KR102250223B1 - Drinking water purification method - Google Patents

Abstract

The present invention relates to a drinking water purification method, wherein the drinking water purification method includes a process of crystallizing harmful components including iron, manganese, and calcium carbonate contained in drinking water, a process of stepwise filtering in a filter unit for each particle size, and UV sterilization. The process of sterilizing and disinfecting by putting it as a part and the process of sedimenting and separating harmful components including lime water are carried out continuously to increase the drinking water treatment capacity and improve the quality of water, and in particular, the detection value through any one of a pressure module, a timer module, and a weighing module. When this setting value is reached, the control unit sends out a filter management command and the backwash filter unit is automatically cleaned and managed on a regular basis, so maintenance is easy by unskilled workers, and the life of the particulate filter unit is prolonged with a smooth supply of drinking water. It consists of main components including the first step (S1) of crystallizing harmful harmful components, the second step of filtering sludge (S2), the third step of sterilization and disinfection (S3), and the fourth step of sediment separation (S4). .

Description

Drinking water purification method}

The present invention relates to a method of purifying drinking water, and more particularly, a process of crystallizing harmful components including iron, manganese, and calcium carbonate contained in drinking water, a process of stepwise filtering in a filter unit for each particle size, and a UV sterilization unit. In order to increase drinking water treatment capacity and improve water quality by continuously performing the process of sterilization and disinfection by input and the process of sedimenting and separating harmful components including lime water, the detection value through any one of a pressure module, a timer module, and a weighing module is When it reaches the set value, the control unit sends out the filter management command and the backwashing filter unit is periodically automatically cleaned and managed, so maintenance is easy by unskilled workers, and drinking water is smoothly supplied and the life of the particulate filter unit is prolonged. It's about the method.

In general, livestock farms use groundwater as drinking water. In the past, groundwater was supplied to livestock without the need for purification due to its low pollution level.However, in recent years, groundwater excavation has been recklessly excavated throughout the country and livestock manure is not purified in farming and fishing villages. Since groundwater pollution is serious due to discharge or excessive spraying of pesticides, when using as drinking water without purifying the groundwater, the damage to livestock farms due to growth development and quality deterioration is serious.

Accordingly, in the previously disclosed Registration No. 10-0857419, groundwater is purified in the first and second stages, and ion exchange to remove nitrogen and fluorine harmful to the human body through ion exchange so that the groundwater can be used as stabilized drinking water. It relates to an advanced water purification device for groundwater using resin, the main configuration of which is a first water purification tank that is connected to the water supply valve so that groundwater supplied from the upper side passes through a filter made of loess balls to remove impurities and pests, A second water purification tank that removes turbidity by passing through the activated carbon in a natural flow manner by means of a filter unit made of activated carbon inside the first water purification tank, and the groundwater supplied from the second water purification tank through ion exchange. A technology consisting of an ion exchange tank that removes nitrate and fluorine and temporarily stores and supplies them has been previously registered.

However, the prior art greatly lacks the drinking water treatment capacity due to pipe resistance generated when passing through a plurality of water purification tanks, and for this reason, in order to apply to livestock houses that consume 5 tons or more of drinking water at a time, a wide installation due to the enlargement of the water purification device In addition to securing the area, there was a problem of increasing construction cost.

In addition, when a sludge clogging phenomenon occurs in any one of the plurality of water purification tanks, continuous maintenance by non-skilled workers is difficult because a means for detecting it is not provided, and the second water purification tank that removes turbidity is easily contaminated and is expensive. Since the replacement period of the filter part made of activated carbon is shortened, the burden of maintenance cost has been increased.

Accordingly, the present invention was conceived to solve the above problems, including a process of crystallizing harmful components including iron, manganese, and calcium carbonate contained in drinking water, a process of stepwise filtering in a filter unit for each particle size, and UV The process of sterilizing and disinfecting by putting it into the sterilization unit and the process of sedimenting and separating harmful components including lime water are performed continuously to increase the drinking water treatment capacity and improve the quality of water, and in particular, detection through any one of a pressure module, a timer module, and a weighing module. When the value reaches the set value, the filter management command is sent from the control unit and the backwash filter unit is periodically automatically cleaned and managed, so maintenance is easy by unskilled workers, and the life of the particulate filter unit is prolonged with a smooth supply of drinking water. Its purpose is to provide a method for purifying drinking water.

In order to achieve this object, a feature of the present invention is a first step (S1) of injecting air into the aeration unit 10 to crystallize harmful components including iron, manganese, and calcium carbonate contained in drinking water; A second step (S2) in which the drinking water that has passed through the first step is introduced into the filter unit 20 for each particle size to filter the sludge step by step, and a filter replacement and filter washing cycle are detected by the control unit 100; A third step (S3) of sterilizing and disinfecting the drinking water that has passed through the second step (S2) into the UV sterilization unit 30; And a fourth step (S4) of precipitating and separating harmful components including lime water by injecting the drinking water sterilized and sterilized in the third step (S3) into the sedimentation unit 40.

At this time, the control unit 100 measures the intake pressure measuring unit 112 for measuring the pressure of drinking water transferred through the filter unit 20 intake line, and the drinking water pressure discharged through the UV sterilization unit 30 Pressure to determine the filter replacement and filter cleaning cycle when the pressure value detected through the outlet water pressure measuring unit 114 and the inlet and outlet pressure measuring units 112 and 114 and the difference between them reaches the set pressure value. A module 110, a timer module 120 for determining a filter replacement and filter cleaning cycle when the operation time value for performing the first to fourth steps reaches a set time value, and the UV sterilization unit 30 It is characterized by consisting of a metering module 130 that measures the amount of drinking water discharged through a meter 132 with a meter 132, and determines a filter replacement and filter cleaning cycle when the value reaches a set metering value.

In addition, when the detection value of any one of the pressure module 110, the timer module 120, and the weighing module 130 reaches a set value, a filter management command is sent to perform a filter replacement or filter cleaning process, and then The pressure module 110, the timer module 120, and the weighing module 130 are all initialized and recounted.

In addition, the filter unit 20 includes a backwash filter unit 22 and a backwash filter unit 22 provided so that foreign matters of 5 microns or more contained in drinking water are filtered and automatically cleaned by the automatic backwash module 200. It is characterized in that it comprises a particulate filter unit 24 provided in at least one place to filter foreign substances of 0.5 or 1 micron or more contained in the passed drinking water.

In addition, the automatic backwash module 200 is provided with a discharge line 212 that is connected to the backwash filter unit 22 when the intake line is closed while opening and closing the intake line of the backwash filter unit 22 to discharge wastewater. The air line 220 is connected to the three-way valve 210 and the backwash filter unit 22 to inject compressed air into the backwash filter unit 22 and is formed on the backwash filter unit 22 to provide internal air. It characterized in that it consists of an air vent 230 to exhaust.

In addition, the aeration unit 10 includes a tubular aeration nozzle 11 arranged in a double row on the bottom, an aeration tank 12 for aeration of drinking water supplied through a water supply side, and a water outlet hole formed on a side wall of the aeration tank 12 ( 13), the aerated drinking water is stored, and a sedimentation guide plate 14 is installed at the bottom to sediment and collect the sludge formed by the aeration, and the sedimentation tank 16 is connected to the sedimentation tank 16 for sedimentation treatment. It is characterized by consisting of a pump 18 to supply drinking water to the filter unit 20.

In addition, the aeration nozzle 11 is characterized in that the air is injected through the compressor (C), and the air is provided to be over-aerated by being injected at a ratio of 80 to 100 with respect to drinking water 1 on a volume basis.

In addition, when the control unit 100 transmits the filter management command, the pump 18 is turned off, and compressed air is injected into the backwash filter unit 22 through the air line 220, and the compressed air flows back through the internal filter. While the filter is washed, the compressed air used for washing is exhausted through the air vent 230, and after a set time elapses, the three-way valve 210 is opened, and the washing water inside the backwash filter unit 22 is discharged. It characterized in that it is provided to be discharged through the.

In addition, the space in front of the aeration unit 10 is divided into upper and lower spaces by the horizontal support plate 300, and a backwash filter unit 22 and a control unit 100 are installed in the upper space, and a particulate filter in the lower space The part 24 is arranged, and the UV sterilization part 30 is installed on the upper surface of the horizontal support plate, so that a backwash filter part 22, a particulate filter part 24, and a UV sterilization part 30 in front of the aeration part 10 A space for inspection and replacement is secured, and the horizontal support plate 300 is characterized in that it is provided with a drip tray groove 310 formed on the upper surface to collect and process falling water generated in the upper space of the aeration unit 10.

According to the above configuration and action, the present invention is a process of crystallizing harmful components including iron, manganese, and calcium carbonate contained in drinking water, a process of stepwise filtering in a filter unit for each particle size, and a sterilization and sterilization by putting it into a UV sterilization unit. To increase the drinking water treatment capacity and improve water quality by continuously performing the process of sedimentation and sedimentation of harmful components including lime water, and in particular, the detection value through any one of the pressure module, timer module, and measurement module reaches the set value. In this case, since the filter management command is sent from the control unit and the backwash filter unit is periodically automatically cleaned and managed, maintenance by unskilled workers is easy, and the life of the particulate filter unit is prolonged with a smooth supply of drinking water.

1 is a block diagram schematically showing a drinking water purification method according to an embodiment of the present invention.
Figure 2 is a schematic configuration diagram showing a drinking water purification method according to an embodiment of the present invention.
3 to 5 are configuration diagrams showing a drinking water purifying apparatus implemented as a drinking water purifying method according to an embodiment of the present invention.
6 is a block diagram showing a state in which a backwash filter unit is automatically cleaned by an automatic backwash module of a method for purifying drinking water according to an embodiment of the present invention.

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

The present invention relates to a method for purifying drinking water, wherein the method for purifying drinking water includes a process of crystallizing harmful components including iron, manganese, and calcium carbonate contained in drinking water, a process of stepwise filtering in a filter unit for each particle size, and UV sterilization. The process of sterilizing and disinfecting by putting it as a part and the process of sedimenting and separating harmful components including lime water are carried out continuously to increase the drinking water treatment capacity and improve the quality of water, and in particular, the detection value through any one of a pressure module, a timer module, and a weighing module. When this setting value is reached, the control unit sends out a filter management command and the backwash filter unit is automatically cleaned and managed on a regular basis, so maintenance is easy by unskilled workers, and the life of the particulate filter unit is prolonged with a smooth supply of drinking water. It consists of main components including the first step (S1) of crystallizing harmful harmful components, the second step of filtering sludge (S2), the third step of sterilization and disinfection (S3), and the fourth step of sediment separation (S4). .

1. The first step of crystallizing harmful ingredients (S1)

In the first step (S1) in which harmful components are combined with oxygen and extracted in the form of sludge in the drinking water according to the present invention, air is injected into the aeration unit 10 to contain iron, manganese, and calcium carbonate in the drinking water. This is the step of crystallizing the component.

Here, the aeration unit 10 includes a tubular aeration nozzle 11 arranged in a double row on the bottom, an aeration tank 12 for aeration of drinking water supplied through a water supply side, and a water outlet hole formed on a side wall of the aeration tank 12 ( 13), the aerated drinking water is stored, and a sedimentation guide plate 14 is installed at the bottom to sediment and collect the sludge formed by the aeration, and the sedimentation tank 16 is connected to It consists of a pump 18 to supply drinking water to the filter unit 20.

That is, while the drinking water is aerated in the aeration tank 12, new drinking water is continuously introduced through the water supply side, and at this time, the aerated drinking water is moved to the settling tank through the water outlet hole. Subsequently, the drinking water whose flow rate is slowed in the settling tank is precipitated and separated from the sludge due to the difference in density, and the settled sludge is collected by the settling guide plate 14 with limited movement and periodically collected through a drain pipe formed at the bottom.

In addition, the aeration nozzle 11 is provided so that air is injected through the compressor (C), and the air is injected at a ratio of 80 to 100 with respect to the volume of drinking water 1 to be over-aerated. As such, due to the over-aeration, harmful components including iron, manganese, and calcium carbonate contained in drinking water are crystallized into sludge and extracted in a shorter time, thereby increasing the drinking water treatment capacity.

2. The second step of filtering the sludge (S2)

In the second step (S2) of filtering sludge according to the present invention, the drinking water passed through the first step is introduced into a plurality of filter units 20 for each particle size to filter the sludge step by step, and the filter is replaced by the control unit 100 And a filter washing cycle is detected.

In this case, the filter unit 20 includes a backwash filter unit 22 and a backwash filter unit 22 provided to filter foreign substances of 5 microns or more contained in the drinking water and are automatically cleaned by the automatic backwash module 200. A bar consisting of a particulate filter unit 24 provided in at least one place to filter foreign substances of 0.5 or 1 micron or more contained in the passed drinking water. In FIG. 2, the filter unit 20 includes two backwash filter units 22, 1 It consists of a particulate filter unit 24, which is installed in parallel to filter foreign matters of micron or larger, and a particulate filter unit 24, which is installed in parallel to filter foreign matters of 0.5 micron or more, and is filtered step by step over three stages.

In addition, the automatic backwash module 200 is provided with a discharge line 212 that is connected to the backwash filter unit 22 when the intake line is closed while opening and closing the intake line of the backwash filter unit 22 to discharge wastewater. The air line 220 is connected to the three-way valve 210 and the backwash filter unit 22 to inject compressed air into the backwash filter unit 22 and is formed on the backwash filter unit 22 to provide internal air. It consists of an air vent 230 that exhausts.

Accordingly, as shown in FIG. 7, when the control unit 100 transmits the filter management command, the pump 18 is operated off, and compressed air is injected into the backwash filter unit 22 through the air line 220, and the compressed air is The filter is washed while flowing back through the internal filter, and the compressed air used for cleaning is exhausted through the air vent 230, and after the set time has elapsed, the three-way valve 210 is opened and the washing water inside the backwash filter unit 22 is discharged. It is discharged through line 212.

At this time, the control unit 100 measures the intake pressure measuring unit 112 for measuring the pressure of drinking water transferred through the filter unit 20 intake line, and the drinking water pressure discharged through the UV sterilization unit 30 Pressure to determine the filter replacement and filter cleaning cycle when the pressure value detected through the outlet water pressure measuring unit 114 and the inlet and outlet pressure measuring units 112 and 114 and the difference between them reaches the set pressure value. A module 110, a timer module 120 for determining a filter replacement and filter cleaning cycle when the operation time value for performing the first to fourth steps reaches a set time value, and the UV sterilization unit 30 A meter 132 measures the amount of drinking water discharged through a meter 132, and when the value reaches a set metered value, the metering module 130 determines the filter replacement and filter cleaning cycle.

In addition, when the detection value of any one of the pressure module 110, the timer module 120, and the weighing module 130 reaches a set value, a filter management command is sent to automatically perform a filter replacement or filter cleaning process. , Since the detection values of the pressure module 110, the timer module 120, and the weighing module 130 are all initialized and recounted, cleaning management is automatically performed, so that maintenance by unskilled workers is easy, as well as smooth supply of drinking water and In addition, there is an advantage that the life of the particulate filter unit is prolonged.

3. The third step of sterilization and disinfection (S3)

The third step (S3) of sterilization and disinfection according to the present invention is a step of sterilizing and disinfecting the drinking water that has passed through the second step (S2) into the UV sterilization unit 30. The UV sterilization unit 30 is provided to install a UV lamp in the center of the tube body in which an inlet port on one side and an outlet port on the other side are formed, and to be sterilized and sterilized while drinking water is moved between the UV lamp and the tube body. In addition, since the UV sterilization unit 30 is formed in a horizontal tube and is installed on the horizontal support plate 300 to be described later, the water purification device is compact.

4. The 4th step of sediment separation (S4)

In the fourth step (S4) of sedimentation according to the present invention, the drinking water sterilized and sterilized in the third step (S3) is introduced into the sedimentation unit 40 to precipitate and separate harmful components including lime water. The sedimentation unit 40 is a tank in which drinking water of 5 tons or more is stored, and an inlet on one side is connected to the UV sterilization unit 30 to input drinking water, and on the other side, a drinking water line connected to a barn is built. At this time, after a certain period of time in the state where the drinking water is stored in the settling part 40, foreign substances including lime water included in the drinking water are precipitated and separated to the bottom due to the difference in density.

Here, the outlet of the sedimentation unit 40 is installed so as to be spaced from the bottom of the tank to the top, so that the movement of the sludge containing lime water sedimented and separated on the bottom of the tank is prevented, and the sludge containing the precipitated and separated lime water is It is discharged through the drain pipe formed in the.

Accordingly, the process of crystallizing harmful components including iron, manganese, and calcium carbonate contained in the drinking water in the aeration unit 10, the process of stepwise filtering in the filter unit 20 for each particle size, and the UV sterilization unit 30 In order to increase drinking water treatment capacity and improve water quality, the process of sterilization and disinfection by inputting and the process of sedimenting and separating harmful components including lime water in the sedimentation unit 40 are continuously performed.

3 to 5, the space in front of the aeration unit 10 is divided into upper and lower spaces by a horizontal support plate 300, and a backwash filter unit 22 and a control unit 100 are installed in the upper space, A particulate filter part 24 is disposed in the lower space, and a UV sterilization part 30 is installed on the upper surface of the horizontal support plate 300. That is, since a space for inspection and replacement of the backwash filter part 22, the particulate filter part 24, and the UV sterilization part 30 is secured in front of the aeration part 10, anyone can easily maintain the filter, and in particular, a horizontal support plate ( 300) is provided to collect and process the dripping water generated in the space above the aeration unit 10 by forming a drip tray groove 310 on the upper surface, so when performing maintenance work such as replacement of filters and pipes of the backwash filter unit 22 There is an advantage in that contamination of the particulate filter unit 24 by contaminated water falling downward is prevented.

10: aeration tank 20: filter unit
30: UV sterilization unit 40: sedimentation unit
100: control unit 200: automatic backwash module
300: horizontal support plate

Claims (9)

A first step (S1) of injecting air into the aeration unit 10 to crystallize harmful components including iron, manganese, and calcium carbonate contained in the drinking water;
A second step (S2) in which the drinking water that has passed through the first step is introduced into the filter unit 20 for each particle size to filter the sludge step by step, and a filter replacement and filter washing cycle are detected by the control unit 100;
A third step (S3) of sterilizing and disinfecting the drinking water that has passed through the second step (S2) into the UV sterilization unit 30;
Including; a fourth step (S4) of sedimenting and separating harmful components including lime water by injecting the drinking water sterilized and sterilized in the third step (S3) into the sedimentation unit 40,
The filter unit 20 passes through a backwash filter unit 22 and a backwash filter unit 22 provided to filter foreign substances of 5 microns or more contained in the drinking water and to be automatically washed by the automatic backwash module 200. Consisting of a particulate filter unit 24 provided in at least one place to filter foreign substances of 0.5 or 1 micron or more contained in drinking water,
The automatic backwash module 200 is a three-way valve provided with a discharge line 212 that is connected to the backwash filter unit 22 when the intake line is closed while opening and closing the intake line of the backwash filter unit 22 to discharge wastewater. (210), an air line 220 connected to the water outlet line of the back washing filter unit 22 to inject compressed air into the back washing filter unit 22, and an air line 220 formed on the back washing filter unit 22 to exhaust internal air It consists of an air vent 230,
The front space of the aeration unit 10 is divided into upper and lower spaces by a horizontal support plate 300, a backwash filter unit 22 and a control unit 100 are installed in the upper space, and a particulate filter unit ( 24) is disposed, and a UV sterilization unit 30 is installed on the upper surface of the horizontal support plate, so that a backwash filter unit 22, a particulate filter unit 24, and a UV sterilization unit 30 are inspected in front of the aeration unit 10 and Drinking water purification method, characterized in that a replacement space is secured, and the horizontal support plate 300 is provided with a drip tray groove 310 formed on the upper surface thereof to collect falling water generated in the space above the aeration unit 10. The method of claim 1,
The control unit 100,
An inlet pressure measuring unit 112 that measures the pressure of drinking water transferred through the filter unit 20, an inlet pressure measuring unit 114 that measures the pressure of drinking water discharged through the UV sterilization unit 30, and , A pressure module 110 for determining a filter replacement and filter cleaning cycle when the pressure value detected through the inlet and outlet pressure measurement units 112 and 114 and the difference value thereof reaches a set pressure value, and the first The timer module 120 that determines the filter replacement and filter cleaning cycle when the operation time value for performing the step to the fourth step reaches the set time value, and the amount of drinking water discharged through the UV sterilization unit 30 is measured. Drinking water purification method, characterized in that consisting of a metering module 130 that measures with a meter 132 and determines a filter replacement and filter cleaning cycle when the value reaches a set metering value. The method of claim 2,
When the detection value of any one of the pressure module 110, the timer module 120, and the weighing module 130 reaches a set value, a filter management command is sent to perform a filter replacement or filter cleaning process, and then the pressure module (110), the timer module 120, the measurement module 130, the drinking water purification method, characterized in that provided so that all of the detected values are initialized and counted again. delete delete The method of claim 1,
The aeration unit 10 includes a tubular aeration nozzle 11 disposed in a double row on the bottom, an aeration tank 12 for aeration of drinking water supplied through a water supply side, and a water outlet 13 formed on a side wall of the aeration tank 12 The drinking water communicated through the aeration treatment is stored, and a sedimentation guide plate 14 is installed at the bottom to precipitate and collect the sludge formed by the aeration. Drinking water purification method, characterized in that consisting of a pump (18) to supply the filter unit (20). The method of claim 6,
The aeration nozzle 11 is a drinking water purifying method, characterized in that the air is injected through the compressor (C), and the air is provided to be over-aerated by injecting the air at a ratio of 80 to 100 based on the volume of drinking water 1. The method of claim 1,
When the filter management command is sent from the control unit 100, the pump 18 is operated off, and compressed air is injected into the backwash filter unit 22 through the air line 220, and the compressed air flows back through the internal filter. Is washed, and the compressed air used for washing is exhausted through the air vent 230, and after the set time has elapsed, the three-way valve 210 is opened and the washing water inside the backwash filter unit 22 is discharged through the discharge line 212. Drinking water purification method, characterized in that provided to be discharged. delete

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