KR101741957B1 - Pond circulation system utilizing rain water storage - Google Patents

Abstract

The present invention relates to a system for storing and reusing rainwater during a rainfall in a housing complex such as an apartment, a large building, and a public facility. The system includes a first filtration unit for filtering suspended matters and contaminants contained in rainwater collected during rainfall, A siphon for discharging the stored rainwater by non-motor force when the water level of the rainwater stored in the water collecting pond is equal to or more than a set value, a siphon for discharging the stored rainwater through the first filtering unit, A second filtration unit that filters the contaminants of the rainwater discharged through the second filtration unit, and an underground water storage tank that stores rainwater that is supplied through the second filtration unit, and a pond circulation system using the rainwater storage tank .
According to the pond circulation system using the rainwater storage tank of the present invention, the problem of pollution caused by propagation of germs or pests as time goes by in the rainwater storage and reuse facility is solved, It is easy to install and maintain the equipment, provides the midnight effect by sunlight and flow as the minimum power, and provides economical efficiency in reuse of rainwater.

Description

{Pond circulation system using rain water storage}

The present invention relates to a system for storing and reusing rainwater in a housing complex such as an apartment, a large building, and a public facility, and more particularly, to a system for reusing rainwater, Pond circulation using a rainwater pond for easy installation and maintenance of facilities for storing and managing rainwater, providing a midnight effect by sunlight and flow as a minimum power, and providing economy in reuse of rainwater System technology.

Techniques for storing and reusing rainwater are known in the prior art. As a background of the pond circulation system utilizing the rainwater storage tank of the present invention, there is a groundwater and stormwater management device technology of Korean Patent No. 10-1566948 B1 shown in FIG. This technology is installed in the ground to manage groundwater and stormwater. It is a device that can store groundwater; A storage tank having a water storage space provided therein so as to receive and store rainwater separately from groundwater stored in the groundwater tank; A groundwater supply pipe for supplying groundwater stored in the groundwater tank to the inside of the storage tank; And a drain pipe branched from the groundwater supply pipe to discharge a part of the fluid in the storage tank to the outside when the fluid level in the storage tank exceeds a set reference range. However, this technique has a problem in that the storability of the groundwater stored in the groundwater tank and the storages stored in the storage tank are limited by the reuse of stored groundwater and stormwater contaminated by the propagation of germs and pests as time passes.

As another background of the present invention, Korean Patent No. 10-1622222 B1 shown in FIG. 2 has a rainwater harvesting device technique for drought, flood prevention, and sinkhole prevention. This technique has a primary filtration unit including a floating damper and a screen net to open and close the inlet according to the amount of raw water to be introduced, a sediment guide plate for guiding sediment contained in the filtered water filtered by the primary filtration unit, A secondary filtration unit connected to the sedimentation unit and including a plurality of filter media for filtering the filtered water filtered by the sedimentation filter; A storage tank for storing filtered water filtered by a secondary filtration unit and including a plurality of hydraulic pressure buffer columns installed at a predetermined interval on the inner wall surface and a plurality of anti- A submerged infiltration pipe connected to the reservoir to infiltrate the raw water in the reservoir into the ground; And a living water pipe connected to the floating water spout for discharging the filtered water from the upper part of the water level to the outside so that rain water or valley water is used as domestic water and the filtered water It can be used as a flushing water for flushing water or it can be used as a heavy water tank. It can prevent sinkholes by penetrating into groundwater aquifers, It is possible to prevent the drought and flood damage by constantly flowing water to the river and to improve the water quality of the river and to prevent the hydraulic pressure and the earth pressure from being buried in the ground by the anti- There is a characteristic that can be done. This technique has the problem that the storages stored in the storage tank are contaminated by propagation of bacteria or pests over time as in the background art.

As another background of the present invention, there is a system for reducing a non-point pollution source of a wetland using a storage tank of Korean Patent No. 10-1030860 B1 shown in FIG. This technique collects rainwater and discharges stormwater or rainfall below the maximum reservoir level WL1 to the reservoir and releases the stormwater exceeding the reservoir maximum water level WL1 to the overflow waterway House modification; And a water level sensor for storing the storm inflow from the first storm reservoir and discharging stormwater stored through the storm reservoir outflow to the second storm reservoir; And a second collecting unit for collecting the stormwater inflowed from the reservoir and discharging the stormwater to the constructed wetland); And an aquatic plant having an aquatic plant for reserving and cleansing stormwater introduced from the second dust collector; A settling paper having a drainage channel and a discharge water channel for collecting the rainwater inflowed from the wetland; And a water level control unit connected to an end of the discharge water path provided in the sedimentation tank and having a water level controllable at a maximum wet level WL6 of the wetland, And a filtration facility for filtering out the rainwater flowing in from the first water level control unit and discharging the rainwater to the storage tank; And a water supply channel connected to a pump for storing stormwater flowing from the filtration facility and supplying stormwater to the reservoir, wherein the stormwater tank includes a reservoir And a non-point source reduction method using the same. This technology is not only a complex facility including a plurality of collecting facilities, a construction wetland, a sedimentation unit, and a water level control unit, but also a system for simply discharging rainwater (excellent).

KR 10-1566948 B1 KR 10-1622222 B1 KR 10-1030860 B1 KR 10-1635513 B1 KR 10-1588201 B1 KR 10-1412530 B1 KR 10-1530970 B1

Disclosure of Invention Technical Problem [10] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a rainwater storage and reuse facility capable of solving the problem of pollution by propagation of bacteria or pests, A pond circulation system using a rainwater storage tank that provides a midnight effect by sunlight and flow as a minimum power and provides economical efficiency in the reuse of rainwater.

The present invention provides a system installed to store and reuse rainwater during rainfall, comprising: a first filtration unit (100) for filtering suspended matter and contaminants contained in rainwater collected during rainfall; An open-air type collecting pond (200) for storing rainwater primarily filtered through the first filtering unit (100); A siphon (300) for discharging stored rainwater by non-dynamic force when the level of the rainwater stored in the water collection pond (200) becomes a set value or more; A second filtration unit 400 for secondarily filtering contaminants of rainwater discharged through the siphon 300; And a rainwater storage tank (500) for storing rainwater supplied through the second filtration unit (400). The present invention provides a pond circulation system utilizing the rainwater storage tank.

According to the pond circulation system using the rainwater storage tank of the present invention, the problem of pollution caused by propagation of germs or pests as time goes by in the rainwater storage and reuse facility is solved, It is easy to install and maintain the equipment, provides the technical effect of providing economical efficiency in reuse of rainwater by providing the midnight effect by sunlight and flow as the minimum power.

Figure 1 shows the composition of groundwater and stormwater management technology
Figure 2 is another background description of rainwater harvesting device technology for drought, flood prevention and sinkhole prevention.
FIG. 3 is another background of the artificial wetland-type nonpoint source pollution reduction system using a storage tank and its method
FIG. 4 is a diagram showing the basic configuration of the present invention
FIG. 5 is a view showing the configuration of the first embodiment of the present invention
FIG. 6 is a perspective view of a first filtration unit 100, a water collection pond 200, and a siphon 300 according to a first embodiment of the present invention.
FIG. 7 shows a detailed configuration of a siphon 300, a second filtration unit 400, and a rainwater storage tank 500 according to the present invention.
FIG. 8 is a view showing an operation relationship for collecting rainwater in the first embodiment of the pond circulation system utilizing the rainwater storage tank of the present invention
FIG. 9 is a diagram illustrating an operation relationship for circulating rainwater in the first embodiment of the pond circulation system utilizing the rainwater storage tank of the present invention
FIG. 10 is a view showing the configuration of the second embodiment of the present invention
11 shows a detailed configuration of the first filtering part 100 in the second embodiment of the present invention.
12 shows a detailed configuration of the siphon 300 - the second filtration unit 400 - the overflow discharge unit 470 - the rainwater storage tank 500 of the present invention
FIG. 13 is a diagram illustrating an operation relationship for collecting rainwater in the second embodiment of the pond circulation system utilizing the rainwater storage tank of the present invention
FIG. 14 is a diagram showing an operation relationship for circulating rainwater in the second embodiment of the pond circulation system utilizing the rainwater storage tank of the present invention
15 shows a configuration for driving the circulation pump P1 (510) and the water supply pump P2 (520) in the pond circulation system utilizing the rainwater storage tank of the present invention,

The following merely illustrates the principles of the invention. Accordingly, those skilled in the art will be able to devise various apparatuses which, although not explicitly described or shown herein, embody the principles of the invention and are included in the concept and scope of the invention. Furthermore, all of the conditional terms and embodiments listed herein are, in principle, intended only for the purpose of enabling understanding of the concepts of the present invention, and are not intended to be limiting in any way to the specifically listed embodiments and conditions .

It is also to be understood that the detailed description, as well as the principles, aspects and embodiments of the invention, as well as specific embodiments thereof, are intended to cover structural and functional equivalents thereof. It is also to be understood that such equivalents include all elements contemplated to perform the same function irrespective of currently known equivalents as well as equivalents to be developed in the future.

The above objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings

Facilities for storing and reusing rainwater are installed to store and reuse rainwater during rainfall in housing complexes such as apartments, large buildings, and public facilities. However, most of the rainwater storage and reuse facilities are confined to rainwater storage facilities, as described in the background art, so that the stored rainwater is contaminated by the propagation of bacteria or pests over time. In addition, since the facilities for storing and managing rainwater are complicated, it is difficult to install and maintain them, and there are many cases in which the economical efficiency in reuse of stored rainwater can not be secured.

On the other hand, rainwater collected in lakes and rivers in nature is characterized by purifying as time goes by midnight effect by sunlight and flow.

The present invention relates to a pond utilizing a rainwater storage tank which is easy to install and maintain facilities for storing and managing rainwater, provides a midnight effect by sunlight and flow as a minimum power, and provides economical efficiency in reuse of rainwater. Circulation system.

FIG. 4 shows a basic configuration of the present invention. The pond circulation system utilizing the rainwater storage tank of the present invention includes a first filtration unit 100 for filtering suspended matters and contaminants contained in rainwater collected during rainfall in a housing complex such as an apartment building, a large building, and a public facility. An open-air type collecting pond (200) for storing rainwater primarily filtered through the first filtering unit (100); A siphon (300) for discharging the rainwater stored in the water collection pond (200) to a stored rainwater non-motive force when the water level becomes a set value or more; A second filtration unit 400 for secondarily filtering contaminants of rainwater discharged through the siphon 300; And a rainwater storage tank (500) for storing rainwater supplied through the second filtration unit (400).

The rainwater storage tank 500 is provided with an overflow discharge port 800 for discharging rainwater having an allowable storage amount or more to the outside such as a sewer or the like and a storm drainage tank 600 for supplying rainwater stored in the stormwater storage tank 500 to the outside. And a circulation channel 700 for pumping the rainwater stored in the rainwater storage tank 500 to the water collection pond 200 for circulation. The pond circulation system using the rainwater storage tank according to the present invention has a structure in which the rainwater stored in the rainwater storage tank 500 is collected by the water collection pond 200 - the siphon 300 - the second filtration unit 400 - The purification operation of the open-air type pond refinement pond 200 and the pollutant filtration process of the second filtration unit 400 are repeated by circulating the purified water through the path of the storage tank 500, thereby enabling to reuse high quality purified rainwater .

FIG. 5 shows the configuration of a first embodiment of the present invention. In a first embodiment of the present invention, A first filtration unit (100) for filtering the suspended substances and contaminants contained in rainwater collected during rainfall; An open-air type collecting pond (200) for storing rainwater primarily filtered through the first filtering unit (100); A siphon (300) for discharging stored rainwater by non-dynamic force when the level of the rainwater stored in the water collection pond (200) becomes a set value or more; A second filtration unit 400 for secondarily filtering contaminants contained in rainwater discharged through the siphon 300; And a rainwater storage tank (500) for storing rainwater supplied through the second filtration unit (400).

The upper end of the rainwater storage tank 500 is provided with an overflow discharge port 800 to discharge rainwater having an allowable storage amount or more to the outside such as a sewer. A circulation channel 700 is provided between the stormwater storage tank 500 and the stormwater pond 200 to circulate the rainwater stored in the stormwater storage tank 500 to the stormwater pond 200 through the circulation pump P1 Respectively.

The stormwater storage tank 500 is provided with a faucet pump P2 (520), and stored rainwater is provided as a storm water receiver (600), so that rainwater stored in the storm reservoir (500) can be used from outside. At this time, a meter (not shown) may be installed in the rainwater receiver 600 to check the amount of usage. The collecting pond water level gauge 210 and the rainwater collecting water level gauge 540 are installed in the water collecting pond 200 and the rainwater storage tank 500 to provide storage water amount information. The ground portion of the rainwater storage tank 500 can be reused as a parking lot, a park, and a resting space.

The pond circulation system using the rainwater storage tank according to the present invention has a structure in which the rainwater stored in the rainwater storage tank 500 is collected by the water collection pond 200 - the siphon 300 - the second filtration unit 400 - The circulation of the circulating water to the path of the storage tank 500 repeats the purifying operation of the open-air type pond refinement pond 200 and the pollutant filtering process of the second filtering unit 400 so that high quality purified rainwater can be stored and reused .

6 shows a detailed configuration of the first filtering unit 100, the water collecting pond 200, and the siphon 300 in the first embodiment of the present invention. The first filtration part 100 of the first embodiment of the present invention comprises: A water collecting channel 110 for supplying rainwater collected through a channel or the like in a housing complex such as an apartment or a large building or a public facility in a rainfall mode and a floating water pipe 110 connected to the water collecting channel 110, A first filtration tank 130 for filtering; And a first filtration tank drainage path 120 for supplying rainwater through the first filtration tank 130 to the collecting pond 200.

The first filtration tank 130 is provided with a first filtration unit 140 for filtering suspended matters and contaminants contained in rainwater supplied to the catchment channel 110. The upper end of the first filtration tank 150 is connected to the first filtration tank cover 150, . Various materials can be applied to the first filtering unit 140. For example, an eco-filtering unit filled with gravel, coarse sand, sand or the like may be applied to the inside of the mesh.

The end of the circulation channel 700 is connected to the first filtration tank drainage path 120 so that the rainwater of the rainwater storage tank 500 is circulated and supplied by the circulation pump P1 510.

The rainwater supplied through the catchment hall 110 during rainfall and the rainwater circulated and supplied from the rainwater storage vessel 500 by the circulation pump P1 510 are collected through the first filtration tank drainage path 120, As shown in FIG. The pond (200) is an open-air type in which the upper end is opened to the ground, and the rainwater of the pond (200) can provide a midnight action by sunlight. A siphon 300 is installed on one side of the water collection pond 200 to discharge rainwater from the bottom of the water collection pond 200 to the outside of the water collection pond 200.

The height h2 of the upper end of the siphon 300, that is, the water level at which the siphon 300 starts discharging rainwater, is set to be lower than the lower height h1 of the first filtration tank drainage path 120, 510 allows the rainwater circulating and supplied from the rainwater storage tank 500 to circulate through the first filtration tank drainage canal 120 without overflowing.

FIG. 7 shows a detailed configuration of the siphon 300 - the second filtration unit 400 - the rainwater storage tank 500 of the present invention. 6, one end of the siphon 300 is disposed on one side of the pond 200, and the siphon 300 is connected to the outside of the pond 200 through the bottom of the pond 200 To discharge rainwater. The other end of the siphon 300 is connected to the second filtering unit 400 so that rainwater discharged from the sphygmomanometer pond 200 through the siphon 300 can be supplied. At this time, the second filtration unit 400 is provided with rainwater through a collecting tank 310 having a partition having one side opened to relieve the flow of rainwater discharged through the siphon 300. The rainwater whose flow has been relaxed through the collecting tank 310 is passed through the second filtration tank 420 through the second filtration tank 430 which again filters pollutants contained in the rainwater through the collecting tank discharge water channel 410 And stored in the rainwater storage tank 500.

In the second filtration tank 430, a second filtration means 440 for filtering contaminants contained in rainwater supplied to the collecting tank discharge water channel 410 is installed, and the upper end thereof is connected to a second filtration tank cover 450; . The second filtration means 440 can be applied to various materials such as the first filtration means 140 described above. For example, the second filtration means 440 may function as an eco-filtration means filled with gravel, coarse masato, sand, .

The rainwater stored in the rainwater storage tank 500 according to the present invention is circulated through the circulation water channel 700 to the water collection pond 200 by the circulation pump P1 510. The rainwater storage tank 500 is also provided with a water receiving pump P2 (520), and the stored rainwater is provided as a rainwater catcher (600) to be used. A meter (not shown) may be installed in the rainwater catcher 600 to check the amount of use. In addition, the rainwater storage tank 540 is installed in the rainwater storage tank 500 so that the storage amount information can be grasped from the outside.

The sludge collecting unit 530 is installed at one side of the bottom surface of the rainwater storage tank 500 at a lower position than the other bottom surface to collect minute dust or soil particles contained in stored rainwater.

The overflow storage tank 500 is provided with an overflow discharge port 800 to discharge rainwater having an allowable storage amount or more to the outside such as a sewer or the like and the overflow discharge port 800 is connected to the second filtration tank discharge port 420 So that the rainwater in the rainwater storage tank 500 can be stored and circulated without flowing back to the second filtration tank drainage passage 420.

FIG. 8 illustrates an operation relationship for collecting rainwater in the first embodiment of the pond circulation system utilizing the storm water storage tank of the present invention.

Referring to FIG. 1 (a), a pond circulation system using rainwater storage tank of the present invention is installed and rainwater collected during rainfall is collected in a water collection pond 200 through a first filtration unit 100. Next, as shown in FIG. 5B, when the rainwater collected in the water collecting pond 200 reaches the height h2 of the upper end of the siphon 300, the siphon 300 discharges the rainwater, And is stored in the rainwater storage tank 500 via the second filtration unit 400. When the rainfall continues, the stormwater is continuously collected in the pond refinement pond 200 and the siphon 300 is operated, so rainwater can be stored repeatedly in the stormwater storage tank 500. The rainwater stored in the rainwater storage tank 500 can be stored in the rainwater storage tank 500 by discharging the rainwater having the allowable storage amount or more through the overflow outlet 800 at the upper end of the rainwater storage tank 500 to the sewer or pipeline . When rainfall is stopped, rainwater is stored in the pond pool 200 and the rainwater storage tank 500 as shown in FIG.

FIG. 9 illustrates an operation relationship for circulating rainwater in the first embodiment of the pond circulation system utilizing the storm water storage tank of the present invention.

8, rainwater is stored in the rainwater storage pond 200 and the rainwater storage tank 500, and the rainwater stored in the rainwater storage tank 500 is stored in the stormwater storage pond 200 and the rainwater storage tank 500, And it can be reused by providing it as a storm drain (600).

At this time, the rainwater stored in the rainwater storage tank 500 may be contaminated by the propagation of bacteria or pests over time. In contrast, according to the present invention, the rainwater stored in the rainwater storage tank 500 is supplied to the water collection pond 200 through the circulation water channel 700 as the circulation pump P1 (510), as shown in FIG. The rainwater supplied to the water collecting pond 200 is discharged from the water collecting pond 200 until the height h2 of the upper end of the siphon 300, that is, the water level at which the siphon 300 starts to discharge the rainwater, It is affected by sunlight and flow at midnight. When the water level rises and the siphon 300 operates, the rainwater discharged from the pond 200 is removed through the second filtration unit 400 and stored in the rainwater storage tank 500. At this time, the siphon 300 discharges rainwater from the bottom surface of the water collecting pond 200, and the rainwater storage tank 500, the circulation water path 700, the water collecting pond 200, 2 filtration unit 400 - The rainwater circulating through the path of the rainwater storage tank 500 through self-purification and filtration is stored in the rainwater storage tank 500.

In this case, the circulation of the rainwater can be carried out by various methods. For example, when the capacity of the circulation pump P1 (510) is sufficient, the circulation between the rainwater storage tank (500) and the water collection pond (200) can be progressed over several times during a daytime for self-purification. Alternatively, the circulation pump P1 (510) before sunrise may be driven to supply the rainwater of the rainwater storage tank (500) to the water collection pond (200) until the water level of the siphon (300) starts to discharge the rainwater, The circulation pump P1 (510) is restarted to allow the siphon (300) to discharge the rainwater, so that the circulation can be performed once a day. The circulation pump P1 (510) is driven at night by applying a relatively small circulation pump P1 (510), and the rainwater of the rainwater storage tank (500) is collected by the siphon (300) until the water level of the siphon And the siphon 300 may be driven to discharge the rainwater by supplying the air to the fire pond 200 and restarting the circulation pump P1 (510) at the time of sunset. In this regard, a more detailed embodiment for driving the circulation pump P1 (510) will be described later.

FIG. 10 shows the configuration of a second embodiment of the present invention. The second embodiment of the present invention is characterized in that a space can be saved by providing the rainwater storage tank 500 in the lower part of the lower end of the open-air type pond refinement pond 200, unlike the first embodiment described above. The second embodiment of the present invention thus provides: A first filtration unit (100) for filtering the suspended substances and contaminants contained in rainwater collected during rainfall; An open-air type collecting pond (200) for storing rainwater primarily filtered through the first filtering unit (100); A siphon (300) for discharging stored rainwater by non-dynamic force when the level of the rainwater stored in the water collection pond (200) becomes a set value or more; A second filtration unit 400 for secondarily filtering contaminants contained in rainwater discharged through the siphon 300; And a rainwater storage tank (500) for storing rainwater supplied through the second filtration unit (400).

The rainwater storage tank 500 is installed in the lower part of the lower end of the outdoor type pond refinement pond 200 and the overflow discharge part 470 is installed between the second filtration part 400 and the rainwater storage tank 500 . The overflow discharge unit 470 is provided at one side thereof with an overflow discharge port 800 for discharging rainwater over a permissible storage amount that can be stored in the storm reservoir 500 to the outside such as a sewer. A rainwater storage tank channel 480 is installed at the other end of the overflow discharge unit 470 so that rainwater through the second filtering unit 400 is stored in the rainwater storage tank 500. The overflow discharge unit 470 is installed at a height of h3 and a height h3 of the overflow discharge port 800 is set to be higher than a height h4 of the storm water storage channel 480, And stored in the rainwater storage tank 500 so as to be circulated

A circulation channel 700 is provided between the rainwater storage tank 500 and the water collection pool 200 to circulate the rainwater stored in the rainwater storage tank 500 to the water collection pool 200 through the circulation pump P1 Respectively.

The stormwater storage tank 500 is provided with a faucet pump P2 (520), and stored rainwater is provided as a storm water receiver (600), so that rainwater stored in the storm reservoir (500) can be used from outside. A meter (not shown) may be installed in the rainwater catcher 600 to check the amount of use. The collecting pond water level gauge 210 and the rainwater collecting water level gauge 540 are installed in the water collecting pond 200 and the rainwater storage tank 500 to provide storage water amount information.

The pond circulation system utilizing the rainwater storage tank according to the present invention is characterized in that the rainwater stored in the rainwater storage tank 500 is circulated through the collecting pond 200, the siphon 300, the second filtration unit 400, The purging operation of the outdoor type pond refinement pond 200 and the pollutant filtering process of the second filtration unit 400 are repeated by circulating the air through the discharge unit 470 and the rainwater storage tank 500. Thus, Can be stored and reused.

FIG. 11 shows a detailed configuration of the first filtering unit 100 in the second embodiment of the present invention. The first filtration part 100 of the second embodiment of the present invention comprises: A water collecting channel 110 for supplying rainwater collected through a channel or the like in a housing complex such as an apartment or a large building or a public facility in a rainfall mode and a floating water pipe 110 connected to the water collecting channel 110, A first filtration tank 130 for filtering; And a first filtration tank drainage path 120 for supplying rainwater through the first filtration tank 130 to the collecting pond 200.

The first filtration tank 130 is provided with a first filtration unit 140 for filtering suspended matters and contaminants contained in rainwater supplied to the catchment channel 110. The upper end of the first filtration tank 150 is connected to the first filtration tank cover 150, . Various materials can be applied to the first filtering unit 140. For example, an eco-filtering unit filled with gravel, coarse sand, sand or the like may be applied to the inside of the mesh.

The end of the circulation channel 700 is connected to the first filtration tank drainage path 120 so that the rainwater of the rainwater storage tank 500 is circulated and supplied by the circulation pump P1 510.

The rainwater supplied through the catchment hall 110 during rainfall and the rainwater circulated and supplied from the rainwater storage vessel 500 by the circulation pump P1 510 are collected through the first filtration tank drainage path 120, As shown in FIG. The pond (200) is an open-top type with the top opened to the ground, and the rainwater of the pond (200) can provide a midnight action by sunlight. A siphon 300 is installed on one side of the water collection pond 200 to discharge rainwater from the bottom of the water collection pond 200 to the outside of the water collection pond 200.

The height h2 of the upper end of the siphon 300, that is, the water level at which the siphon 300 starts discharging rainwater, is set to be lower than the lower height h1 of the first filtration tank drainage path 120, 510 allows the rainwater circulating and supplied from the rainwater storage tank 500 to circulate through the first filtration tank drainage canal 120 without overflowing.

12 shows the detailed construction of the siphon 300, the second filtration unit 400, the overflow discharge unit 470, and the rainwater storage tank 500 of the present invention. 11, one end of a siphon 300 is disposed on one side of the pond 200, and the siphon 300 is connected to the outside of the pond 200 through the bottom of the pond 200 To discharge rainwater. The other end of the siphon 300 is connected to the second filtering unit 400 so that rainwater discharged from the sphygmomanometer pond 200 through the siphon 300 can be supplied. At this time, the second filtration unit 400 is provided with rainwater through a collecting tank 310 having a partition having one side opened to relieve the flow of rainwater discharged through the siphon 300. The rainwater whose flow has been relaxed through the collecting tank 310 is passed through the second filtration tank 420 through the second filtration tank 430 which again filters pollutants contained in the rainwater through the collecting tank discharge water channel 410 And is stored in the rainwater storage tank 500 after passing through the overflow discharge unit 470.

The second filtration tank 430 is provided with a second filtration means 440 for filtering contaminants contained in the rainwater supplied to the collecting tank discharge water passage 410. The upper end of the second filtration tank 430 is provided with a second filtration tank, (460). The second filtration means 440 can be applied to various materials such as the first filtration means 140 described above. For example, the second filtration means 440 may function as an eco-filtration means filled with gravel, coarse masato, sand, .

Therefore, the rainwater stored in the rainwater storage tank 500 of the present invention is circulated through the circulation channel 700 to the water collection pond 200 by the circulation pump P1 (510) P2 (520) is installed, and the stored rainwater is provided as a rainwater catcher (600) to be used. A meter (not shown) may be installed in the rainwater catcher 600 to check the amount of use. In addition, the rainwater storage tank 540 is installed in the rainwater storage tank 500 so that the storage amount information can be grasped from the outside.

The sludge collecting unit 530 is installed at one side of the bottom surface of the rainwater storage tank 500 at a lower position than the other bottom surface to collect minute dust or soil particles contained in stored rainwater.

FIG. 13 illustrates the operation of collecting rainwater in the second embodiment of the pond circulation system utilizing the rainwater storage of the present invention.

Referring to FIG. 1 (a), a pond circulation system using rainwater storage tank of the present invention is installed and rainwater collected during rainfall is collected in a water collection pond 200 through a first filtration unit 100. Next, as shown in FIG. 5B, when the rainwater collected in the water collecting pond 200 reaches the height h2 of the upper end of the siphon 300 of FIG. 10, the siphon 300 discharges the rainwater, The discharged rainwater is stored in the rainwater storage tank 500 through the second filtration unit 400 and the overflow discharge unit 470. When the rainfall continues, the stormwater is continuously collected in the pond refinement pond 200 and the siphon 300 is operated, so rainwater can be stored repeatedly in the stormwater storage tank 500. The rainwater stored in the rainwater storage tank 500 is allowed to be discharged to the sewer or pipeline through the overflow outlet 800 of the overflow discharge unit 470 so that a certain amount of rainwater can be stored in the rainwater storage tank 500 have. When rainfall is stopped, rainwater is stored in the pond pool 200 and the rainwater storage tank 500 as shown in FIG.

FIG. 14 illustrates an operation relationship for circulating rainwater in the second embodiment of the pond circulation system utilizing the rainwater storage tank of the present invention.

8, rainwater is stored in the rainwater storage pond 200 and the rainwater storage tank 500, and the rainwater stored in the rainwater storage tank 500 is stored in the stormwater storage pond 200 and the rainwater storage tank 500, And it can be reused by providing it as a storm drain (600).

At this time, the rainwater stored in the rainwater storage tank 500 may be contaminated by the propagation of bacteria or pests over time. In contrast, according to the present invention, the rainwater stored in the rainwater storage tank 500 is supplied to the water collection pond 200 through the circulation water channel 700 as the circulation pump P1 (510), as shown in FIG. The rainwater supplied to the water collecting pond 200 is discharged from the water collecting pond 200 until the height h2 of the upper end of the siphon 300, that is, the water level at which the siphon 300 starts to discharge the rainwater, It is affected by sunlight and flow at midnight. When the water level rises and the siphon 300 operates, the rainwater discharged from the pond refinement pond 200 is removed through the second filtration part 400, and the impurities are removed through the overflow discharge part 470, (500). At this time, the siphon 300 discharges rainwater from the bottom surface of the water collecting pond 200, and the rainwater storage tank 500, the circulation water path 700, the water collecting pond 200, 2 filtration unit 400 - The rainwater circulating through the path of the rainwater storage tank 500 through self-purification and filtration is stored in the rainwater storage tank 500.

In this case, the circulation of the rainwater can be carried out by various methods. For example, when the capacity of the circulation pump P1 (510) is sufficient, the circulation between the rainwater storage tank (500) and the water collection pond (200) can be progressed over several times during a daytime for self-purification. Alternatively, the circulation pump P1 (510) before sunrise may be driven to supply the rainwater of the rainwater storage tank (500) to the water collection pond (200) until the water level of the siphon (300) starts to discharge the rainwater, The circulation pump P1 (510) is restarted to allow the siphon (300) to discharge the rainwater, so that the circulation can be performed once a day. The circulation pump P1 (510) is driven at night by applying a relatively small circulation pump P1 (510), and the rainwater of the rainwater storage tank (500) is collected by the siphon (300) until the water level of the siphon And the siphon 300 may be driven to discharge the rainwater by supplying the air to the fire pond 200 and restarting the circulation pump P1 (510) at the time of sunset.

FIG. 15 shows a configuration and driving examples for driving the circulation pump P1 (510) and the water receiving pump P2 (520) in the pond circulation system utilizing the rainwater storage tank of the present invention. The circulating pump P1 (510) and the water receiving pump P2 (520) of the present invention can be used together with a commercial power supply and a photovoltaic power generation facility as driving power. The commercial power source and the photovoltaic power generation facility are connected to each other by the power of the circulation pump P1 (510) and the water receiving pump P2 (520) through the switchboard. When the water receiving pump P2 (520) uses rainwater of the rainwater storage tank (500) (600). A timer 910 may be installed between the switchboard and the circulation pump P1 (510) to drive the circulation pump P1 (510) to operate at a predetermined time.

(B), (c), and (d) of the drawing illustrate the operation of the circulation pump P1 510 according to the setting of the timer 910. FIG. First, the circulation pump P1 (510) is operated as a timer (910) several times during the daytime for the self-purification operation to circulate the rainwater between the rainwater storage pool (500) Fig. The circulation pump P1 (510) before the sunrise is driven by the timer 910 so that the rainwater of the rainwater storage tank 500 is pumped up to the water level of the sump 300 before the water level starts to discharge the rainwater 200, and then the circulation pump P1 (510) is restarted as a timer 910 at the time of sunset to allow the siphon (300) to discharge rainwater, thereby performing circulation once a day. The circulation pump P1 (510) is operated at night to apply the rainwater of the rainwater storage tank (500) to the siphon (300) And the siphon 300 is driven by the timer 910 so that the siphon 300 is discharged through the circulation pump P1 (510) at the time of sunset. Accordingly, the pond circulation system utilizing the rainwater storage tank of the present invention can be driven variously according to the capacity of the circulation pump P1 (510) and the setting of the timer 910, and accordingly, And provides economical efficiency in the reuse of rainwater.

According to the pond circulation system utilizing the rainwater storage tank of the present invention described above, it is possible to solve the problem that the stormwater stored in the rainwater storage and reuse facility is contaminated by propagation of bacteria or pests as time passes, It is easy to install and maintain facilities for storage and management, and provides the economical efficiency in reuse of rainwater by providing the midnight effect by sunlight and flow as the minimum power. In addition, according to the pond circulation system utilizing the rainwater storage tank of the present invention, it is possible to apply the present invention to living water, industrial, agricultural, landscaping, river maintenance, and the like by applying the water to not only rainwater but also heavy water, sewage, It can also be reused for its use.

Although the pond circulation system utilizing the rainwater storage tank of the present invention has been described with reference to the limited embodiments and drawings, the present invention is not limited thereto, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: First filtration unit 110: Collector
120: first filtration tank drainage line 130: first filtration tank
140: first filtration means 150: first filtration tank cover
200: House modification pond 210: House modification pond water meter
300: Siphon 310:
400: second filtration unit 410:
420: second filtration tank drainage 430: second filtration tank
440: second filtration means 450: second filtration cover
470: overflow outlet 480: rainwater reservoir channel
500: Rainwater storage tank 510: Circulation pump P1
520: faucet pump P2 530: sludge collector
540: Rainwater Reservoir Water Level 600: Rainwater Fault
700: Circulation channel 800: Overflow outlet

Claims (24)

In a pond circulation system utilizing a rainwater reservoir installed to store and reuse rainwater during rainfall,

A first filtration means 140 connected to the water collecting passage 110 for supplying rainwater collected during rainfall and for filtering the floating matters and contaminants contained in the rainwater supplied to the water collecting passage 110, A first filtration tank (130) having a first filtration tank cover (150) covering the upper end of the first filtration tank (130) to filter the suspended substances and contaminants contained in rainwater;

The rainwater passing through the first filtration tank 130 is supplied to the collecting pond 200 and the end of the circulating water path 700 is connected to circulate the rainwater of the rainwater storage tank 500 by the circulation pump P1 A first filtration tank drain line 120 configured to receive the first filtration liquid;

A first filtration unit (100) for filtering the suspended substances and contaminants contained in rainwater collected during rainfall; And an open-air type collecting pond (200) for storing rainwater primarily filtered through the first filtering unit (100);

A siphon (300) for discharging stored rainwater by non-dynamic force when the level of the rainwater stored in the water collection pond (200) becomes a set value or more; A second filtering unit 400 for filtering the contaminants of rainwater discharged through the siphon 300 in a second order;

An overflow drainage 800 for discharging rainwater over an allowable storage amount to the outside such as sewage or the like and a storm drainage 600 for supplying rainwater stored in the stormwater storage tank 500 to the outside through a water receiving pump P2 520 for recycling;

A rainwater storage tank (500) connected to a circulation water channel (700) for pumping the rainwater stored in the rainwater storage tank (500) to the collection pond (200) and circulating the rainwater is supplied through the second filtration unit 500);

A pond circulation system utilizing a rainwater storage tank
delete delete delete delete delete The pond (200) of claim 1, wherein the pond (200)
A siphon 300 is installed on one side of the pond 200 to discharge rainwater from the bottom of the pond 200 to the outside of the pond 200,

The siphon (300)
Connected to the second filtering unit 400 so as to supply rainwater discharged from the house-made pond 200 through the siphon 300,

The second filtration unit 400 may include:
(310) for relieving the flow of rainwater discharged through the siphon (300) with a partition wall having an open side, and the rainwater is supplied through the collecting tank discharge water channel (410) And the second filtration tank 420 through the second filtration tank 430. The second filtration tank 420 is stored in the rainwater storage tank 500,

The height h2 of the upper end of the siphon 300 as the water level at which the siphon 300 starts to discharge the rainwater is set to be lower than the lower height h1 of the first filtration tank drainage path 120, And the rain water circulating and supplied from the rainwater storage tank (500) can be circulated without being overflowed into the first filtration tank drainage path (120) by a pond circulation system
delete The rainwater storage tank (500) according to claim 1,

And collecting fine dust or soil particles contained in stored rainwater by installing a sludge collecting unit (530) at a lower position than the other bottom surface of the bottom surface,

And an overflow discharge port 800 at the upper end to discharge rainwater having an allowable storage amount or higher to the outside such as a sewer,

The overflow outlet 800 is installed so as to be lower than or equal to the height h3 of the second filtration tank drainage path 420 so that the rainwater in the rainwater storage tank 500 is stored and circulated without flowing back to the second filtration tank drainage path 420 The pond circulation system utilizing the rainwater storage tank
delete In a pond circulation system utilizing a rainwater reservoir installed to store and reuse rainwater during rainfall,

A first filtration unit (100) for filtering the suspended substances and contaminants contained in rainwater collected during rainfall;

An open-air type collecting pond (200) for storing rainwater primarily filtered through the first filtering unit (100);

A siphon (300) for discharging stored rainwater by non-dynamic force when the level of the rainwater stored in the water collection pond (200) becomes a set value or more;

A second filtration unit 400 for secondarily filtering contaminants contained in rainwater discharged through the siphon 300;

A water receiving pump (600) installed in the lower part of the lower end of the outdoor type pond (200) for storing rainwater supplied through the second filtering part (400) and providing the stored rainwater as a rainwater receiver A rainwater storage tank 500 having P2 (520);

And a rainwater discharge port 800 for discharging rainwater having an allowable storage amount or more stored in the rainwater storage tank 500 to the outside is formed on one side of the second filtration unit 400 and the rainwater storage tank 500, And the height h3 of the overflow outlet 800 is higher than the height h4 of the rainwater storage tank 480 so that the rainwater passing through the second filtration unit 400 is stored in the rainwater storage tank 500 (470) configured to store the overflow (460)

A circulation channel 700 installed to circulate the rainwater stored in the rainwater storage tank 500 through the circulation pump P1 (510) between the rainwater storage tank 500 and the water collection pool 200 to the water collection pool 200;

A pond circulation system utilizing a rainwater storage tank
delete delete delete delete delete delete 12. The apparatus of claim 11, wherein the first filtration unit (100)

A water collecting passage 110 for supplying rainwater collected through a channel or the like during rainfall,

A first filtration means 140 for filtering the suspended substances and contaminants contained in the rainwater supplied to the water collecting path 110 and a first filtration tank cover 150 covering the upper end of the first filtration tank 130, A first filtration tank (130) connected to the water collecting passage (110) to filter the suspended substances and contaminants contained in rainwater;

A first filtration tank drainage path 120 for supplying rainwater passing through the first filtration tank 130 to a collecting pond 200;
The pond circulation system utilizing the rainwater storage tank
delete The pond (200) according to claim 11, wherein the pond (200)

A siphon 300 is installed on one side of the pond 200 to discharge rainwater from the bottom of the pond 200 to the outside of the pond 200,

The height h2 of the top of the siphon 300 as the water level at which the siphon 300 starts to discharge the rainwater,
So that the rainwater circulated and supplied from the rainwater storage tank 500 by the circulation pump P1 510 can be circulated without being overflowed into the first filtration tank drainage path 120 by providing the lower height h1 of the first filtration tank drainage path 120 A pond circulation system utilizing a rainwater storage tank
12. The apparatus of claim 11, wherein the second filter (400)

And a collecting tank (310) having one side opened to mitigate the flow of rainwater discharged through the siphon (300)

The rainwater whose flow is relaxed through the collecting tank (310) includes a second filtering means (440) for filtering contaminants contained in the rainwater supplied to the collecting tank discharge water channel (410); And the upper end thereof is passed through the second filtration tank drainage passage 420 through the second filtration tank 430 configured to cover the second filtration tank and the overflow discharge section cover 460,

And is stored in the rainwater storage tank (500). The pond circulation system delete delete delete

Images