KR101333546B1 - Customized rain purification system for collection and reuse of rainwater - Google Patents

Abstract

Disclosed is a customized rainwater treatment system to selectively purify rainwater excluding the contaminated initial rainwater to discharge for gardening and washing purposes or discharge for drinking purposes depending on the intended use. The customized rainwater treatment system according to the present invention comprises: a collecting tank for rainwater excluding the initial rainwater with a high nonpoint pollution source for precipitates; a water tank to store water by pumping the rainwater with precipitates of foreign substances from the collecting tank; a first purifying tank capable of discharging water depending on user preference after pumping the rainwater in the collecting tank and purifying the rainwater by a filter for waste water; a second purifying tank capable of discharging water depending on user preference by purifying the purified water by the filter for waste water; and a controller to control the collecting tank, the water tank, the first purifying tank, and the second purifying tank. [Reference numerals] (130) Filtering;(AA) Rain water

Description

Customized rain purification system for collection and reuse of rainwater}

The present invention relates to a rainwater treatment facility for collecting rainwater and reused as water required for life, and more particularly, to a customized rainwater treatment facility that can be selectively treated according to the purpose of use of water to supply the desired water quality.

Since ancient times, Korea is known as a good country with good water and abundant water resources, but now Korea is classified as a water shortage country.

The average annual rainfall in Korea is 1,300mm, which is higher than the average of 880mm of the whole earth, but we live with worrying about water every year. Not to mention this, rain is concentrated in the summer months, but in most regions except Ulleungdo, three-month precipitation in summer exceeds half of the yearly rainfall. On some days, a month of precipitation may occur.

Korea's strata are thin in the topsoil and have a poor natural desalination capacity. Since 1965, water use has increased every year. Especially, the use of domestic water has increased by 32 times. It is obvious that the shortage of water resources will intensify given the increase in population, industrial development, and the amount of water required for agriculture.

Therefore, in order to increase the supply of water shortages, multi-purpose dams need to be collected to collect rains concentrated in summer, but the construction of dams for water conservation is very difficult due to the difficulty in selecting areas, and the water resources that follow The cost of development has also increased exponentially, making it difficult to pursue water resource development policies.

Even if it is assumed that the increase in the cost of dam construction can be covered by raising the water supply value, there is no solution for damage in the region due to the construction of the dam. As measures to be curbed or reduced must be devised, it will be necessary to make efforts to save water through the government or environmental groups.

On the other hand, there is a need to actively introduce the concept of Wastewater Reclamation and Reusing System, as well as a method to reduce the amount of water resources required by establishing a rainwater recycling system for each city or region by taking a more comprehensive approach. Seems to be a good alternative.

However, even if the concept of heavy water or rainwater recycling is introduced, it is difficult to immediately introduce it in view of the enormous cost because it requires the installation of a separate pipe from current water and sewage pipes for recovery or transportation. It is necessary to review the policy to set the concept of water and rainwater recycling as a long-term plan, apply it to commercial buildings, manufacturing plants, and some areas, and establish and implement a phased plan that ultimately spreads to general households.

The present invention has been devised to meet the needs as described above, and receives rain water excluding the initial excellent rain water, which is selectively purified according to the purpose of use to discharge into miscellaneous water, such as landscaping water, washing water, or also discharged to drinking water. It is to provide customized stormwater treatment facilities that can be customized.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above.

The present invention to solve the above problems,

A sump collecting sediment by receiving rainwater excluding an initial rainfall having a high nonpoint source;

A storage tank for storing and storing rainwater in which foreign matter is settled in the sump tank;

A first water tank for pumping rainwater in the storage tank to purify through the filter unit for the water for use and then storing the waste water for immediate use when the user desires it;

A second water tank configured to purify the water purified through the filter for water for use in the drinking water again to store the product for use immediately when desired by the user; And

It provides a customized rainwater treatment facility, including; a controller for controlling the sump tank, the storage tank, the first water tank and the second water tank.

At this time, the turbidimeter is installed in the branch pipe connected to the inlet of the inlet pipe from the outside to the rainwater, and the inlet control valve is installed in the discharge pipe for discharging the rain water extending to the lower portion of the branch pipe, inflow control according to the set turbidity of the turbidimeter The valve may be opened or closed.

A three-way valve is installed between the water filter unit, the drinking water filter unit, and the first water tank, so that the user can select any one of the water and the drinking water.

In addition, a UV lamp or a UV / O ₃ lamp may be installed in the first and second water purification tanks for the final water purification of general and drinking water.

On the other hand, between the collection tank and the storage tank may further include a filtration unit installed to process the rain water is moved.

In addition, it may further include a photovoltaic power generation facility is installed for the power supply of the customized stormwater treatment facility.

In addition, the water collection tank, the storage tank, the first water tank and the second water tank is provided with a water level sensor for measuring the water level to control the movement of the stored water.

And a drain valve for discharging the settled foreign matter is formed in one lower portion of the sump, it is preferable that the bottom surface of the sump is formed as an inclined surface inclined toward the drain valve.

And rainwater flowing into the sump tank is preferably used for the roof rainwater having a turbidity of less than 30NTU.

As described above, the customized stormwater treatment facility according to the present invention allows each user to be supplied in a prepared state according to the user's choice of using general purpose water or drinking water by controlling the controller and the three-way valve. .

The rainwater treatment facility according to the present invention has the advantage of being able to selectively use relatively good rainwater because the rainwater having high non-point pollution can be excluded by the turbidimeter.

In addition, the rainwater treatment facility according to the present invention has the advantage that it is possible to use the photovoltaic power generation equipment to supply water by treating rainwater even in a place where power supply is difficult.

And by installing the water level sensor connected to the controller in the collection tank, storage tank, the first water tank and the second water tank in which rain water and water are stored, the water is automatically moved according to the water level, so that the user does not have to worry about the flow of water. There is an advantage.

1 is a schematic flowchart of a customized stormwater treatment facility according to the present invention,
2 is a view showing the configuration of a customized stormwater treatment facility according to the present invention,
3 is a view showing an inlet that excludes the initial excellent rain non-point pollution,
4 is a view showing for selectively supplying the water and drinking water by the three-way valve
And Figure 5 is a view showing the control relationship and power supply of the customized stormwater treatment facility according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Referring to Figures 1 and 2 showing the operation flow and overall configuration of the customized rainwater treatment facility according to the present invention, the customized rainwater treatment facility 100 according to the present invention is a water collecting tank 120 for receiving rain water, and the water collecting tank ( Storage tank 140 for storing the rainwater of 120 again, and the first water tank 180 and the second water tank 190 for storing the purified after the rainwater of the storage tank 140 with the general water or drinking water. .

The sump tank 120 corresponds to primary purification to settle the foreign matter by receiving rain water. The water collecting tank 120 is introduced into the storage tank 140 after the rainwater is introduced from the outside rides through the inlet pipe 115, the rainwater is stored in the water collecting tank 120 for a predetermined time. Transferred. At this time, the drain valve 122 for carrying out the foreign substances settled on the bottom surface is installed on the lower side of the sump tank 120, the inclined surface inclined to the bottom surface to have a phenomenon that the foreign substances are directed to the drain valve 122 side 121 is formed.

In addition, the water tank 120 is provided with a water level sensor 125. The water level sensor 125 measures the amount of rainwater collected, and at a high level, it is possible to control further rainwater inflow, and at a low level, since there is no supply of rainwater, the operation of the storm water treatment facility 100 is stopped. It can be controlled.

Rainwater flowing into the sump tank 120 as described above is good to use a relatively good roof water quality. However, not all rainwater is clean. Among the rainwater, the initial rainwater is mixed with many contaminants and is the most polluted. This is because sand, soil, and oil are discharged from the various wastes accumulated on the roof in the early rainwater, and rather than using the initial rainwater purification, it is necessary to discard the initial rainwater having a high point of non-point pollution and select and use some high-quality rainwater. Will be.

Accordingly, in the present invention, the rainwater inflow unit as shown in FIG. 3 is designed to select only rainwater from which rainwater is discharged from the road surface.

Referring to FIG. 3, the rainwater inlet is a trough 110 formed on a road surface or a roof, a discharge pipe 112 through which rainwater flows down through the trough 110, and a space widened about a middle of the discharge pipe 112. Branch barrel 113 having a, and the inlet pipe 115 for sending only a relatively good quality rainwater from the branch barrel 113 to the sump tank 120. At this time, the screen 111 is installed in the trough 110 to filter large foreign matter, the discharge pipe is extended so that rain water is not discharged to the inlet pipe 115 side is discharged to the lower portion of the branch barrel 113.

A method of selecting relatively high quality rainwater from the rainwater inlet is achieved by installing a turbidimeter 116 in the branch barrel 113 and installing an inlet control valve 117 in the discharge pipe 112 so as to be interlocked with the turbidimeter 116. Can be. That is, when the turbidity of the rain water measured by the turbidimeter 116 is below a certain level, the inlet control valve 117 is closed to introduce rainwater into the sump tank 120 into the sump tank 120, and when the water is measured above a predetermined level, the inflow control is performed. Open valve 117 to exclude rainwater inflow into sump 120. Rainwater used in the present invention is suitable for rainwater having a turbidity of about 30NTU or less, and the rainwater is treated with general purpose water having a turbidity of 2NTU, or drinking water having a turbidity of 0.5NTU or less.

Referring again to FIGS. 1 and 2, the storage tank 140 is a place where rainwater of the collection tank 120 is pumped and stored, and the filtration unit 130 is transferred to the storage tank 140 from the collection tank 120. It can also be introduced while filtered by. That is, the rainwater in the storage tank 140, the rainwater first purified by the sedimentation of the collection tank 120 is stored again the rainwater purified second by the filter 130. Non-woven fabric, activated carbon, EPP or fibrous media may be used as the filter medium used in the filtration unit 130 and is filtered by a sump pump power.

The storage tank 140 is a place where the rain water to be treated to meet the purpose of use, the first water tank 180 or the second water tank 190 through the filter unit 150, 160 by the pump (P2). Is transferred to. And the water level sensor 145 is also installed in the storage tank 140 to control the storm water treatment facility 100 according to the water level. That is, when the water level sensor 145 of the storage tank 140 is at a high level, it is necessary to block further rainwater inflow.

The rainwater in the storage tank 140 is pumped by the pump P2 and sent to the first water tank 180 or the second water tank 190 through the filter unit, and the filter unit and the water filter unit 150 for water The drinking water filter unit 160 is provided with two kinds to selectively purify.

The water filter unit 150 and the drinking water filter unit 160 are pump pressurized, and the water filter unit 150 is followed by a drinking water filter unit 160. In addition, at least one filter may be provided for each filter unit 150 and 160, and each filter may be connected in series. In other words, in order to use rainwater as the general purpose water, only the general water filter unit 150 needs to pass through, and in order to use the drinking water, the user can use the water only after passing through the general water filter unit 150 to the drinking water filter unit 160 again. Will be.

Filters used in the water filter 150 and the drinking water filter 160 are filters commonly used in water purifiers, such as a sediment filter, a pre / post carbon filter, or a micro filter. (Microfiltration Filter, MF) or Ultrafiltration Filter (UF), etc. may be used, and may be selectively applied according to the desired water quality. That is, although there are too many types to limit the types of filters used in the present invention, in the water filter unit 150, a sediment filter or carbon adsorption filter for removing relatively large particles may be used. The drinking water filter unit 160 may be a filter for adsorption that removes fine particles such as MF, UF, and remove harmful substances and heavy metals.

The water passing through the filter unit is transferred to the first water tank 180 containing the general purpose water and the second water tank 190 containing the drinking water according to each purpose. However, since the water filter unit 150 and the drinking water filter unit 160 are connected in series, the final drinking water may be discharged from the drinking water filter unit 160, but the water must be drained in the middle connected in series. A problem arises. Therefore, in the present invention, the three-way valve 170 is installed in the middle of the connection between the water filter unit 150 and the drinking water filter unit 160.

As shown in FIG. 4, the three-way valve 170 has one inlet and two outlets out1 and out2, and according to a selection, the three-way valve 170 controls which outlet to open. Therefore, when the user needs the water, the three-way valve 170 is operated so that the water from the water filter unit 150 enters the first water tank 180 as a solid arrow. If the need is to operate the three-way valve 170 so that the water coming out of the water filter unit 150 to the drinking water filter unit 160 as shown by the dotted arrow.

The first water tank 180 and the second water tank 190 according to the present invention is a place containing the water to be used, UV lamp or UV / O ₃ lamp (182, 192 may be installed. In addition, water level sensors 185 and 195 are installed in the first water tank 180 and the second water tank 190, respectively, to control the storm water treatment facility 100 according to the water level of each water tank 180, 190. . That is, when the water level is high level, it is controlled to block further water inflow, and when the water level is low level, the user replenishes the water so that the user can use the water at any time. In addition, the opening and closing valves (181, 191) in front of the first water tank (180) and the second water tank (190) is equipped so that the user can conveniently use the water at any time.

Storm water treatment facility 100 according to the present invention requires a controller for controlling each component. As shown in Figure 5, such a controller, turbidimeter 116, inlet control valve 117, pumps (P1, P2), level sensors (125, 145, 185, 195), three-way valve 170, UV lamp Or UV / O ₃ lamps 182 and 192. That is, the controller 200 opens and closes the inflow control valve 117 according to the turbidity measurement of the turbidimeter 116 to introduce relatively high-quality rainwater into the sump tank 120 and the water level sensors 125, 145, 185, and 195. Operate pumps P1 and P2 according to the water level to control the movement of water, control the three-way valve 170 according to whether the user uses drinking water or general purpose water, UV lamp or UV / The ON / OFF of the O ₃ lamps 182 and 192 is controlled.

The storm water treatment facility 100 according to the present invention can be easily powered from home when used for home use, but is difficult to receive power when used in a remote place. Therefore, in the present invention, as shown in Figure 5, it is possible to operate the storm water treatment facility 100 with the power obtained from the photovoltaic facility 300 using the photovoltaic facility 300.

The present invention is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: customized rainwater treatment facility
110: gutter 111: screen
112: discharge pipe 113: branch barrel
115: inlet pipe 116: turbidimeter
117: inlet control valve 120: water tank
121: inclined surface 122: drain valve
130: filtration unit 140: storage tank
150: water filter unit 160: drinking water filter unit
170: 3-way valve 180: 1st water tank
190: 2nd water tank 181, 191: on-off valve
182, 192 UV lamp or UV / O ₃ lamp 200 Controller
300: solar power generation facilities 125, 145, 181, 195: water level sensor
P1, P2: Pump

Claims (9)

A catchment tank 120 for receiving and settling rainwater excluding the initial excellent rainwater source through the inflow pipe 115;
A storage tank 140 for storing the pumped rainwater in which the foreign matter is settled in the water collecting tank 120;
A first water tank 180 for pumping rainwater in the storage tank 140 to purify through the water filter unit 150 and then storing the waste water so that the user can immediately discharge it when desired;
A second water tank 190 for purifying the water purified through the water filter 150 for drinking water and filtering the drinking water 160 again to immediately discharge the water for use by the user;
A controller 200 for controlling the sump tank 120, the storage tank 140, the first water tank 180, and the second water tank 190;
Turbidimeter 116 is connected to the inlet of the inlet pipe 115 is installed in the branch barrel 113 to the rain water from the outside; And
Personalized excellent, characterized in that it includes; an inlet control valve 117 extending to the lower portion of the branch pipe 113 is installed in the discharge pipe for discharging rain water to open and close the discharge pipe in accordance with the set turbidity of the turbidimeter 116 Treatment facility.
delete The method of claim 1,
A three-way valve 170 is installed between the water filter 150, the drinking water filter 160, and the first water tank 180, so that the user selects one of the water and the drinking water. Customized storm treatment facility, characterized in that.
The method of claim 3, wherein
Customized water treatment facility, characterized in that the first water tank 180 and the second water tank 190 is installed UV lamp or UV / O ₃ lamp (182, 192).
The method of claim 3, wherein
Customized water treatment facility, characterized in that it further comprises a filtration unit 130 is installed between the water tank 120 and the storage tank 140 to process the moving rain water.
5. The method of claim 4,
Customized storm treatment facility, characterized in that it further comprises a photovoltaic power generation facility (300) that is installed to supply power to the customized storm treatment facility.
The method of claim 3, wherein
The water collection tank 120, the storage tank 140, the first water tank 180 and the second water tank 190 is installed with water level sensors 125, 145, 185, 195 for measuring the water level of the water stored Custom excellent treatment facility, characterized in that the movement is controlled by the controller 200.
The method of claim 1,
A drain valve 122 for discharging sedimented foreign matter is formed in one lower portion of the sump tank 120, and a bottom surface of the sump tank 120 is formed as an inclined surface 121 inclined toward the drain valve 122. Customized storm treatment facilities.
The method of claim 1,
Rainwater flowing into the sump tank 120 is a customized rainwater treatment facility, characterized in that the roof rainwater having a turbidity of less than 30NTU is used.

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