KR20160096862A - recycling system of rain water - Google Patents

Abstract

According to an embodiment of the present invention, a system for treating and recycling rainwater is mounted in a building or the like to treat and recycle rainwater, and comprises: a rainwater inflow unit into which rainwater flows; an initial rainwater exclusion device (20) disposed on one side of the rainwater inflow unit, and provided with a rainwater detection sensor to open a valve during a prescribed inputted time when an inflow of rainwater is detected to discharge initial contaminated water containing foreign substances, and a time valve; a raw rainwater water tank (30) disposed on one side of the initial rainwater exclusion device (20), in which the rainwater filtered by the initial rainwater exclusion device (20) is collected and stored; a raw water transport pump (40) to transport raw water stored in the raw rainwater tank (30); a micro-filter unit (50) to firstly filter the raw water flowing thereinto by the transport pump; a rainwater treatment device (60) which comprises an activated carbon filter unit (610), a filter unit (620) consisting of porous red clay pottery, and a hydroxyapatite (HAp) filter (630), and filters the rainwater passing through the micro-filter unit (50) to have a pH of 5.8-8.5 and a turbidity equal to or lower than 5 NTU to prevent detection of a colon bacillus; a pH measurement device (70) to measure a pH of the rainwater filtered through the rainwater treatment device (60); a rainwater purification tank (80) to collect and store rainwater having the prescribed pH and turbidity and meeting colon bacillus inspection criteria; and a control panel (90) disposed on one side and connected to each component in a wired/wireless manner to control whether to operate or not.

Description

Recycling system of rain water

The present invention relates to an abattoir recycling system, and more particularly, to an abattoir recycling system comprising an initial exclusion exclusion device (20) for reusing water by ecologically treating rainwater, and a stormwater treatment device (60) And a backwash mode in which the treatment filter is automatically cleaned in accordance with the filter condition.

Recently, rainfall patterns are concentrated in specific periods due to climate change. Therefore, measures to prevent flood damage are urgently needed. As the amount of water available due to frequent droughts and water pollution is decreasing, Is expected to be further intensified, but the technology to cope with this is insignificant. Therefore, it is urgently required to develop a water reuse technology that can reuse rainwater or wastewater treated water for landscape water, hydrophilic water, industrial water, and urban reclaimed water.

In order to solve this problem, a conventional water reuse apparatus has a structure in which sedimentation and separation of sludge are carried out by injecting coagulant into raw water to be introduced, and pollutants not treated in the pretreated treated water are discharged in a scum- And a backwash function is added. Such conventional technology has a problem in that it is inevitable to input power for injecting a drug, the process is complicated, and can act as a secondary pollutant source of effluent water due to chemical injection.

Patent Registration No. 10-1217165 has devised a technique for reusing rainwater through a primary purification process, a secondary filtration process, and a tertiary disinfection process. The above-described technology adopts the advanced oxidation method and is equipped with the flotation plant purification device, which is an environmentally friendly technology. However, ozone air supply is applied as a reverse rinse process and an advanced oxidation means, so care must be taken in operational management. As the flotation plant purification means is applied, a separate alternative for the maintenance of flotation plants in the winter season is required.

Another prior art is a technique for removing residual contaminants by biological treatment with microorganisms. However, this method is difficult to obtain the expected effect of pollutant treatment in a place where the concentration of heavy rainfall is high, the load fluctuation is rapidly changed, the range of nonpoint pollutant sources and emission characteristics are wide and temporarily concentrated like in Korea, It takes a long time to do so, which leads to considerable problems in the field application.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in consideration of the above problems, and it is an object of the present invention to provide an excellent treatment recycling system capable of promptly supplying water to be filtered in rain water to aquatic tank, rapidly supplying water to living water, It has its purpose.

In addition, the present invention makes it possible to utilize rainwater as domestic water, thereby making it possible to utilize water resources efficiently, minimizing the impact on environment by treating rainwater in an environmentally friendly manner, facilitating operation management and maintenance, Which can be stored and recycled.

In order to achieve the above object, there is provided a system for processing and recycling abundance, An excellent sensor which is provided at one side of the superior inflow portion and opens the valve for a predetermined input time when the inflow of the storm is sensed and discharges polluted water including an initial foreign object to be introduced, An apparatus 20; An excellent source water tank 30 provided at one side of the initial stormwater drainage device 20 and collecting and storing the stormwater filtered by the initial stormwater drainage device 20; A raw water transfer pump (40) for transferring raw water stored in the excellent raw water tank (30); A microfilter 50 for primarily filtering raw water flowing through the feed pump; An activated carbon filter unit 610 and a loess earth ring filter unit 620 composed of a porous loess pottery and a hydroxyapatite (HAp) filter 630, To 8.5 < / RTI > pH, turbidity not more than 5 NTU, and filtering the E. coli to not be detected; A pH measuring device 70 for measuring the pH of the stormwater filtered through the stormwater treatment device 60; An excellent water tank 80 for collecting and storing storms satisfying the predetermined pH, turbidity, and E. coli testing criteria; And a control panel 90 provided on one side and connected to each of the components by wired / wireless lines to control the operation of the components.

The waste water treatment apparatus 60 includes an activated carbon filter unit 610 at one side of the distribution apparatus distributor 640 at one end of the activated carbon filter unit 610, A hyaline ring filter unit 620 composed of a porous hull soil ring is provided and a hydroxyapatite (HAp) filter 630 is provided on one side of the ocher filter ring unit 620, and the activated carbon filter unit 610 And a distribution device 640 for uniformly distributing the amount of stormwater introduced into one side of the loess earth ring filter part 620 and the hydroxyapatite (HAp) filter 630, and the hydroxyapatite HAp A UV lamp part 650 provided on one side of the hydroxyapatite HAp filter 630 and an activated carbon filter part 640 for removing microorganisms remaining in the rainwater passing through the filter 630, (610) and the loess earth ring filter part (620) Characterized in that the configuration including; and, inside the solid processing device 60, a solenoid valve 660 for controlling the two-way flow of the fluid.

The activated carbon filter unit 610 includes a hollow cylindrical outer cylinder 612 having a guide rail portion 611 for guiding the fixing and mounting of the filter therein and providing a predetermined space therein, A partition plate fixed to the guide rail part 611 and having a trapezoidal shape and having a smaller cross sectional area from the upper side to the lower side and a nonwoven fabric 614 inside the perforated distribution plate 613, The filtering effect for filtering the foreign matter contained in the storm that penetrates through the perforated distribution plate 613 and filtering the foreign matter introduced into the interior due to the shape structure of the trapezoidal perforated distribution plate 613, And the bottom surface side are uniformly formed.

When the storm surge sensor senses the initial storm that flows through the storm inflow section 10 during the normal operation, the time valve is opened and discharged to a drain port for a predetermined input time, The foreign matter contained in the initial rainwater is filtered through the storm drainage apparatus 20 to be collected in the storm water source tank 30 and stored therein and the stormwater is transferred to the stormwater discharge pump 40 in accordance with a control command of the control panel 90 The purified water is filtered through the microfilter and purified water is supplied to the excellent water tank 80 through the microfilter 60. If the pH value is inputted through the pH measuring device 70, And when it is unsatisfactory, it is bypassed to the excellent treatment device 60 and the purified water operation is repeatedly performed.

In addition, in order to remove foreign substances deposited on the activated carbon filter unit 610 and the loess earth ring filter unit 620 of the stormwater treatment apparatus 60, the hot water generator 680 heats the purified water, (O ₃ ) produced through the ozone generator (670) is dissolved in the ozonizer filter unit (620), and then the ozonizer And removing the deposited foreign matter.

Whether or not the backwash operation is performed is determined by the control panel 90 in accordance with the differential pressure alarm measured by the differential pressure sensor 690 A backwash operation is performed to remove foreign matters deposited inside the rainwater treatment apparatus 60.

When the pH value measured through the pH measuring device 70 is out of the range of 5.5 to 8.5 in the case where the rainwater purified through the rainwater treatment apparatus 60 during the normal operation is out of the range, 40 by the operation of the microfilter so as to repeat the purification operation.

When the measured value of the water level sensor 310 provided in the excellent water tank 30 reaches a low water level or the water level sensor 310 provided in the excellent water tank 80 measures a high water level value The control panel 90 automatically stops all operations.

In the stormwater recycling system according to the present invention, polluted initial rainwater containing foreign matter initially detected is flowed to a sewer, and rainwater collected thereafter is treated in combination with a physical process and a natural-friendly process, The water quality is secured by securing the water resources and securing the ecological preservation function, and treating the initial rainwater having the highest pollution degree by using the initial rainwater exclusion apparatus, discharging and treating the rainwater afterwards, and then supplying the water with good water quality There is an effect that can be.

In addition, it is possible to expect various water treatment effects such as hydrogen ion index (pH), turbidity and non-detection of total coliform bacteria by using a fusion triple treatment device 60 using HAp and loess pottery.

In addition, by adopting a structure that effectively filters rainwater and water purification, it adopts technology for improving the quality of treated water to secure stable alternative water resources and to utilize limited water resources efficiently by securing high quality water, minimizing impacts due to climate change, It is possible to secure differentiated technological competitiveness in the global water market by developing water reuse processing technology.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the overall configuration of a stormwater treatment recycling system according to an embodiment of the present invention; FIG.
2 is a diagram showing a configuration of a stormwater treatment apparatus 60 of a stormwater treatment recycling system according to an embodiment of the present invention.
3 is a diagram showing the configuration of the activated carbon filter unit 610 of the excellent treatment recycling system according to the embodiment of the present invention.
FIG. 4 is a view showing the operation state of the system during normal operation of the stormwater treatment recycling system according to the embodiment of the present invention.
FIG. 5 is a view showing the operation state of the system during backwash operation for filter cleaning in the stormwater treatment apparatus 60 of the stormwater treatment recycling system according to the embodiment of the present invention.
6 is a cross-sectional view for explaining a state of the inside of the excellent treatment apparatus 60 during backwash operation for cleaning the filter in the poor treatment apparatus 60 of the excellent treatment recycling system according to the embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention.

It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, the specific shapes, structures, and characteristics described herein may be implemented by changing from one embodiment to another without departing from the spirit and scope of the invention. Therefore, the following detailed description is not to be taken in a limiting sense, and the scope of the present invention should be construed as encompassing the scope of the appended claims and all equivalents thereof.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the overall configuration of a stormwater treatment recycling system according to an embodiment of the present invention; FIG. 2 is a diagram showing a configuration of a stormwater treatment apparatus 60 of a stormwater treatment recycling system according to an embodiment of the present invention. 3 is a diagram showing the configuration of the activated carbon filter unit 610 of the excellent treatment recycling system according to the embodiment of the present invention.

Referring to the drawings, the overall structure of a stormwater treatment recycling system according to an embodiment of the present invention includes: a stormwater inflow section into which stormwater flows; An excellent sensor which is provided at one side of the superior inflow portion and opens the valve for a predetermined input time when the inflow of the storm is sensed and discharges polluted water including an initial foreign object to be introduced, An apparatus 20; An excellent source water tank 30 provided at one side of the initial stormwater drainage device 20 and collecting and storing the stormwater filtered by the initial stormwater drainage device 20; A raw water transfer pump (40) for transferring raw water stored in the excellent raw water tank (30); A microfilter 50 for primarily filtering raw water flowing through the feed pump; An activated carbon filter unit 610 and a loess earth ring filter unit 620 composed of a porous loess pottery and a hydroxyapatite (HAp) filter 630, To 8.5 < / RTI > pH, turbidity not more than 5 NTU, and filtering the E. coli to not be detected; A pH measuring device 70 for measuring the pH of the stormwater filtered through the stormwater treatment device 60; An excellent water tank 80 for collecting and storing storms satisfying the predetermined pH, turbidity, and E. coli testing criteria; And a control panel 90 provided on one side and connected to each of the components by wired / wireless lines to control the operation of the components.

The waste water treatment apparatus 60 includes an activated carbon filter unit 610 at one side of the distribution apparatus distributor 640 at one end of the activated carbon filter unit 610, A hyaline ring filter unit 620 composed of a porous hull soil ring is provided and a hydroxyapatite (HAp) filter 630 is provided on one side of the ocher filter ring unit 620, and the activated carbon filter unit 610 And a distribution apparatus distributing apparatus 640 for uniformly distributing the amount of storm water introduced into one side of the loess earth ring filter unit 620 and the hydroxyapatite (HAp) filter 630, and the hydroxyapatite (HAp) filter 630 and a UV lamp 650 provided at one side of the hydroxyapatite (HAp) filter 630 to remove microorganisms remaining in the interior, The filter unit 610 and the yellow earth ring filter unit 620 are interposed And a solenoid valve 660 for controlling the flow of the fluid in both directions within the abattoid treatment device 60. [

The activated carbon filter unit 610 includes a hollow cylindrical outer tube 612 having a guide rail portion 611 for guiding the fixing and mounting of the filter therein and providing a predetermined space therein, A partition plate fixed to the guide rail part 611 and having a trapezoidal shape and having a smaller cross sectional area from the upper side to the lower side and a nonwoven fabric 614 inside the perforated distribution plate 613, The filtering effect for filtering the foreign matter contained in the storm that penetrates through the perforated distribution plate 613 and filtering the foreign matter introduced into the interior due to the shape structure of the trapezoidal perforated distribution plate 613, And the water surface is uniformly disposed on the bottom surface side.

In detail, the abalone treatment apparatus 60 is provided inside the outer cylinder 612, and is composed of a three-way filter composed of a loess pottery, a nonwoven fabric 614 coated with HAP, and activated carbon, and the introduced abdomen is made of activated carbon, (614), and is passed through the filter in the order of loess pottery to improve the water purification function of the rainwater and is excellent in durability.

Meanwhile, the initial rainwater drainage device is capable of rotating 360 ° to the rainwater inflow section, the filtration section and the outflow section capable of three-stage separation, and the filter having the conical shape is composed of a double filter structure capable of removing at least 90% .

Hydroxyapatite, which is the material of the hydroxyapatite (HAp) filter 630, is an inorganic material having the same composition as the inorganic bone of the human bone, and is used as a medical biomaterial based on high biocompatibility and suitability. , HAP can have a positive charge, adsorbs acidic, neutral, and smoke proteins, and has been reported for viruses and bacterial adsorption properties, and is also used for chromatography because it can adsorb polar compounds.

FIG. 4 is a view showing the operation state of the system during normal operation of the stormwater treatment recycling system according to the embodiment of the present invention. FIG. 5 is a view showing the operation state of the system during backwash operation for filter cleaning in the stormwater treatment apparatus 60 of the stormwater treatment recycling system according to the embodiment of the present invention. 6 is a cross-sectional view for explaining a state of the inside of the excellent treatment apparatus 60 during backwash operation for cleaning the filter in the poor treatment apparatus 60 of the excellent treatment recycling system according to the embodiment of the present invention.

In detail, when the storm surge sensor senses the initial storm that flows through the storm inflow section 10, the time valve is opened for a predetermined input time, The foreign matter contained in the initial rainwater is filtered and stored in the excellent water tank 30 through the initial stormwater drainage device 20 and stored in the excellent water tank 30, If the pH value inputted through the pH measuring device 70 is satisfied after the feed pump 40 is operated and the raw water is subjected to a purification operation through the microfilter through the aeration treatment device 60 When the water is collected by the excellent water tank 80 and is dissatisfied, the water is bypassed to the water treatment unit 60 and the water purification operation is repeatedly performed.

In addition, in order to remove foreign substances deposited on the activated carbon filter unit 610 and the yellow lozenges filter unit 620 of the stormwater treatment apparatus 60, the hot water generator 680 heats the purified water, (O ₃ ) produced through the ozone generator (670) is dissolved in the ozonizer filter unit (620), and then the ozonizer Perform work to remove deposited foreign matter.

Whether or not the backwash operation is carried out is determined by the control panel 90 in accordance with the differential pressure alarm measured by the differential pressure sensor 690, A backwash operation is performed to remove foreign substances deposited inside the stormwater treatment apparatus 60. [

When the pH value measured through the pH measuring device 70 is out of the range of 5.5 to 8.5, the well water purified through the stormwater treatment device 60 in the steady-state wastewater is discharged to the well water feed pump 40, the microfilter is bypassed to perform the purification operation repeatedly.

Meanwhile, when the measured value of the water level sensor 310 provided in the excellent water tank 30 reaches a low level or when the water level sensor 310 provided in the excellent water tank 80 measures a full water level value The control panel 90 automatically stops all operations.

10. Stormwater inlet 20. Early stormwater drainage system
30. Excellent water tank 40. Raw water transfer pump
50. MICROFILTER SECTION 60. Excellent treatment device
70. pH measuring device 80. Excellent water tank
90. Control panel 610. Activated carbon filter section
620. Hwadong ring filter part 630. Hydroxy apatite filter
640. Dispensing device 650. UV lamp section
660. Solenoid valve 611. Guide rail part
612. Outer tube 613. Perforated distribution plate
614. Nonwovens 670. Ozone Generators
680. Hot water generator 690. Differential pressure sensor
310. Water level sensor

Claims (8)

In a system for processing and recycling abundance,
An inflow section into which the storm is introduced;
An excellent sensor which is provided at one side of the superior inflow portion and opens the valve for a predetermined input time when the inflow of the storm is sensed and discharges polluted water including an initial foreign object to be introduced, An apparatus 20;
An excellent source water tank 30 provided at one side of the initial stormwater drainage device 20 and collecting and storing the stormwater filtered by the initial stormwater drainage device 20;
A raw water transfer pump (40) for transferring raw water stored in the excellent raw water tank (30);
A microfilter 50 for primarily filtering raw water flowing through the feed pump;
An activated carbon filter unit 610 and a loess earth ring filter unit 620 composed of a porous loess pottery and a hydroxyapatite (HAp) filter 630, To 8.5 pH, a turbidity of not more than 5 NTU, and filtering E. coli to be not detected;
A pH measuring device 70 for measuring the pH of the stormwater filtered through the stormwater treatment device 60;
An excellent water tank 80 for collecting and storing storms satisfying the predetermined pH, turbidity, and E. coli testing criteria;
And a control panel (90) provided on one side and connected to each of the components by wired / wireless lines to control the operation of the components.
The method according to claim 1,
The stormwater treatment apparatus (60)
An activated carbon filter unit 610 is provided at one side of the distribution apparatus distributor 640 at an inlet through which the storm is introduced,
At one side of the activated carbon filter unit 610, a yellow soil ring filter unit 620 composed of a porous yellow soil ring is provided,
A hydroxyapatite (HAp) filter 630 is provided on one side of the loess earth ring filter unit 620,
A distribution device distributor 640 for uniformly distributing the amount of stormwater introduced into one side of the activated carbon filter part 610, the loess earth ring filter part 620 and the hydroxyapatite (HAp) filter 630, Respectively,
A UV lamp 650 provided at one side of the hydroxyapatite (HAp) filter 630 is provided to remove the microorganisms remaining in the rainwater passing through the hydroxyapatite (HAp) filter 630, ;Wow
And a solenoid valve (660) interposed between the activated carbon filter unit (610) and the loess earth ring filter unit (620) and controlling the flow of fluid in both directions in the rainwater treatment apparatus (60) And the recycled material is recycled.
3. The method of claim 2,
The activated carbon filter unit 610 includes:
A hollow cylindrical outer cylinder 612 having a guide rail portion 611 for guiding the fixing and mounting of the filter therein and providing a predetermined space therein,
A punch-type distribution plate that is seated and fixed to the guide rail portion 611 and has a trapezoidal shape with a smaller sectional area from the upper side to the lower side,
The non-woven fabric 614 is disposed inside the perforated distribution plate 613 to filter foreign substances contained in the perforation passing through the perforated distribution plate 613 and to form the shape of the trapezoidal perforated distribution plate 613 Wherein the upper side and the lower side are uniformly provided with a filtering effect for filtering out foreign matters introduced into the interior of the structure.
The method according to claim 1,
In the steady-
In the case where the storm surge sensor detects an initial storm that flows through the storm inflow section 10, the time valve is opened and discharged to a drain port for a predetermined input time, The foreign matter contained in the initial rainwater is filtered and stored in the excellent water tank 30 and stored, and the superior raw water transfer pump 40 is operated in accordance with the control command of the control panel 90, Through this,
When the raw water is purified through the water quality treatment unit 60 and then the pH value inputted through the pH measurement unit 70 is satisfied, the water is collected in the excellent water tank 80. If the pH value is unsatisfactory And bypasses the waste water to the stormwater treatment device (60) to perform the water purification operation repeatedly.
The method according to claim 1,
In order to remove foreign substances deposited on the activated charcoal filter unit 610 and the loess earth ring filter unit 620 of the stormwater treatment apparatus 60,
The ozone O ₃ generated through the ozone generator 670 is dissolved in the hot water provided by heating the purified water in the hot water generator 680 and then the ozone O ₃ is introduced into the reverse direction of the water quality treatment apparatus 60, And the foreign matter deposited on the yellow coal filter unit (620) is removed.
6. The method of claim 5,
Whether or not the backwashing operation is carried out,
A pressure difference sensor 690 is provided in the superior quality treatment apparatus 60 and the control panel 90 determines automatically the pressure difference sensor 690 according to the differential pressure alarm measured by the pressure difference sensor 690, And performing a backwash operation to remove deposited foreign matter.
5. The method of claim 4,
In the steady-state display,
When the pH value measured through the pH measuring device 70 is out of the range of 5.5 to 8.5, the water quality purified by the water quality treatment device 60 is returned again by the operation of the excellent raw water transfer pump 40 Wherein the microfilter is bypassed to the microfilter side, and the purification operation is repeatedly performed.
The method according to claim 1,
When the measured value of the water level sensor 310 provided in the water source tank 30 reaches the low water level or the water level sensor 310 provided in the excellent water tank 80 measures the water level value, And stops all operations automatically on the control panel (90).

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