KR20120062449A - The first rainfall exclusion type rainwater storage devices - Google Patents

Abstract

PURPOSE: A rainwater storage device except for initial rainwater is provided to increase rainwater capacity by connecting a siphon pipe between an initial rainwater tank and a first rainwater storage tank. CONSTITUTION: A rainwater storage device except for initial rainwater comprises a rainwater inlet(11), a rectification unit, a surplus rainwater guide pipe(13), a filtering unit(14), an inspection hole(16), multiple storage tanks(21,22,23,24,25), a stored rainwater outlet(21a), multiple chamber partition walls(21b,22a,23a,24a), chamber outlets(21c,22b,23b,24b), a reusing pump(26), a pump control unit(27), and a siphon pipe. The rectification unit sinks precipitate into the bottom. The surplus rainwater guide pipe exhausts the sunk precipitate to the outside. The stored rainwater outlet is formed at the inlet of the first storage tank. The chamber partition walls partition the storage tanks. The reusing pump is formed at the fifth storage tank. The siphon pipe is arranged between an initial rainwater tank and the first storage tank.

Description

The first rainfall exclusion type rainwater storage devices}

The present invention relates to a rainwater storage device of the initial excellent drainage type, in particular, the initial 5% rainwater generated during the rainy season has a lot of suspended matter, so the sediment is excluded by the initial excellent drainage and the rainwater is introduced into the storage tank. The present invention relates to an initial excellent rainwater storage device that can be reused as garden water and general living water during dry season.

Korea's average annual rainfall is 1,245mm, 1.4 times higher than the world average of 880mm, but because of its high population density, the annual rainfall per capita is 2,591mm, which is only one eighth of the world's annual rainfall. Therefore, in order to solve such water shortages, the development of a nationwide water shortage improvement system is urgently needed, but as a result of the so-called desert water management system that has focused only on the rapid drainage of rainwater, the urban drainage has been reduced due to the reduced drainage capacity. Flooding occurs frequently, and in rural areas, enormous damage of crops due to flooding of rivers continues.

In particular, Korea is one of the most difficult countries to manage water due to disasters that occur at the same time as floods and droughts each year, and there is a lack of facilities that can use rainwater to store rainwater concentrated in summer and reduce spillage through storage facilities. It is true.

Therefore, in order to minimize the damage caused by rainwater, the rainwater is not drained to the ground, but the rainwater is filtered and the sediment and the injured water are filtered and stored in a storage tank having a constant volume. Various technical means have been developed. Looking at the example disclosed in Korea Patent Publication No. 10-0485227 as follows.

Prior to the technical description, the initial excellent storage tank configured in the prior art data will be described in the excluded state because it is a constituent element not present in the present invention.

In other words, the filtration device is installed in the upper part of the rainwater inlet of the rainwater inlet pipe and the microfiltration network is installed on the top of the sedimentation tank, and the perforated vortex prevention plates of a number of perforation holes are installed on one side of the rainwater inlet. Install the diffusion type sterilizer with built-in disinfectant, and place the sediment suction discharge pipe at the bottom of the sedimentation tank and storage tank of the storage tank, and install the sediment discharge control valve between the sediment discharge pump and the sediment suction discharge pipe. It is done.

However, as described above, the sediment trapped in the sedimentation tank and the storage tank in the rainwater storage tank is operated to discharge the sediment suction pump to the outside by suction through the sediment suction discharge pipe. The technical means of discharging has a disadvantage of requiring a large installation cost, and inevitably leads to a delay of air.

In addition, the vortex flow prevention plate with perforation holes is installed as a means of improving the sedimentation efficiency by relieving the speed of rainwater with a high flow rate, but the flow rate of the rainwater can be alleviated to some extent. There is a problem that the loss of the function of the vortex prevention plate is caused by the side effects such as the soil having a specific gravity to block the perforation holes.

And, in the part not described above, the overflow water discharge port is installed on one side of the rainwater inlet, and when the rainwater received in the sedimentation tank and the storage tank of the rainwater storage tank becomes the full water level, the overflowwater discharge port overflows to the overflowwater discharge pipe and discharges through the overflowwater discharge pipe to the sewer. It is supposed to.

However, a problem arises in the filtration apparatus which must pass through when the surplus rainwater is transferred to the overflow water outlet. In other words, because the fine filter network disposed in the filtering device is a state in which a large amount of waste, earth and sand, and organic matter have been collected in the meantime, it is discharged to the sewer through the overflow water discharge pipe along with various wastes due to the stormwater flowing back. There is a problem of deepening the pollution, especially, when a large amount of waste moves to the overflow water outlet at the same time is exposed to the problem that the overflow water outlet is blocked by the waste.

The present invention has been made in order to solve the above problems, for the purpose is disposed with a surplus water induction pipe for discharging the sediment accumulated on the bottom to the outside with the natural surplus rainwater in the rainwater introduced into the initial excellent tank The purpose is to provide for the discharge of sediment by natural phenomena.

Another purpose is to maintain the same level of water that can be accommodated in each chamber even when the rainwater tank is separated into a plurality of chambers, and a siphon pipe is disposed between the initial excellent tank and the rainwater tank. Its purpose is to provide efficient segregation of the initial stormwater and increase its storage capacity.

The present invention for achieving the above object is the rainwater inlet (11) and rainwater flowing in the rainwater inlet in the initial rainwater tank (10) of the initial excellent drainage device (1) to the hydraulic structure As the flow rate is lowered, the floating part is located in the upper part, and the sediment contained in the rainwater sinks to the lower part, and the sludge and natural surplus rainwater generated from the rectifying part 12 are generated. Along with the surplus water induction pipe 13 for discharging the sediment accumulated on the bottom to the outside, the filter unit 14 having a means for removing the fine residue, and the light debris contained in rainwater, garbage The check opening 16 and the rainwater storage tank 20 of the rainwater storage tank 2 which can be opened to be made can be designed to have the same height and accommodate a large number of 1 to 2 to 3 to 4 to accommodate the same water capacity. ? 5 storage tanks (21) (22) (23) (24) (25), and the said 1 storage tank (2) At the inlet of 1), the storage rainwater outlet 21a into which the water purified by the filtration unit 14 is introduced, and the 1 to 2 to 3 storage tanks 21 and 22 are provided.

1-2-3-4 room compartment walls 21b, 22a, 23a, 24a which respectively partition 24, and said 1-3-4 room compartment walls 21b, 22a, 23a. 24a has a plurality of chamber outlets 21c and 22b which are open to allow free flow of water within each of the 1 to 2 to 3 to 4 storage tanks 21, 22, 23 and 24.

(23b) (24b) and the five reservoir tank (25) has a reuse pump (26) for using water as garden water or general semi-living water, and a pump control unit (27) for controlling the reuse pump (26); When the water level of the water contained in the first storage tank 21 is lower than the excellent water level received in the initial excellent tank 10 between the initial excellent tank 10 and the first storage tank 21, the first storage tank 21 by the difference in water level Is achieved by arranging the siphon tube 30 through which water flows.

As described above, the present invention is disposed in the rainwater flowing into the initial excellent tank, the excess water induction pipe for discharging the sediment accumulated on the bottom to the outside with natural surplus rain is disposed, it is possible to discharge the sediment by the natural phenomenon, Even though the rainwater storage tank is separated into a plurality of chambers, a separate outlet for the same water level is provided for each storage tank, and a siphon pipe is connected between the initial excellent tank and the first storage tank of the rainwater storage tank. Increasing the storage capacity and the inflow of the initial initial rainfall is easy to effect.

1 is a cross-sectional plan view of the present invention.
2 is a side cross-sectional view of the present invention.
Figure 3 is an enlarged view of the filtration portion of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

As shown in FIGS. 1 and 2, in the initial excellent tank 10 of the initial excellent drainage device 1, the excellent excellent inlet city excellent inlet port 11 is disposed at the left end, and the excellent inlet port 11 is provided. As the flow rate is reduced by the hydraulic structure of the rainwater flows from the float is located in the upper portion, the sediment embedded in the rain water sinks to the bottom 12 is located in the center of the tank, the rectifying portion 12 The excess water induction pipe 13 for discharging the sediment accumulated on the bottom to the outside along with the sludge to be precipitated and natural surplus rainwater generated from the outside passes through the bottom of the tank and the center of the rectifying part 12 to the outside of the tank. It is installed.

Here, a surplus rainwater inlet 13a through which natural surplus rainwater flows is formed at the lower end of the surplus rainwater induction pipe 13, and a surplus rainwater outlet 13b exposed to the outside of the initial rain tank 10 is provided at the upper end.

A filtration unit 14 having means for removing fine residues is arranged on top of one side of the tank.

Here, the filtration chamber inlet 142 having a plurality of pores 142a in the lower part of the filtration chamber 141 disposed in the filtration unit 14, and the fine residue contained in the rainwater is removed in the filtration chamber 141. A filtration filter 143 is provided.

In addition, an inspection opening 16 may be disposed at the upper portion of the initial excellent tank 10 so as to filter out the floating leaves such as light fallen leaves and garbage contained in the rainwater.

The rainwater storage tank 20 of the rainwater storage tank 2 is designed to have the same height and can accommodate a large number of 1 to 2 to 3 to 5 storage tanks 21, 22, and 23 that can accommodate the same water capacity. It may be dispensed with (24) (25), and further distribution is possible.

At the inlet of the first storage tank 21, a storage rainwater outlet 21a into which the water purified by the filtration unit 14 is introduced is formed, and the 1 to 2 to 3 storage tanks 21, 22, and 23 are formed. 1 to 2 to 3 to 4 actual compartment walls 21b, 22a, 23a, and 24a are respectively formed to partition the 24.

The 1 to 2 to 3 to 4 compartment compartment walls 21b, 22a, 23a and 24a have a plurality of chamber outlets 21c and 22b which are open to allow free flow of rain within each storage tank. 23b) and 24b may be disposed below, but the direction thereof may be arranged without distinguishing the position.

The five storage tank 25 is disposed with a reuse pump 26 for using the water as garden water or general semi-living water, the reuse pump 26 is controlled by the pump control unit 27.

And between the initial excellent tank 10 and the first storage tank 21, if the water level of the water contained in the first storage tank 21 is lower than the excellent water level received in the initial excellent tank 10, the initial excellent tank ( The siphon pipe 30 is arrange | positioned so that water may move to the 1 storage tank 21 from 10).

The operation of the present invention configured as described above is as follows.

First, when rainwater flows into the rainwater inlet 11 of the initial excellent tank 10, rainwater flows into the upper end of the rectifying part 12 at a position orthogonal to the end of the rainwater inlet 11. At this time, the raindrops, garbage, etc., which are injured while the flow rate is lowered due to the hydraulic structure, are raised to the surface of the rectifier 12. And the sediment with the remaining specific gravity sinks to the bottom.

The garbage and fallen leaves, etc., which are injured as described above, are collected around the inspection port 16 and the sediment is collected on the bottom surface of the initial excellent tank 10.

The rainwater that filtered the light deciduous leaves and garbage and accumulated sediment sludge as described above is transferred to the filtering unit 14 disposed on the upper right of the initial excellent tank 10 to filter the bar 14, and the filtering unit 14. Rainwater flows into the filtration chamber inlet 142 having a plurality of pores 142a disposed therein, and the filtration filter 143 disposed above the filtration chamber inlet 142 removes fine residue contained in the rainwater. do.

The clear water from which the residue is removed from the filtration unit 14 flows into the first storage tank 21 located at the tip of the rainwater storage tank 20 through the storage rainwater outlet 21a.

As described above, when a large amount of water flows into the first storage tank 21 continuously, the water flows out into the separate storage outlet 21c opened under the first compartment partition wall 21b to be transferred to the second storage tank 22. do.

2, 3, 4, 5 storage tanks 22, 23 through the separate outlets 22b, 23b, 24b perforated in each of the 2-3-4 storage tanks 22, 23, 24 in the same manner. (24) (25) Water is transferred to each 1? 2? 3? 4? 5 reservoirs 21, 22, 23, 24, 25, and each reservoir has the same water level line (L1) is achieved.

As described above, when each storage tank becomes the full water level line (L1), it is no longer able to store in the rainwater storage tank 20.

Therefore, after the rainwater stays in the initial excellent tank 10, the water level rises to reach the excess discharge water level line (L2) flows into the excess water inlet (13a) formed in the lower end of the excess water induction pipe 13 and surplus It is discharged to the rainwater outlet (13b). At this time, the foreign matter is discharged to the outside, such as accumulated sediment staying in the lower portion of the initial excellent tank 10 is completely extinguished.

After the rainy season ends and the dry season arrives, there is no water flowing from the initial rainwater tank (10) anymore, and the storage water contained in the rainwater storage tank (20) is used as garden water or general living water as a reuse pump (26). Therefore, the water level is lowered below the full water level line (L1).

And since the water level of the rainwater reservoir tank 20 is lower than the rainwater stored in the initial excellent tank 10, the siphon pipe 30 that is immersed in the water at the full water level is filled with the rainwater is converted into a state capable of siphon action By having the function of the siphon pipe 30 is exerted, rainwater stored in the initial excellent tank 10 is introduced into the rainwater storage tank 20.

Therefore, the water level of the initial excellent tank 10 is lowered to the level of the end of the siphon tube 30 by the siphon tube 30 to be naturally reduced to 1/2 to secure a storage space of the initial excellent rain during the next rainy season.

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, and various equivalents may be substituted for them. It should be understood that there may be variations and examples.

1. Initial excellent drainage device 10: Initial excellent tank
11: rainwater inlet 12: rectifier
13: surplus excellent induction pipe 13a: surplus excellent inlet
13b: surplus water outlet 14: filtration unit
141: filtration chamber 142: filtration chamber inlet
142a: porous 143: filtration filter
16: Inspection port 2: Rainwater storage device
20: rainwater storage tank 21: 1 storage tank
21a: reservoir rainwater outlet 21b: 1 compartment compartment
22: 2 reservoir tank 22a: 2 compartment partition wall
23: 3 reservoir tank 23a: 3 compartment compartment wall
24: 4 storage tank 24a: 4 compartment compartment
25: 5 reservoir 21c, 22b, 23b, 24b: separate outlet
26: reused pump 27: pump control unit
30: siphon pipe L1: high water level line
L2: Surplus Emission Level Line

Claims (4)

Rainwater inlet (11) and rainwater flows into the initial rainwater tank (10) of the initial excellent drainage device (1),
The rainwater flowing from the rainwater inlet 11 is lowered by the hydraulic structure, so that the floating material is positioned at the upper portion, and the sediment contained in the rainwater sinks to the lower portion 12;
A surplus water induction pipe 13 for discharging the sediment accumulated on the bottom to the outside together with the sludge to be precipitated and the natural surplus rainwater generated in the rectifier 12;
A filtration unit 14 having means for removing fine residues,
An inspection opening 16 which can be opened to filter out injured matter such as light deciduous leaves and garbage contained in rainwater,
The rainwater storage tank 20 of the rainwater storage tank 2 is designed to have the same height and can accommodate a large number of 1 to 2 to 3 to 5 storage tanks 21, 22, and 23 that can accommodate the same water capacity. (24) (25),
At the inlet of the first storage tank 21, a storage rainwater outlet 21a into which water purified by the filtration unit 14 is introduced, and
1 to 2 to 4 actual compartment walls 21b, 22a, 23a and 24a respectively partitioning the 1 to 2 to 4 storage tanks 21, 22, 23 and 24, respectively. ? 2? 3? 4 Real compartment walls 21b, 22a, 23a, 24a have multiple chamber outlets 21c, 22b, 23b open to allow free flow of water within each reservoir. With 24b,
The five reservoir tank 25 and the reuse pump 26 to use the water as garden water or general quasi-living water, and
A pump control unit 27 for controlling the reuse pump 26;
Between the initial excellent tank 10 and the first storage tank 21, if the water level of the water contained in the first storage tank 21 is lower than the water level of the excellent water contained in the initial excellent tank 10, the initial excellent tank ( Initial excellent drainage type rainwater storage device, characterized in that the siphon pipe (30) is moved from the water 10). The method according to claim 1,
The initial excellent drainage, characterized in that the surplus rainwater inlet 13a at the lower end of the excess water induction pipe 13 and the surplus rainwater outlet 13b exposed to the outside of the initial rain tank 10 is formed at the upper end. Mold rainwater storage device. The method according to claim 1,
The filtration chamber inlet 142 having a plurality of pores 142a in the lower part of the filtration chamber 141 disposed in the filtration unit 14, and the filtration to remove fine residues contained in rainwater in the filtration chamber 141. Initial excellent drainage rainwater storage device, characterized in that consisting of a filter (143). The method according to claim 1,
The initial excellent drainage type rainwater storage device, characterized in that the depth of the siphon pipe (30) disposed in the initial excellent tank 10 is disposed at a higher position in the one storage tank (21).

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