KR101588201B1 - Rainwater utilization system - Google Patents

Abstract

The present invention relates to a system composed of a water collecting facility, an initial rainwater removing facility, a storage tank, a supply unit, etc. to collect and store rainwater falling on a roof or a rooftop of a building; and to utilize the rainwater for building management or living. Initial rainwater is removed from a non-powered filter, and the remaining water introduced in a storage tank. The water located at a certain depth of the rainwater in a state of being secondly and thirdly purified in the storage tank is drawn to be utilized as the water for building management or living, and the rainwater introduced at an amount greater than the storage amount is discharged to the outside. The rainwater can easily be purified and reused by a system to remove sediment through a washing operation, and such a system can easily be constructed in the underground around a building.

Description

[0001] RAINWATER UTILIZATION SYSTEM [

In the present invention, the rainwater falling on the roof of a building is stored on the ground or in a storage tank buried in the underground, and then stored on the roof for cooling water, toilet water for indoor use, water for landscape use, rain water for utilization as fire water And a method of constructing such a rainwater utilization system.

When the building is constructed, it is required to use the water to manage the internal facilities of the building and the surroundings of the building. To satisfy such demands, a method of using ground water or tap water or purifying and reusing ground water or tap water is being used.

However, in order to manage buildings, most buildings use management water as ground water and tap water. Therefore, there is a concern about the present capacity of water resources in order to cope with the usage capacity. Especially, in the environmental situation where water resources are becoming increasingly scarce The amount of management water is continuously increasing, and an alternative that can meet the supply amount is required.

As a way to meet the supply of the management water in the future, a method of collecting rainwater as a natural phenomenon and utilizing it as a building management water has been proposed.

As for the method of utilizing such rainwater, Korean Patent Registration No. 0749400 discloses a technology for a heavy water recycling system of excellent quality. More specifically, it is a roof, which collects the rainwater from the impervious layer and collects the sludge And the water is purified by passing through plants and a purification layer, and an excellent heavy water recycling system utilizing the water as the heavy water is disclosed.

Also, Korean Patent Publication No. 621364 discloses a water collecting apparatus and a method of constructing the water collecting apparatus. More specifically, it relates to a water collecting apparatus and a water collecting apparatus, A water collecting device and a method for constructing the water collecting device are disclosed in which groundwater resources are stored underground to facilitate groundwater development.

Korean Patent Publication No. 511208 discloses a rainwater storage tank system for recycling and flooding prevention. Specifically, a technique for storing rainwater after controlling the water storage amount in advance before heavy rains and filtering the stored rainwater is recycled as domestic water. .

However, the rainwater utilization systems that have been developed and disclosed heretofore have a complicated structure for inflow, purification, and utilization of rainwater, which makes installation and construction difficult. In addition, since the structure is complicated, there is a problem that the operation of the system is inefficient because the fault occurrence site is scattered in many places.

Therefore, the initial rainwater containing a large amount of pollutants in rain can be easily excluded, and it is well suited to utilize rainwater having good purification status as simple water while purifying the collected rainwater, and to use purified rainwater continuously And a construction method capable of constructing such a system at low cost is required.

Korean Registered Patent No. 0749400 (Registered August 8, 2007) Korean Registered Patent No. 0621364 (registered on August 31, 2006) Korean Patent Registration No. 0511208 (registered on Aug. 23, 2005)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a system for eliminating initial atmospheric pollutants, pollutants in the air, suspended solids including ground suspended solids and waste, and rainwater to be stored in a water tank, .

Another object of the present invention is to make the rainwater introduced during the collecting process flow into a state in which the sediment deposited on the floor does not reach and to use only the clean rainwater located at a certain depth of the surface of the rainwater to be stored, It is automatically discharged to the outside of the water tank.

Still another object of the present invention is to provide a method for simply and firmly constructing each component by simply providing a rainwater purification structure.

In order to achieve the above object, the present invention provides a vertical trough (200) connected to a drainage port of a roof of a building and guiding rainwater falling to a storage tank buried underground; A filter member (300) connected between the vertical trough and an underground storage tank for eliminating contaminants and suspended matters contained in initial rainwater by non-motive force to primarily purify rainwater; An inflow pipe (120) connected to the filter member (300) and introducing the rainwater primarily purified from the filter member into the storage tank, the end of which is bent in a U shape and the discharge port is directed upward; A reservoir 100 having a rectangular parallelepiped shape including two long side walls and two short sides (first short side and second short side) sidewalls based on a plan view, sequentially purifying the rainwater introduced from the inflow pipe 120; A drain valve 170 installed at the lower end of the storage tank 100; A floating valve (150) provided in the storage tank and having a buoy and a filter for taking water at a predetermined position below the surface of the purified water in the storage tank; And a water intake member (160) connected to the floating valve and supplying purified water to the building management water,
In the storage tank 100, a partition 190 for partitioning a space inside the storage tank into a first space and a second space is provided. The partition wall is installed in parallel with the long side sidewall, And the first space and the second space are communicated with each other in the vicinity of the second short side wall, and the first short side of the first short side corresponding to the first space The inflow pipe 120 and the drain valve 170 are installed and the float valve 150 is positioned in the second space and the water intake member 160 is installed on the first short side corresponding to the second space , And a filtering plate (180) connecting the partition and the long side wall in parallel with the short side wall so as to block the first space. The filter plate (180) has a plate shape in which at least one hole is formed, The rainwater flowing through the inflow pipe 120 passes through the filter plate 180 and bypasses the partition wall to sequentially move the first space and the second space And a rainwater utilization system.

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The present invention is capable of storing rainwater in the second and third purification states in the storage tank in the state where the pollution degree is the highest in the process of collecting the rainwater falling into the natural phenomenon and the initial rainwater having a lot of floors and garbage is first purified, Water and emergency water source can be easily and cleanly provided. In addition, when primary, secondary, and tertiary purified water is used, there is a saving effect of not only ground water but also tap water.

In addition, since the rainwater is stored without being flowed, when the same rainwater is stored in several buildings at the same time, the amount of rainwater flowing out of the area is reduced.

In addition, since the present invention collects rainwater and purifies it with its own structure, there is no power consumption for water quality management. When constructing a new building, the construction of the system is simple and easy to assemble. It is expected that the cost savings due to shortening of the construction time and the power saving effect due to the non-power can be expected in the construction process.

1 is a conceptual diagram of a rainwater utilization system according to a first embodiment of the present invention;
2 is a structural view of a storage tank of a rainwater utilization system according to a first embodiment of the present invention.
3 is a structural view of a storage tank of a rainwater utilization system according to a second embodiment of the present invention.
4 is a schematic plan view of a reservoir of a rainwater utilization system according to a second embodiment of the present invention;
5 is a front view of a filter plate of a rainwater utilization system according to a second embodiment of the present invention.
6 is a construction flowchart of a rainwater utilization system according to the present invention.

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

It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Like reference numerals refer to like elements throughout.

1 is a conceptual diagram of a rainwater utilization system according to a first embodiment of the present invention.

As shown in FIG. 1, the rainwater utilization system according to the present invention includes a filter member 300 for firstly purifying rainwater introduced through a vertical trough 200 provided in a building, A floating valve 150 for taking water at a certain depth of the rainwater stored in the storage tank 100 and a water intake member 160 connected to the floating valve 150. [

As shown in FIG. 1, the roof of a building is generally flat and collects rainwater, and a drainage hole is formed on a roof or a roof wall to guide collected rainwater to the outside of the building. A vertical trough 200 for moving rainwater to a storage tank 100 to be described later is installed at a position of a drainage port, and a vertical drain pipe is connected to a drain of the building.

At the lower end of the vertical trough 200, a filter member 300 for primarily purifying the rainwater collected from the roof surface is connected. Since the filter member 300 includes a large amount of contaminants distributed in the air and suspended matters piled up on the roof surface, the filter member 300 is installed for the purpose of removing them, and the initial rainwater is excluded from the filter member 300 by non- And causes the rainwater collected after the beginning to move to the storage tank 100.

The filter member 300 is provided with an inflow pipe 120 for moving rainwater collected after the initial stage to the storage tank 100 side and the end of the inflow pipe 120 is connected to the storage tank 100. The storage tank 100 to which the inflow pipe 120 through which the rainwater that has been firstly purified from the filter is connected has a space capable of storing a predetermined amount of rainwater and is provided with a collecting hole for purifying the rainwater, And a drain valve 170 for removing sediment deposited on the bottom of the storage tank 100 in the stored rainwater.

2 is a structural view of a storage tank of a rainwater utilization system according to a first embodiment of the present invention.

2, the storage tank 100 into which first-order rectified rainwater is introduced includes a primary collection hole for purifying the rainwater by setting up a partition wall 130 in the inner space for sequentially purifying the rainwater, And a second collecting hole for collecting the purified water from the collecting hall for the third purification.

The partition wall 130 may have a structure in which the height of the partition wall 130 is lowered so that the rainwater of the primary collection hole overflows into the secondary collection hole. The rainwater of the primary water collecting hole can be formed so as to move to the secondary water collecting hole, and the object of the present invention can be attained regardless of the configuration.

In the storage tank 100, the primary collection hole of the collection hole formed in the inner space of the storage tank body 110 is provided with a structure for the precipitation and dewater cleaning, and the secondary collection hole has a purification and utilization structure. (100) is preferably formed as a unit block body to facilitate assembly and installation work.

The storage tank 100 formed by assembling the unit block body is provided with an inlet pipe 120 installed in the storage tank 100 in the filter member 300 in the primary collector pipe and the end of the inlet pipe 120 is connected to the first collection It is located close to the bottom of the hole.

Since the sediment contained in the rainwater flowing into the primary catchment hall is heavier than the rainwater due to its natural weight, it is required to prevent the incoming rainwater from directly touching the sediment, so that the end of the intake pipe 120 is bent into a U- And is directed toward the upper side of the primary collecting hole without facing the bottom of the collecting hole.

When the end of the inlet pipe 120 is bent in a U shape, the rainwater that has passed through the filter member 300 flows into the primary collecting hole and flows out upwardly of the primary collecting hole without touching the sediment, .

A drain valve 170 is provided on the outer surface of the primary collecting hole of the storage tank 100 for discharging sediments accumulated on the bottom of the collecting hole to the outside of the primary collecting hole.

A water intake member (160) composed of a pump and a connection pipe is provided on the outer surface of the secondary water collecting hole of the storage tank (100) formed by assembling the unit block body to supply cleaned rainwater to the building management water.

Thirdly purified rainwater collects in the secondary collection hall of the storage tank (100). Thirdly, the rainwater that is floated is floated on the water surface where float can float. The float valve 150 is installed at the above position, and the float valve 150 is provided with a buoy so that the float valve 150 can be positioned in the water at the above position.

Since the rainwater flowing into the secondary collection hole of the storage tank 100 can not be stored more than the proper storage amount, the S-shaped bent-over pipe 140 is installed so as to be drained to the outside of the storage tank 100.

Meanwhile, the present invention can purify the rainwater flowing into the storage tank 100 more cleanly by changing the structure of the algae bath.

FIG. 3 is a structural view of the storage tank of the rainwater utilization system according to the second embodiment of the present invention, and FIG. 4 is a schematic plan view of the storage tank of the rainwater utilization system according to the second embodiment of the present invention. 5 is a front view of a filtering plate of a rainwater utilization system according to a second embodiment of the present invention.

As shown in FIGS. 3 and 4, the present invention can include a filter plate 180 to extend the path of the rainwater. As shown in FIG. 5, the filter plate 180 may be a plate-like shape having at least one or more holes, and the introduced rainwater passes through the holes of the filter plate 180. Further, the rainwater passing through the filter plate 180 moves through the first space, then moves through the second space beyond the partition 190, and is supplied to the outside as needed. Here, holes may not be formed at the lower end of the filter plate 180 to prevent movement of the precipitate. As described above, the filter plate 180 and the partition 190 are provided at the same time, and the moving distance of the rainwater is increased, so that more clean rainwater can be used.

Next, a construction method of a rainwater utilization system according to the present invention will be described with reference to the drawings. Hereinafter, the description of the rainwater utilization system according to the present invention will be omitted or briefly explained.

6 is a construction flowchart of the rainwater utilization system according to the present invention. Here, FIG. 6 illustrates that the rainwater utilization system according to the present invention is embedded in the basement around the building.

As shown in FIG. 6, the method for constructing the rainwater utilization system according to the present invention includes a digging step S1, a foundation crushing step S2-1 or a foundation concrete pouring step S2-2, (Step S3), a unit block body assembling step S4, a water collecting surface construction step S5, a water sheet / protection sheet laying step S6, a storage pipe connecting step S7, a needle / manhole installing step S8, A piping connection step S9, and a backflow / voltage step S10.

The excavation step (S1) shifts the excavation stage, which digs the buried grooves deep enough to bury the primary purification filter and the secondary purification tank, around the constructed structure to the heavy equipment.

The foundation stone installation step S2-1 or the foundation concrete placement step S2-2 is carried out by placing a foundation stone on the bottom of the buried grooves or placing a foundation concrete.

The base bottom sheet laying step (S3) implements the base bottom sheet laying step for fixing the storage vessel to the base concrete surface.

The unit block body assembling step S4 performs the unit block body assembling step of forming the storage tank. Although the assembling step can be performed inside the buried grooves, it is also possible to assemble the unit bodies outside the buried grooves depending on the construction conditions.

The water surface construction step (S5) is a step of collecting water on the roof surface of the building and installing a vertical trough in a drainage hole on the roof, the length being connected to the unit block body, The collecting trough includes an operation of connecting a filter member for initial rainwater exclusion.

The water sheet / protective sheet laying step S6 constitutes a storage tank complete step by laying a water sheet and a protective sheet on a unit block body to be assembled.

The connection step (S7) of the storage tank piping implements the connection step of installing the rainwater inflow pipe for the storage tank, the outflow pipe for the purified rainwater reuse, the drain valve for the sediment cleaning, and the drainage pipes.

In the step S8 of setting the needle / manhole, a step of installing a silt bath and a manhole to abandon foreign substances and sediments suspended in the first purification to the periphery of the completed storage tank is executed.

In the piping connection step (S9), a pipe connection step is performed in which a filter member connected to the vertical trough, an outflow pump for reusing the purified rainwater, and a drain valve for cleaning the sediment are connected to the storage tank to be assembled.

The backwashing / voltage step S10 preferably proceeds with the backwash and the voltage step to fill the space between the storage tank and the grove with soil and concrete.

According to the construction method of the system as described above, since the storage tank is formed by assembling the unit block body, it is convenient to manufacture and handle, and the state after assembly is very solid, providing convenience on construction.

In addition, since the rainwater utilization system of the present invention is provided with a filter member and a water intake member in a state of not having a detailed configuration, the structure of the system can be easily provided, There is an advantage such as cost reduction.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the appended claims. You will understand.

100: storage tank 110: storage tank body
120: inlet pipe 130, 190: partition wall
140: Wetting pipe 150: Floating valve
160: intake member 170: drain valve
180: Filter plate 200: Vertical trough
300: filter member

Claims (8)

delete A vertical trough (200) connected to the drainage port on the roof of the building and guiding the rainwater to the storage tank buried underground;
A filter member (300) connected between the vertical trough and an underground storage tank for eliminating contaminants and suspended matters contained in initial rainwater by non-motive force to primarily purify rainwater;
An inflow pipe (120) connected to the filter member (300) and introducing the rainwater primarily purified from the filter member into the storage tank, the end of which is bent in a U shape and the discharge port is directed upward;
A reservoir 100 having a rectangular parallelepiped shape including two long side walls and two short sides (first short side and second short side) sidewalls based on a plan view, sequentially purifying the rainwater introduced from the inflow pipe 120;
A drain valve 170 installed at the lower end of the storage tank 100;
A floating valve (150) provided in the storage tank and having a buoy and a filter for taking water at a predetermined position below the surface of the purified water in the storage tank; And
And a water intake member (160) connected to the floating valve and supplying purified water to the building management water,
In the storage tank 100, a partition 190 for partitioning a space inside the storage tank into a first space and a second space is provided. The partition wall is installed in parallel with the long side sidewall, So that the first space and the second space communicate with each other in the vicinity of the second short side wall,
Wherein the inlet pipe (120) and the drain valve (170) are provided on the first short side wall corresponding to the first space, the floating valve (150) is located in the second space, The water intake member 160 is installed on one short side,
And a filtering plate 180 connecting the partition wall and the long side wall in parallel with the short side walls so as to block the first space. The filter plate 180 has a plate shape having at least one hole, A hole is not formed at the lower end thereof,
Wherein the rainwater flowing through the inflow pipe (120) passes through the filter plate (180) and bypasses the partition wall to sequentially move the first space and the second space. delete delete delete delete delete delete

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