the water stored in the reservoir tank and supplying the plant planted on the slope of the plant It is an object of the present invention to provide a storage system for slopes that can help growth.

Storage system for the inclined land according to the present invention for achieving the above object is the filtering means configured by installing one or more filtration tanks in multiple stages along the slope from the top of the slope; It is characterized in that it consists of a storage means consisting of a multi-stage storage tank for storing the filtered water discharged from the filtering means buried in multiple stages along the slope.

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

1 is a block diagram of a storage system for slopes according to the present invention, Figure 2 is a side cross-sectional view of the storage system for slopes according to the present invention shown in Figure 1, Figure 3 is another of the storage system for slopes according to the present invention It is a side sectional view which shows an example.

As shown, the storage system for slopes according to the present invention comprises a filtration means (1) configured by installing one or more filtration tanks (11, 12) in multiple stages from the top of the slope; It is characterized by consisting of the storage means (2) consisting of a multi-stage storage tank (21, 22, 23) for storing the filtered water discharged from the filtering means (1) buried in multiple stages along the slope do.

The filtering means (1) is a means for filtering the water flowing down from the top of the slope, in particular, rain, rain, leaves, etc. in the heavy rain two or more having different heights as shown in Figs. It consists of filtration tanks 11 and 12.

The filtration means 1 is configured on the upper end of the slope, and is installed long to be horizontal with the slope is configured over the entire upper portion of the slope.

The upper filtration tank 11 configured above the upper and lower filtration tanks 11 and 12 constituting the filtration means 1 collects water flowing along the inclined surface thereof, and filters fallen leaves or small stones flowing with the water. The water flows into the lower filtration tank 12 while the upper filtration tank 11 is sufficiently filled with water.

As shown in FIGS. 1 and 2, the lower filtration tank 12 is provided with a filtration filter 121 having a plurality of pores through which water can pass.

The filtration filter 121 may be formed by firing aggregate with concrete or asphalt, and in this case, by mixing a small amount of concrete or asphalt, a hole through which water flows may be formed between the aggregates.

In addition, the filtration filter 121 may be configured by stacking a multi-layered mesh formed with other water holes.

Typically, the water flowing on the slope is mixed with deciduous leaves, etc. If they are accumulated in the lower filter tank 12, the flow of water is blocked, so that the water cannot flow to the filtration filter 121.

Therefore, the filtering means 1 of the present invention should be provided with means for discharging foreign matters such as fallen leaves contained in the rainwater, for this purpose is provided with a drainage passage 7 on one side of the lower filtration tank 12. That is, the side wall of the filtration tank 12 facing the drainage path 7 is formed lower than other parts so that a part of rainwater is discharged to the drainage path 7 so that foreign substances such as fallen leaves can flow into the drainage path.

In addition, the drain hole 122 of the lower filtration tank 12 in which the lower filtration tank 12 and the reservoir tank 21 communicate with each other to store the water filtered by the filtration filter 121 more cleanly is shown in FIG. 1. It formed through the side wall of the lower filtration tank 12.

The drain hole 122 penetrated through the side wall of the lower filtration tank 12 is formed at one side of the storage tank 21 installed at the top of the multiple storage tanks 21, 22, and 23 constituting the storage means 2. It is formed to face the water inlet 21a.

The reservoir tanks 21, 22, 23 which constitute the reservoir means 2 are made of corrugated tubes as cylindrical cylinders as shown.

The water inlet 21a is provided with a lid 5 at an upper portion thereof, and the water outlet 122 is formed through the side wall of the water inlet 21a and the side wall of the lower filtration tank 12. The inlet 21a serves as a checker to check the interior of the reservoir tank 21 later.

The reservoir tanks 21, 22, and 23 are connected to each other by a connection tube 24, and the connection tube 24 is provided at an upper portion and a lower portion of an interruption portion of the storage tank installed at an upper portion as shown. It is connected to the part below the tank stop.

By connecting the connection tube 24 to the upper part of the stop of the reservoir tank installed at the top and the portion below the stop of the reservoir tank installed at the bottom, the foreign matter contained in the water stored in the upper reservoir tank and settled to the bottom is It is possible to prevent movement to the reservoir tank.

The upper one side of each of the reservoir tanks (21, 22, 23) is further provided with check openings (211, 221, 231) in communication with the inside, each of the check openings (211, 221, 231) more lid 6 It is installed. In this way, by installing the inspection port, foreign matters accumulated in the reservoir can be removed.

In addition, a filter 6 may be further installed at the water inlet 21a of the water storage tank 21 installed at the uppermost end, and the filter 6 may be formed of any one of a filter cloth, a felt, and a sponge. have. By further installing the filter 6 in this way, the water filtered by the lower filtration tank 12 can be once again filtered to store cleaner water.

In the water storage system of the present invention configured as described above, a circulation pipe 3 is further installed between the uppermost filtration tank 11 and the lowest storage tank 23 among the filtration means 1, and the circulation pipe 3 ) Is further provided with a circulation pump 4 which is driven by being supplied with power by the power supply means 41.

The circulation pump 4 pumps the water stored in the reservoir tank to circulate the upper filtration tank 11 to prevent the water from decaying. The power supply means 41 for supplying electricity to the circulation pump 5 can save energy by using a solar cell.

The solar cell constituting the power supply means 41 is a technique widely known as a conventional electricity generating means using a solar cell, and a detailed description thereof will be omitted.

In addition, the auxiliary power supply means 42 is connected in parallel to the power supply means 41.

The auxiliary power supply means 42 may be a commercial power source commonly used as a power supply means when the solar cell is unable to function, and such a power supply means 41 and an auxiliary power supply means ( 42 is a well known technique, and a description thereof will be omitted.

A plurality of water supply holes 20 are formed on a surface of the lower filtration tank 12 facing down the slope, and each of the water supply holes 20 is provided with a door 20a to be opened and closed.

The water supply hole 20 is a means for supplying water to plants planted on the slope by supplying water to the slope, and opening the door to the dry season and driving the circulation pump 4 to circulate the water in the reservoir tank to the plants. Water can be supplied.

The storage tanks 21, 22, and 23 are connected to the upper end of the lower storage tank and the stop of the upper storage tank when the slope of the slope is urgent as shown in FIG. 3.

As described above, the storage system for the inclined land according to the present invention is installed on the incision or steep slope of the mountain to store rainwater flowing from the upper part during heavy rain, and the slope or incision is collapsed by the heavy rain due to the load by the stored water. It is effective to prevent that. In addition, the filter device for removing the contaminants present in the rainwater is coupled to have the characteristics that can be utilized for landscaping, such as good quality rainwater stored.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

Claims (6)

Filtering means (1) configured by installing one or more filtration tanks (11, 12) horizontally and multistage along the inclined surface from the upper end of the sloping ground; The water storage means (2) consisting of a multi-stage storage tank (21, 22, 23) for storing the filtered water discharged from the filtering means (1) and embedded in a plurality of stages horizontally long along the slope Is composed, A circulation pipe 3 is further installed between the uppermost filtration tank 11 and the lowest storage tank 23 among the filtration means 1, and the circulation pipe 3 is electrically powered by a power supply means 41. Slope system for storage of slopes, characterized in that the circulation pump (4) driven by receiving more installed. delete 2. The inclination of claim 1, wherein the main power supply means 41 for supplying electricity to the circulation pump 4 is a solar cell, and the auxiliary power supply means 42 connected in parallel thereto is a commercial power source. Groundwater storage system According to claim 1 or 3, wherein the reservoir tanks 21, 22, 23 are connected to each other by a connecting tube 24, the connection tube 24 is the foreign matter of the upper storage tank of the lower storage tank Slope storage system, characterized in that the stop of the upper reservoir tank and the stop of the lower reservoir tank is installed in communication in order to prevent flow to the water. 5. The slope storage according to claim 4, wherein a filter means (6), such as a filter cloth, a felt, a sponge, or the like is additionally installed at the inlet 21a of the reservoir tank 21 installed at the uppermost end. system. The filtration filter 121 having a plurality of pores through which water passes is provided in the lower filtration tank 12 positioned below the upper and lower filtration tanks 11 and 12 constituting the filtration means 1. Is installed, a portion of the lower filtration tank 12 is in communication with the inlet port 21a of the storage tank 21 of the uppermost of the storage tanks (21, 22, 23), the one side of the lower filtration tank 12 The drainage system for slopes, characterized in that the drainage passage (7) is further installed to overflow the initial rainwater supplied over the filtration filter (121).

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