KR100760969B1 - Apparatus for treating rainfall and method of treating the rainfall - Google Patents

Abstract

A water treatment apparatus and a water treatment method for enabling the rainwater with secured water quality to be used by securing rainwater which is limited in use according to seasonal and geographical conditions in the same water quality as that of a simply purified water, supply water, or water for sundry uses are provided. In an apparatus including an inflow pipe(112), a feed pump(114), a filtration unit, and a discharge pipe(116), a water treatment apparatus(100) comprises: a backwashing pipe(132) of which one end is connected to the inflow pipe installed between the feed pump and the filtration unit, and of which the other end is connected to a portion of a discharge pipe adjacent to the filtration unit; a backwashing discharge pipe(134) connected to a discharge port of the filtration unit to discharge contaminated cleaning water to the outside of the filtration unit; air valves(AV1-AV4) respectively installed on the inflow pipe, the discharge pipe, the backwashing pipe, and the backwashing discharge pipe; a pressure measuring sensor(PS) for measuring a filtration pressure of the filtration unit and sending out a measured value of the filtration pressure; and a control unit(160) for determining whether the control unit opens or closes the air valves according to the measurement value measured in the pressure measuring sensor, and executing opening or closing the air valves.

Description

Apparatus for Treating Rainfall and Method of Treating the Rainfall}

1 is a schematic layout view of a water treatment apparatus according to the present invention,

2 is a schematic flowchart of the filtration treatment of the water treatment apparatus according to the present invention;

3 is a schematic cross-sectional view illustrating the principle of filtration of the filtration means in the filtration treatment of FIG.

4 is a schematic flowchart of the backwashing of the water treatment apparatus according to the present invention;

FIG. 5 is a schematic cross-sectional view illustrating the principle of backwashing of the filtration means at the backwashing of FIG. 4;

6 is a schematic view of a typical typical embodiment of a water treatment apparatus according to the present invention,

7 is a schematic diagram illustrating a parallel connection relationship in a large capacity treatment using the water treatment apparatus according to the present invention.

♠ Explanation of symbols for the main parts of the drawings.

100: water treatment device, 112: inlet pipe,

114: transfer pump, 116: outlet pipe,

120: filtering means, 122: body,

124: filtration membrane, 125: inlet packing material,

126: through hole, 127: outlet packing material,

132: backwashing pipe, 134: backwashing discharge pipe,

142: air supply pipe, 144: air compressor,

152: water supply pipe, 154: chemical tank,

156: chemical supply pipe, 160: control means,

AV: Air Valve PS: Pressure Sensor

The present invention relates to a treatment apparatus and a treatment method such as rain water, and more particularly, it is possible to stably produce recycled water by filtering unpurified household sewage such as rain water, ground water, river water, or recycled water that has fallen on the ground. It relates to a water treatment apparatus and a treatment method thereof.

In general, when rainfall occurs, the storm drains are installed through storm drains on roads or through rainwater drains installed in buildings, and then flow into storm drains to existing rainwater pumping stations, or a certain amount is sent to sewage treatment plants through sewage pipes. The rainwater sent to the sewage treatment plant is discharged to the river as it is. This means that the rainwater that falls on the ground is not used at all as sewage or general purpose water.

On the other hand, Korea has not been able to effectively utilize rainwater, despite having much more than the world's average precipitation, but is classified as a representative water shortage group designated by the UN. In addition, in Korea, rainfall is intensively generated in summer, and such rainfall is mostly discharged into rivers in rural or mountain villages. Although cities operate rainwater pumping stations, existing rainwater pumping stations focus on draining rainwater rather than recycling it as a disaster prevention facility for flooding and flooding.

In recent years, researches have been actively conducted to effectively collect and use rainwater, but in reality, the concentration of rainwater on the ground has been concentrated in collecting water, and the measures or countermeasures for reusing the collected rainwater. The back is relatively neglected.

Today, several methods are known for reusing the collected rainwater.

First, the filtration method using sand or activated carbon is generally used in a water source, but this requires a lot of space, and has to be equipped with a separate water treatment facility such as a sedimentation basin. The disadvantage is that you need to replace.

In addition, in the case of the reverse osmosis method or the nano filtration membrane which is widely used today, there is an advantage that it can be effectively filtered even in the case of fine contaminants, but it can not be used for a long time for some contaminated water such as rain water, Since the treatment cost and its management cost are relatively high, there is a disadvantage that it is difficult to be practical in economic and technical aspects.

Therefore, in an environment in which rainfall is seasonally concentrated like in Korea, it is difficult to use it as living water or general purpose water by efficiently filtering rainwater, etc., by today's generalized or conventional filtration methods and filtration devices.

Accordingly, it is an object of the present invention to provide a water treatment apparatus that can secure and use rainwater, which is partially restricted in its use according to seasonal geographic conditions, such as simple purified water and water quality such as water supply or general purpose water.

It is also an object of the present invention to provide a water treatment method that can be used to secure the rain water, etc., which is partially restricted in its use according to seasonal geographic conditions, such as simple purified water and water or mixed water (herd).

The present invention relates to a water treatment apparatus such as high utilization water and rainwater, groundwater, river water or domestic sewage, and a treatment method thereof.

Water treatment apparatus, such as rain water according to the present invention is connected to the inlet pipe and the inlet pipe flowing water intake and transport water to send the inside and filtering means for filtering contaminants from the water flowing from the transfer pump and In the apparatus consisting of an outlet pipe for discharging the purified water from the filtering means to the outside, one end is connected to the inlet pipe between the transfer pump and the filtering means, the other end of the filtering means A back washing tube connected to the outlet tube of the adjacent portion; A backwash discharge pipe connected to the outlet portion of the filtration means and configured to discharge the contaminated washing water to the outside; Air valves installed in the inlet pipe, the outlet pipe, the backwash pipe, and the backwash discharge pipe; A pressure measuring sensor for measuring the filtration pressure of the filtration means and sending the measured value; And control means for determining whether or not to open or close the air valves according to the measured value measured by the pressure measuring sensor.

The water treatment apparatus such as rainwater according to the present invention preferably further includes air supply means for supplying air from the outside to the inlet.

In addition, it is preferable that the water treatment apparatus such as rainwater according to the present invention further includes a chemical washing means capable of washing and treating the filtration means with chemicals.

The present invention relates to a method of using a water treatment apparatus such as rainwater, which is, when the rainwater is filtered normally, untreated water is sent to the filtration means through a transfer pump and an inlet pipe when the raw water tank is stored. Supplying step of; The untreated water flows into the through hole of the inlet packing material inside the filtering means, and then the untreated water is filtered while leaving the contaminant on the outer diameter side of the filter membrane while passing through the filter membrane from the outer diameter side to the inner diameter side. A purified water treatment step in which the purified water flows from the inner diameter side of the filtration membrane toward the outlet of the filtration means; A treatment water discharge step of allowing the purified water to exit the outlet pipe connected to the filtering means; It includes.

 In addition, the present invention relates to a method of using the water treatment apparatus such as rain water, the method of automatically backwashing the filtration means when the filtration means drops the filtration efficiency due to contaminants while filtering the rain water or the like normally. It measures the pressure of the untreated water transferred to the filtering means by the transfer pump in the pressure measuring sensor and informs the control means when the pressure exceeds the preset pressure, the control means accordingly the first air valve And closing the second air valve and simultaneously opening the third air valve, the fourth air valve, and the fifth air valve. A washing water supplying step of sending the water supplied from the raw water tank or the treated water tank by the transfer pump to the backwash tube; The washing water is supplied from the inside of the filtration means to the inner diameter side of the outlet of the filtration membrane, and then penetrated from the inner diameter side of the filtration membrane to the outer diameter side, and pushes back the contaminants attached to the outer diameter side of the filtration membrane to separate the contaminants. Steps; A discharge step of the pollutant discharged to the backwash discharge pipe connected to the outside of the filtration means at the outer diameter side of the filtration membrane; It includes.

In the present invention, when the air is supplied to the inside of the filtering means by the air means, the air entered therein rises to form a small bubble upwards, fine bubbles are attached to the outer diameter of the filtration membrane Since the contaminant is pushed out by the shear force, and also forms a severe vortex due to the rise of bubbles, contaminants attached to the outer diameter of the filtration membrane 124 are more easily released.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in more detail. However, the accompanying drawings are only intended to describe the technical spirit of the present invention in more detail, and the technical spirit of the present invention is not limited thereto.

1 is a schematic layout view of a water treatment apparatus according to the present invention,

2 is a schematic flowchart of the filtration treatment of the water treatment apparatus according to the present invention;

3 is a schematic cross-sectional view illustrating the principle of filtration of the filtration means in the filtration treatment of FIG.

4 is a schematic flowchart of the backwashing of the water treatment apparatus according to the present invention;

FIG. 5 is a schematic cross-sectional view illustrating the principle of backwashing of the filtration means at the backwashing of FIG. 4.

 Water treatment apparatus 100 such as rainwater according to the present invention includes an inflow pipe 112 through which untreated water, such as rainwater or river water, flows, as in the usual case. Untreated water flows into the inside through the inlet pipe 112 by the transfer pump 114, and enters the filtration means 120 connected to the inlet pipe 112, the filtration means Water filtered by the 120 is discharged to the external treatment tank 20 through the outlet 116.

In the present invention, the filtering means 120 has a very unique shape and structure of its internal structure, which schematically shows its internal structure in FIGS. 3 and 5.

In the present invention, the filtration means 120 includes a body portion 122 constituting the overall appearance, and a plurality of filtration separation membrane 124 arranged in a vertically densely arranged therein. The filtration separation membrane 124 is preferably composed of a straw-shaped cylindrical hollow fiber membrane material, one end of the inlet direction thereof is closed, while the other end of the outlet direction thereof is preferably open. To this end, one end of the filtration separation membrane 124 is fixed to the inside of the body portion by the inlet packing material 125, the end is fixed to form a shape that is closed by the inlet packing material 125. . On the other hand, the other end of the filtration separation membrane 124 is fixed to the inside of the body portion by the outlet packing material 127, the other end is fixed to the outside of the outlet packing material 125, the shape is open when fixed Is fulfilling. The filtration means 120 is in communication with a portion forming a space by the outer diameter of the filtration membrane 124 and includes an outlet 128 connected to the external backwash discharge pipe 134.

Water treatment device 100 such as rainwater according to the present invention includes a backwash pipe (132). One end of the backwash tube 132 is connected to the inlet pipe 112 between the transfer pump 114 and the filtering means 120, and the other end thereof is adjacent to the filtering means 120. It is connected to the outlet pipe 116 of the site.

In addition, the water treatment device 100 such as rainwater according to the present invention includes a backwash discharge pipe (134). The backwash discharge pipe 134 is connected to the outlet portion of the filtering means 120 and discharges contaminated washing water to the outside.

Moreover, it is preferable that the water treatment apparatus 100, such as rainwater, by this invention contains at least 1 automatic air valve AV in each piping material. The automatic air valve (AV) is installed so that the system of the present invention can be automatically operated by the control means (160). At this time, the air valve AV ₁ installed in the inlet pipe 112 is the first air valve, and the air valve AV ₂ formed in the outlet pipe 116 is the second air valve, the back washing pipe ( The air valve AV ₃ installed at 132 may be abbreviated as a third air valve, and the air valve AV ₄ provided at the backwash discharge pipe 134 may be abbreviated as a fourth air valve.

In addition, the water treatment apparatus 100 such as rain water according to the present invention includes a pressure measuring sensor (PS) for measuring the filtration pressure of the filtration means 120 and sends the measured value to the control means (160). The pressure measuring sensor PS is preferably installed in the inlet pipe 112 existing between the transfer pump 114 and the filtering means 120. Thus, the pressure measuring sensor PS may measure the inflow pressure of the water pressurized by the filtration means 120 by the transfer pump 114, and the filtration means 120 is contaminated. When the filtration efficiency is lowered, since the inflow pressure is increased, it is automatically detected and the measured value is sent to the control means 160.

In addition, the water treatment apparatus 100 such as rain water according to the present invention is a control means for determining whether to open or close the air valve (AV) in accordance with the measured value measured by the pressure measuring sensor (PS) ( 160).

Water treatment device 100, such as rain water according to the present invention preferably further comprises an air supply means for supplying air from the outside to the inlet (112).

In the present invention, the air supply means includes an air supply pipe 142 as a passage for supplying air. The air supply pipe 142 is provided with an air compressor 144 for supplying air at a predetermined pressure, and includes an air valve AV ₅ which is automatically controlled by the control means 160. It is preferable.

Water treatment apparatus 100 such as rain water according to the present invention preferably further comprises a chemical washing means that can be treated by washing the filtration means 120 with a chemical.

In the present invention, the chemical cleaning means is a chemical supply having a water supply pipe 152 connected to the outlet pipe 116 and the water supply pipe 154 and the cleaning chemical solution therein It is preferable that the tank 154 and the chemical supply pipe 156 for supplying the chemical solution for cleaning in the chemical tank 154 to the inlet pipe 112.

 In addition, the present invention provides a method of using the water treatment device 100, such as rain water.

The water treatment apparatus 100 of the rainwater according to the present invention can filter the rainwater and the like normally, and if the filtration performance is lowered by the contaminants by continuing the filtration process, it automatically detects and backwashes the above. Can automatically remove pollutants.

First, the case where the water treatment apparatus 100 of the present invention is normally filtered will be described. This is illustrated well in FIGS. 2 and 3.

In this case, untreated water is sucked by the feed pump 114 in the raw water tank 10 storing the rainwater and the like, and is sent to the filtration means 120 through the inlet pipe 112. This supplying of the raw water can be carried out in a conventional manner. In this case, however, the first air valve AV ₁ and the second air valve AV ₂ are opened by the control means 160, and at the same time, the third air valve AV ₃ and the fourth air valve AV are opened. ₄ ) Close. If the air means is coupled, the fifth air valve AV ₁₅ is also closed at the same time. At this time, the untreated water flows into the filtering means 120.

The untreated water flows into the through hole 126 of the inlet packing material 125 from the inside of the filtering means 120, and the opposite side is blocked by the outlet packing material 127, so that It is permeated through the filtration membrane 124. In this case, the untreated water passes through the filtration membrane 124 from the outer diameter side to the inner diameter side, and the filtration membrane 124 forms fine pores, so that particles of contaminants larger than the fine pores are It is left filtered by the outer diameter side of the filtration membrane 124. Leaving such contaminants on the outer diameter side of the filtration membrane, the water permeated toward the inner diameter is filtered and purified, and flows toward the outlet of the filtration means 120 from the inner diameter side of the filtration membrane 124. do.

The purified water through this step flows out to the outlet pipe 116 connected to the filtration means 120, and then is discharged to the treatment tank 20 installed outside. The water in the treatment tank 20 is treated water completely purified by the filtration means 120, and may be used in various ways as heavy water or general purpose water according to the needs of the user.

 In addition, the water treatment device 100, such as rain water according to the present invention can automatically backwash the pollutants. This is illustrated well in FIGS. 4 and 5.

As described in detail above, when the untreated water is continuously filtered and contaminants accumulate in the filtering means 120, the amount of water treated by the filtering means 120 is reduced, which is Increasingly, the transfer pressure of the untreated water to be transferred to the inlet 112 is increased.

In this case, the pressure measuring sensor PS installed in the inlet 112 measures the conveying pressure by the conveying pump 114, and when the measured pressure exceeds the preset pressure, Information will be announced. The control means 160 accordingly closes the first air valve AV ₁ and the second air valve AV ₂ , and at the same time, the third air valve AV ₃ and the fourth air valve AV ₄ . And the fifth air valve AV ₅ is opened. This completes the preparation for backwashing.

When the preparation step is completed, the water supplied from the raw water tank 10 or the treated water tank 20 by the transfer pump 114 is sent to the backwashing pipe 132. In the drawings of the present invention is shown only to supply the raw water from the raw water tank 10, this is only to simplify the arrangement of the invention most, does not mean that the supply from the treated water tank 20 is excluded. Do not.

When the washing water is introduced into the filtration means 120, it is supplied to the inner diameter side of the outlet of the filtration membrane 124, and then is transmitted to the outer diameter side from the inner diameter side of the filtration membrane 124, In this process, the contaminants attached to the outer diameter side of the filtration membrane 124 are pushed out to separate them. The separated contaminant is mixed with water again, and the mixed contaminant tries to flow into the through hole 126 of the inlet packing material 125, but since the first air valve AV1 is already closed, more No more progress in that direction. Instead, the separated contaminants are discharged to the backwash discharge pipe 134 through the outlet 128 connected to the outside of the filtering means 120.

In the present invention, when the water treatment apparatus 100 includes a separate air means, the pollutants are more effectively removed by the air supplied by the air means. The principle of elimination is as follows.

When air is supplied from the air compressor 144 coupled to the water treatment device 100, the air is supplied into the filtration means 120, in which case, the air entered therein is upwards. As a small bubble rises. At this time, the fine bubbles rise up to generate a shear force to easily detach the contaminants attached to the outer diameter of the filtration membrane 124, and to be more easily detached by the vortex caused by the rise of the bubbles. In addition, since the air is injected from the bottom, the water containing contaminants by the pressure of the air does not come down to the through hole 126, the outlet 128 and the external backwash discharge pipe 134 connected thereto. It will flow out.

Water treatment apparatus 100 such as rainwater according to the present invention is automatically washed and backwashed as described above.

In addition, the water treatment apparatus 110 according to the present invention may continuously operate one or more times every several months, and clean the filtration means 120 of the weakened function by the chemical treatment by the chemical agent to the original state. You can also recover.

In addition, the water treatment apparatus 100 such as rainwater according to the present invention can continuously and automatically process a certain amount of rainwater, etc., it is possible to easily double the treatment capacity as needed. This is illustrated well by FIGS. 6 and 7. FIG. 6 schematically shows a typical conventional embodiment of the water treatment apparatus according to the present invention, while FIG. 7 schematically illustrates the parallel connection relationship in the large-scale treatment using the water treatment apparatus according to the present invention.

As such, the water treatment apparatus such as rainwater according to the present invention has the advantage that it can automatically filter the collected water and can also be operated semi-permanently by backwashing automatically.

In addition, the water treatment apparatus such as rain water according to the present invention does not need to separately manage the worker separately, there is also an advantage that can significantly reduce the labor cost by the workforce.

In addition, the water treatment apparatus such as rain water according to the present invention can be used as a water supply by filtering the purified water in the case of river water or ground water, and in the case of rain water can be used for the use of general water as a toilet or landscaping water by filtration purified water. Also, in the case of the wastewater and the wastewater purification facility, after filtration and purified water treatment, it can be used as household water such as toilets or household wastes in homes and public offices.

In addition, the water treatment apparatus such as rain water according to the present invention has the advantage that can be selected and used in a variety of applications of the final treated water by appropriately selecting the filtration means.

In the above, the water treatment apparatus such as rainwater according to the present invention and a method of using the same have been described in detail, but this is only for describing the most preferred embodiments of the present invention, and the present invention is not limited thereto. The range is determined and defined by.

In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations by the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

Claims (7)

The inlet pipe 112 through which water flows in and the transport pump 114 connected to the inlet pipe to suck water, and are sent to the inside, and filtration means 120 for filtering contaminants from the water flowing from the transport pump. In the device consisting of an outlet pipe 116 for discharging the purified water from the filtering means to the outside, One end is connected to the inlet pipe 112 between the transfer pump 114 and the filtering means 120, the other end is connected to the outlet pipe of the adjacent portion of the filtering means 120 A back washing tube 132; A backwash discharge pipe 134 connected to the outlet portion of the filtration means 120 and discharging the washed water contaminated to the outside; Air valves AV ₁ (AV ₂ ) (AV ₃ ) installed in the inlet pipe 112, the outlet pipe 116, the backwash pipe 132, and the backwash discharge pipe 134, respectively. ) (AV ₄ ); A pressure measuring sensor PS for measuring the filtration pressure of the filtration means 120 and sending the measured value; And control means (160) for determining whether to open or close the air valves according to the measured value measured by the pressure measuring sensor (PS) and executing the same. The method of claim 1, It further includes an air supply means for supplying air from the outside to the inlet 112, The air supply means is a passage for supplying air, an air supply pipe 142, an air compressor 144 for supplying air at a predetermined pressure to the air supply pipe 142, and the control means 160. Water treatment device comprising an air valve (AV ₅ ) automatically controlled by the). The method of claim 1, The filtering means 120 further comprises a chemical washing means that can be processed by washing with chemicals, The chemical washing means includes a water supply pipe 152 connected to the outlet pipe 116, a chemical tank 154 connected to the water supply pipe 154, and having a chemical solution for cleaning therein; Water treatment device, characterized in that it comprises a chemical supply pipe 156 for supplying the chemical solution for washing in the chemical tank 154 to the inlet pipe (112). The method of claim 1, The filtering means 120 includes a body portion 122 constituting the overall appearance; A plurality of filtration separation membranes 124 arranged vertically and densely therein; An inlet packing member 125 which closes one end of the filtration membrane 124 and supports and fixes it, and forms a through hole 126 penetrating therethrough; An outlet packing material 127 holding and fixing the other end of the filtration separation membrane 124 and fixed thereto; And a discharge port (128) communicating with the spaces of the outer diameter of the filtration separation membrane (124) and connected to an external backwash discharge pipe (134). In the water treatment method for filtering the water supplied from the raw water tank passing through the filtration means, Supplying untreated water from the raw water tank 10 to the filtration means 120 through the transfer pump 114 and the inlet pipe 112; The untreated water flows into the through hole 126 of the inlet packing material from the inside of the filtering means 120, and then the untreated water passes through the filtration membrane 124 from the outer diameter side to the inner diameter side, and the process The contaminant is filtered while leaving the contaminant on the outer diameter side of the filtration membrane, and the filtered water flows toward the outlet of the filtration means from the inner diameter side of the filtration membrane; Treated water discharge step of the purified water is discharged to the outlet pipe 116 connected to the filtering means 120; Water treatment method comprising a. In the method of backwashing the filtration means in the case of filtering the rain water or the like while the filtration means is lowered the filtration efficiency due to contaminants, The pressure of the untreated water transferred to the filtration means 120 by the transfer pump 114 is measured by the pressure measuring sensor PS to inform the control means of the information when the pressure exceeds the preset pressure. Closing the first air valve and the second air valve and simultaneously opening the third air valve, the fourth air valve, and the fifth air valve; A washing water supplying step of sending the water supplied from the raw water tank 10 or the treated water tank 20 to the backwashing pipe 132 by the transfer pump 114; The washing water is supplied to the inner diameter side of the outlet of the filtration membrane 124 from the inside of the filtration means 120, and then attached to the outer diameter side of the filtration membrane 124 while being transmitted from the inner diameter side of the filtration membrane 124 to the outer diameter side. A backwashing step of the pollutant, which pushes and separates the present pollutant; Contaminated water, including contaminants, flows out through the outlet 128 at the upper portion of the body portion 122 at the outer diameter side of the inlet packing material 125, and then the backwash discharge pipe 134 connected to the outside of the filtration means 120. Discharge of the pollutants discharged to); Backwashing method of water treatment apparatus comprising a. The method of claim 6, In the back washing step of the contaminant, air is supplied from the outside to the inside of the filtration means 120, and the air entered therein rises in a small bubble upwards, and also due to the rising of the bubbles, severe vortex flow. By forming a, the backwashing method of the water treatment apparatus, characterized in that to easily remove the contaminants attached to the outer diameter of the filtration separation membrane (124) by removing.

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