KR20170002022U - Rainwater recycling system - Google Patents

Abstract

The present invention relates to a rainwater collecting pipe for collecting rainwater; An initial stormwater storage tank communicatively connected to the rainwater collector pipe for selectively storing initial stormwater; A rainwater inflow pipe branched and connected to communicate with the initial stormwater collecting pipe and separately collecting rainwater after the inside of the initial storerwater tank is filled with initial rainwater; And a filter connected to the rainwater inflow pipe and connected to the rainwater inflow pipe to filter out foreign substances contained in the rainwater flowing through the rainwater inflow pipe and purify and discharge the rainwater.

Description

Rainwater Recycling System {RAINWATER RECYCLING SYSTEM}

The present invention relates to a rainwater collecting pipe for collecting rainwater; An initial stormwater storage tank communicatively connected to the rainwater collector pipe for selectively storing initial stormwater; A rainwater inflow pipe branched and connected to communicate with the initial stormwater collecting pipe and separately collecting rainwater after the inside of the initial storerwater tank is filled with initial rainwater; And a filter connected to the rainwater inflow pipe to filter the foreign substances contained in the rainwater flowing through the rainwater inflow pipe and purify the rainwater to discharge the rainwater.

The annual precipitation in Korea is 1,274㎜, which is higher than the world average of 974㎜. However, since the population density is high in Korea, the average use per capita is 2,755m3, which is only 12.5% of the world average of 22,096m3. . In addition, in Korea, since the amount of precipitation is concentrated in the summer season and the seasonal variation is large, the fluctuation of the river flow rate is very high and it has a natural condition adverse to water resource management.

In other words, two-thirds of the annual precipitation is concentrated in the rainy season and typhoon period of June to September, which is the flood season, and only one-fifth of the annual precipitation is recorded for six months from November to April of next year. Unlike foreign countries, floods and droughts are frequent. Therefore, the use of rainwater is very important in terms of social as well as water saving on an individual level.

On the other hand, current urban areas are covered with asphalt, concrete, and blocks that are difficult to penetrate rainwater through the surface of the ground during rainfall, and most of the rainwater can not penetrate into the soil below the ground surface. ) To the river or to the sewage treatment plant.

For this reason, when the amount of the rainwater to be treated through the drainage facility is exceeded due to heavy rain or heavy rain, the backwash of the rainwater, surface settlement, etc., as well as damage such as overflow of the river occurs when the rainwater flows into the river at a time do.

However, in order to improve the processing capability of the rainwater, it is difficult to expand drainage facilities or improve the river in reality.

For this reason, the rainwater flowing into the roof of the building or the ground is stored in a separate storage tank when the building is expanded or contracted, so that the rainwater can be drained at once.

However, in the above case, since the initial rainwater flowing into the roof or the ground of the building contains various pollutants or foreign substances in the air in particular, in the case of initial rainwater, natural drainage is performed as in the past, And therefore, problems such as river pollution due to initial rainfall occur.

In addition, since the rainwater stored in the storage tank also contains foreign matter, there is still a need to perform a separate purification process in order to recycle the rainwater.

Korean Patent Publication No. 10-2011-0056600 (Rainwater purification system) Korean Patent Publication No. 10-1230015 (water supply facility for outdoor toilet to recycle rainwater)

The present invention has been devised to solve the above problems, and it is an object of the present invention to provide a rainwater collecting apparatus and a rainwater collecting method in which rainwater collected at an early stage of stormwater collected in a building or a land is separately stored to eliminate initial stormwater, The purpose of this system is to provide a system that can do this.

For this purpose, the present invention relates to a rainwater collecting pipe for collecting rainwater; An initial stormwater storage tank communicatively connected to the rainwater collector pipe for selectively storing initial stormwater; A rainwater inflow pipe branched and connected to communicate with the initial stormwater collecting pipe and separately collecting rainwater after the inside of the initial storerwater tank is filled with initial rainwater; And a filter connected to the rainwater inflow pipe to filter the foreign substances contained in the rainwater flowing through the rainwater inflow pipe and purify the rainwater.

In addition, in the present invention, the inside of the initial good storer tank rises by the initial storm filled in the inside of the initial storm reservoir tank, thereby blocking the end of the early storm collector pipe, thereby preventing the initial storm from flowing into the rainwater inflow pipe And a buoyancy member is provided.

In addition, in the present invention, the filter includes a housing having a space formed therein, a primary filtration filter having a meshed mesh shape for filtering out foreign matter and discharging rainwater naturally, And a secondary filtration filter that is filled with a plurality of activated carbons in the filter net so that heavy metals, chemicals, and contaminants contained in the rainwater can be removed while being adsorbed.

Also, in the present invention, the primary filter is formed of CFRP material.

In addition, in the present invention, the secondary filtration filter is stacked in upper and lower stages, and the particles of the activated carbon are formed to be smaller in size from the upper part to the lower part.

The present invention as described above can be used to purify rainwater collected from a building and a land to be used for domestic water (washing, toilet, shower), cleaning water (housing, building exterior wall, etc.), industrial water (boiler water, ), Fire-fighting water, landscape water, and so on.

In addition, various filters for removing the foreign substances contained in the rainwater, taking into account the physical and chemical properties of the foreign matter, can be provided to improve the filtering efficiency and water purification efficiency of the rainwater.

1 is an exemplary diagram of a rainwater recycling system according to the present invention;

Hereinafter, the rainwater recycling system according to the present invention will be described in more detail with reference to the accompanying drawings.

The present invention relates to a rainwater recycling system for separating and storing initial rainwater separately and for recycling rainwater to be recycled for the purpose of domestic water, cleaning water, industrial water, fire-fighting water or landscaping water.

1, the present invention relates to a rainwater collecting pipe for collecting rainwater; An initial stormwater storage tank communicatively connected to the rainwater collector pipe for selectively storing initial stormwater; A rainwater inflow pipe branched and connected to communicate with the initial stormwater collecting pipe and separately collecting rainwater after the inside of the initial storerwater tank is filled with initial rainwater; And a filter connected to the rainwater inflow pipe to filter the foreign substances contained in the rainwater flowing through the rainwater inflow pipe and purify the rainwater.

The rainwater collecting pipe 10 collects rainwater flowing on a roof, a roof, a ground or the like of a building in a rainy season and supplies the collected rainwater to the initial excellent storage tank 20. The rainwater collecting pipe 10 is connected to a drainage facility or a rainwater collecting facility installed on a roof, a roof or a ground of the building so that the rainwater flows naturally from the drainage facility or the rainwater collecting facility into the rainwater collector pipe.

Generally, rooftops and roofs of buildings and earth are piled up with foreign objects such as leaves, dust, and garbage. In the case of rain, rainwater sweeps away these foreign substances and discharges them to drainage facilities and rainwater drainage facilities. Since the foreign matter is mixed with the initial rainwater, the initial rainwater is separately separated through the initial storable water tank 20 to relatively remove foreign matter and filter the contaminated rainwater.

An initial storm drainage pipe 210 for discharging the initial stormwater filled therein is formed in the lower portion of the initial storable storage tank 20 and a valve 220 for manually or automatically opening and closing the initial storm drainage pipe 210 is provided do.

The initial stormwater storage tank 20 is elevated along the initial stormwater filled therein to block the stormwater collector pipe 10 so that the initial stormwater stored in the initial stormwater storage tank 20 is prevented from flowing into the stormwater inflow pipe 30 A spherical buoyancy member 230 is provided.

The rainwater collecting pipe 10 is opened normally when it is not raining and is in communication with the initial good storer tank 20. In case of rainy weather, the initial storm is first filled in the initial storable storage tank, So as to be brought into close contact with the end portion of the rainwater collecting pipe (10) so that the subsequent rainwater flows into the rainwater inflow pipe (30).

The buoyancy member 230 may have a diameter longer than the width of the rainwater collector pipe 10 so that the outer circumferential surface of the buoyancy member 230 is naturally adhered to the end of the rainwater collector pipe.

In the absence of the buoyancy member 230, the rainwater is filled up to the point where the rainwater collecting pipe and the rainwater inflow pipe are branched and then flows to the rainwater inflow pipe. Since the light foreign matter such as the fallen leaves does not sink, the rainwater collecting pipe and the rainwater inflow It may rise to the branch point of the pipe and be introduced into the rainwater inflow pipe, and if the foreign matter is continuously accumulated in the filter, the filtration efficiency may be lowered.

In addition, a guide 240 for moving the buoyancy member 230 up and down along a predetermined path is formed in the initial good storer tank 20.

The guide 240 is formed in a curved shape gradually becoming narrower from the lower part to the upper part, and the upper part is formed to face the rainwater collector pipe, and the lower part is formed on the upper side But is spaced apart from the guide 240 in such a manner that the buoyancy member 230 does not separate from the guide 240. Without the guide 240, even if the buoyancy member 230 rises by the initial storm, it may not exactly coincide with the end of the rainwater collector pipe 10, and the gap between the lower end of the guide and the bottom surface of the initial good storer tank If the diameter of the buoyancy member is longer than the diameter of the buoyancy member, the buoyancy member may be detached from the guide.

When the initial storm is filled in the initial storable storage tank, the subsequent rainwater is introduced into the filter 40 through the rainwater inflow pipe 30. The rainwater inflow pipe (30) is branched and connected to communicate with the rainwater collector pipe (10), and selectively separates the subsequent rainwater when the initial rainwater is filled in the initial good storerwater tank.

The filter (40) is connected to communicate with the rainwater inflow pipe, filters the foreign substances contained in the inflowed rainwater, and then purifies the rainwater.

The filter 40 according to the embodiment of the present invention includes a housing 410 having a space formed therein, a primary filtration filter 420 provided inside the housing for filtering foreign substances contained in the introduced rainwater, And a secondary filtration filter 430 for removing heavy metals, chemicals, and contaminants contained in the rainwater filtered through the primary filtration filter.

In addition, the filter is provided with a foreign matter discharge port 411 for discharging the foreign matter filtered through the primary filtration filter 420, a filtration filter inlet 412 for inputting and replacing the primary filtration filter and the secondary filtration filter, The foreign matter discharge port and the filtration filter inlet may be manually or automatically opened and closed.

When rainwater flowing through the rainwater inflow pipe 30 is mixed with foreign matter such as leaves, the primary filter filter 420 is filtered and only the rainwater is passed to the secondary filter 430.

The primary filtration filter 420 is formed of a mesh net so as to filter out foreign matter and flow only rainwater. It prevents corrosion due to rainwater, prevents cracks due to expansion due to high temperature heat, It is preferable to use CFRP (CARBON FIBER REINFORCED PLASTICS, carbon fiber reinforced plastic) material for light weight.

Further, in the region where the amount of precipitation is large or the region where many foreign substances are generated, the primary filtration filter 420 may be stacked two or more in a staggered manner to further enhance the filtering efficiency of foreign matter.

The secondary filtration filter 430 is provided below the primary filtration filter 420 to remove heavy metals, chemicals, and contaminants contained in rainwater, and is filled with a plurality of activated carbons inside the filter network.

Although the secondary filtration filter 430 may be configured such that a plurality of activated carbon grains are filled into the filter in the form of a grain, there is a problem in complicating and troublesome when replacing the secondary filtration filter after long- It is advisable to use a filled form inside a filter net of the same type as the net.

Activated carbon has excellent adsorption power and has excellent effect to remove odor as well as heavy metals, chemical substances and pollutants contained in rainwater. The present invention can more effectively remove harmful components and odors contained in rainwater by providing the secondary filter filter 430 filled in the filter net with the plurality of activated carbon particles inside the filter 40.

In addition, the secondary filter 430 according to the present invention is stacked in upper and lower stages so that the filtration efficiency can be further improved, and smaller particles of activated carbon are formed in a smaller size from the upper part to the lower part.

For example, if the first activated carbon network 431, the second activated carbon network 432, and the third activated carbon network 433 are sequentially stacked from top to bottom in the filter net, Particles of activated carbon are smaller than particles of activated carbon provided in the first activated carbon net 431 and particles of activated carbon provided in the third activated carbon net 433 are smaller than particles of activated carbon provided in the second converted carbon nanotube 432.

When the secondary filtration filter 430 is constructed as described above, when the rainwater passes from the first activated carbon net 431 to the third activated carbon net 433, particles of relatively heavy metals, chemicals, and contaminants contained in the rainwater Larger ones are filtered by the first activated carbon net 431 and smallest ones are filtered by the third activated carbon net 433 and rainwater is filtered from the first activated carbon net 431 to the third activated carbon net 433, So that it is possible to further enhance the purification effect of the rainwater and the filtering effect.

A filtration water discharge pipe 413 for discharging purified rainwater is formed on the bottom surface of the filter and a valve 414 for manually or automatically opening and closing the filtration water discharge pipe is provided, The end portion of the discharge pipe may be formed in a mesh shape so as to prevent the discharge pipe from being discharged.

The present invention as described above can effectively filter foreign substances, heavy metals, chemical substances, and the like contained in rainwater by providing a primary filtration filter 420 and a secondary filtration filter 430 in the filter 40, Various kinds of rainwater (filtrate water) can be used for various purposes such as domestic water (washing, washing and drying), cleaning water (house, building exterior wall), industrial water (boiler water, washing water, cooling water, It can be recycled for use.

10: Rainwater collector
20: Initial Excellent Storage Tank
210: initial stormwater discharge pipe
220: Valve
230: Buoyancy member
240: Guide
30: Rainwater inflow pipe
40: Filter
410: enclosure
411: Foreign matter outlet
412: Filtration filter inlet
413: Filtration water discharge pipe
414: Valve
420: primary filtration filter
430: secondary filtration filter

Claims (5)

A rainwater collecting pipe (10) for collecting rainwater;
An initial stormwater storage tank (20) communicatively connected to the rainwater collecting pipe for selectively storing initial stormwater;
A rainwater inflow pipe 30 branched and connected to communicate with the initial stormwater collecting pipe and separately collecting rainwater after the inside of the initial storer tank is filled with initial rainwater;
A filter (40) connected to the rainwater inflow pipe and connected to the rainwater inflow pipe to filter out foreign matter contained in the rainwater introduced through the rainwater inflow pipe, and purify and discharge the rainwater;
And a rainwater recycling system for recycling rainwater.
[3] The apparatus of claim 1, wherein the initial superior stor- age tank is raised by an initial storm filled in the first stor- age tank to block an end of the initial storm collector pipe, thereby preventing the initial stor- age of the initial stor- age tank from flowing into the rainwater inflow pipe. And a buoyancy member of the rainwater recycling system.
[2] The apparatus as claimed in claim 1, wherein the filter comprises a housing in which a space is formed, a primary filter in the form of a mesh net to filter out foreign matter and discharge rainwater naturally, And a secondary filtration filter provided in the lower part and filled with a plurality of activated carbons inside the filter network so that heavy metals, chemicals, and contaminants contained in the rainwater can be removed while being adsorbed.
The rainwater recycling system according to claim 3, wherein the primary filtration filter is formed of CFRP material.
The rainwater recycling system according to claim 3, wherein the secondary filtration filter is stacked in upper and lower stages, and smaller particles of activated carbon are formed in a smaller size from the upper part to the lower part.

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