KR20200018905A - Small-sacle waterworks system - Google Patents

Abstract

Disclosed is a simplified water supply treatment facility. The simplified water supply treatment facility according to the present invention is provided with a filtering device including a filter medium between an inlet pipe and an outlet pipe. The filter medium forms a secondary mixture by further mixing a primary mixture, obtained by mixing 50-70 wt% of Portland cement and 30-50 wt% of volcanic stone, with 1-2% of aluminum with respect to the weight of the primary mixture, and has a structure in which a surface modified filter layer deposited in 10 ml of 50 mM FeCl_3.6H_2O per 1 g of the secondary mixture, an anthracite layer prepared by grinding anthracite coal, and a filter yarn layer are stacked.

Description

Liver water treatment facility {Small-sacle waterworks system}

The present invention relates to a liver abnormalities treatment facility. Specifically, the present invention relates to a simple water treatment system that can be driven with low power, is easy to manage, and has low maintenance costs.

Areas with small populations, such as mountain books, farming villages, and fishing villages, are often used as self-sufficiency facilities because they are not included in the regional water supply system because of poor economic conditions.

The Gansang water supply facility is an efficient water supply method in rural and rural areas where local water supply is not available. If raw water quality is good, it can be economically operated. Struggling to

Generally, as shown in FIG. 1, as shown in FIG. 1, rock groundwater or valley water is pumped up to a well pump 10 to be purified through a simple water treatment facility 20 at a mountainside and stored in a drainage tank 30. I use it.

The most important goals of a simplified water treatment plant are to improve turbidity of raw water, remove nitrate nitrogen, remove arsenic, and maintain residual chlorine concentrations.

Turbidity refers to the turbidity of water, which can improve turbidity by filtering out fine particles contained in raw water, and keep chlorine above a certain concentration so that microorganisms are not generated while the purified raw water is transported through the pipeline. Since it should be, chlorine is added to the raw water to maintain a constant concentration.

Recently, in order to remove nitrate nitrogen and arsenic from raw water, a reverse osmosis membrane filtration apparatus is installed in a liver liver water treatment facility 20 to remove nitrate nitrogen and arsenic from raw water.

By the way, the reverse osmosis membrane filtration equipment is not only expensive equipment, but reverse osmosis membrane filtration treatment method requires a lot of electricity, so the facility cost is enormous because the reverse osmosis membrane filtration system needs to draw electricity to the drainage of the mountainside.

In addition, wastewater generated through membrane filtration must be treated separately, which is cumbersome and difficult.

In addition, the reverse osmosis membrane filtration equipment has to be managed periodically, the life of the membrane filtration has to be maintained every few months, there is a problem that maintenance and repair is cumbersome and expensive.

(Document 1) Registered Utility Model Publication No. 20-0393329 of the Korean Intellectual Property Office, "Purification device for unmanned managed liver water supply facility" (Document 2) Korean Patent Office Publication No. 10-2011-0026772, "Simple Water Purification System" (Document 3) Registered Patent Publication No. 10-0461997 of the Korean Intellectual Property Office, "Simplified water purification automatic water purification device capable of backwashing" (Document 4) Korean Patent Office Publication No. 10-2004-0070365, "Simple Water Purification Complex Water Purifier"

The present invention has been made to solve the above problems, by replacing the membrane filtration method with the filtration method using the filter medium to configure a simple water treatment system can greatly reduce the power consumption, the structure is simple, the equipment cost is The objective is to provide a low-draft water treatment facility.

In addition, by configuring a simple water treatment system to backwash the media only by the pressure of the drain tank without a separate pump, maintenance and repair is very simple, and maintenance and repair costs can be reduced, and the backwash used for backwashing is environmentally friendly. It is an object of the present invention to provide a liver water treatment facility that can be treated with.

In order to achieve the above object, the liver abnormal water treatment facility according to the present invention is installed in the inlet pipe 111 and the discharge pipe 112 into which raw water is introduced, and in the liver abnormal water treatment facility 100 for treating the raw water in the above water, the inflow A filtration device having a filter medium is installed between the pipe 111 and the discharge pipe 112, wherein the filter medium includes a primary mixture of 50-70 wt% of Portland cement and 30-50 wt% of volcanic stone, and the weight of the primary mixture. 1 to 2% of aluminum to further mix to form a secondary mixture, and the surface modifying media layer 114 deposited on 10 ml of 50 mM FeCl ₃ H ₂ O per 1 g of the secondary mixture; Anthracite layer 115 made by grinding anthracite; And the filter yarn layer 116 is laminated so that the raw water is purified.

At this time, the filtration device includes a backwash water pipe 131 to which the backwash water is supplied to the lower portion of the body 113 so as to flow upward from the bottom of the filter medium; And air supply pipe 121 for supplying air; It is installed, the waste water discharge port 117 is discharged backwash water on the body 113; And a backwashing and draining pipe 132 for discharging the wastewater from the wastewater discharge port 117.

In addition, the backwash water pipe 131 is configured to receive the purified water of the drain tank 30 by the water pressure of the drain tank 30, characterized in that configured not to use a separate pump using power.

In addition, when the turbidimeter 31 is installed in the drain tank 30 and the purified turbidity of the drain tank 30 is greater than or equal to the set value, the control device controls the backwash water pipe 131, the air supply pipe 121, and the backwash water drain pipe 132. The valve is opened so that the backwashing process is performed.

In addition, if the residual chlorine measuring device 32 is installed in the drain tank 30, and the residual chlorine of the purified water of the drain tank 30 is less than or equal to the set value, the sodium hypochlorite injector 140 is the sodium hypochlorite to the discharge pipe 112. Characterized in that configured to supply.

In addition, the sodium hypochlorite injector 140 supplies sodium hypochlorite to the inlet pipe 111 of the filtration apparatus, thereby oxidizing trivalent arsenic contained in raw water to pentavalent arsenic, and pentavalent arsenic surface modification media. Characterized in that it is configured to adsorb in layer 114.

In addition, the sodium hypochlorite injector 140 supplies sodium hypochlorite to the backwash water pipe 131 to remove the negative ions adsorbed to the filter medium during the backwash process and to activate the iron component deposited on the surface. Characterized in that configured to.

In addition, the wastewater discharged from the backwashing and draining pipe 132 is characterized in that configured to be discharged to the vegetation storage tank (133).

At this time, the vegetation storage tank 133 is the backwashing and draining pipe 132 is connected to the main pipe 134, the main pipe 134 is branch pipe 135 branched to a predetermined number is formed to the main pipe 134 Waste water discharged from the hole 136 of the branch pipe 135 is characterized in that it is configured to pass through the sand layer 137 and the gravel layer 138 formed in the vegetation storage tank 133.

Liver water treatment facility according to the present invention is composed of a filtration method using the filter medium, power consumption by being configured to backwash the filter medium using the water pressure of the drain tank without the pump consuming power when backwashing the filter device Can greatly reduce.

In addition, the structure is simple, can minimize the cost of equipment, easy to maintain and repair, but less expensive, it can be environmentally friendly to the backwash water used for backwashing.

1 is a view showing a simple abnormal water supply facility configuration.
2 and 3 is a view showing the configuration of the liver abnormal water treatment facility according to the present invention.
Figure 4 is a cross-sectional view showing a filtration device of the liver water treatment facility of the present invention.
5 and 6 is a view showing the vegetation reservoir of the liver abnormal water treatment facility of the present invention.
7 is a view showing the operation of the water purification process of the liver water treatment facility of the present invention.
8 is a view showing a backwashing operation process of the liver water treatment facility of the present invention.
Figure 9 is a view showing a state in which a solar panel is installed in the liver water treatment facility of the present invention.

Hereinafter, with reference to the preferred embodiments of the present invention and the accompanying drawings will be described in detail, the same reference numerals in the drawings will be described on the assumption that they refer to the same components.

When any component in the description or claims of the invention "includes" another component, unless otherwise stated, it is not limited to consisting only of the component and is not interpreted, other components It should be understood that it may include more.

The liver abnormal water treatment facility according to the present invention is installed between the well pump 10 and the drain tank 30 to purify the raw water being pumped from the well pump 10 and stored in the drain tank 30 to the user is purified water It is configured to use water.

2 and 3 of the present invention is a simple water supply treatment facility in which the raw water is supplied to the raw water supplied from the well pump 10, and the purified water is discharged to the drainage tank 30 is discharged A filtration device is installed between the discharge pipes 112.

In the embodiment of the present invention, the first filtration device 110A and the second filtration device 110B are installed in parallel between the inlet pipe 111 and the discharge pipe 112.

The first filtration device 110A and the second filtration device 110B are configured such that a filter medium is stacked therein, and raw water passes through the filter medium and is purified.

As shown in FIG. 4, the first and second filtration devices 110A and 110B are sequentially stacked with the surface modification media layer 114, the anthrate layer 115, and the filtration sand layer 116.

The surface modification media layer 114 is for removing nitrate nitrogen, heavy metals and arsenic contained in raw water, and prepares a primary mixture by mixing 50 to 70 wt% of Portland cement and 30 to 50 wt% of volcanic stone, and the primary mixture. 1 to 2% by weight of aluminum is further mixed, and the second mixture is mixed, and the surface modifying media layer 114 is prepared by immersing 10 ml of 50 mM FeCl ₃ H ₂ O per 1 g of the secondary mixture at 70 ° C. for 3 hours. do.

Arsenic (As) is a tasteless, odorless semimetal that can enter groundwater as a natural sediment, industrial or agricultural runoff. In groundwater, arsenic usually exists as trivalent or pentavalent arsenic. Both trivalent and pentavalent arsenic are harmful to humans, but trivalent arsenic is more harmful to health and more difficult to remove from groundwater.

In the present invention, an oxidant is added to raw water to oxidize trivalent arsenic to pentavalent arsenic, and the pentavalent arsenic is adsorbed and removed from the surface modification media layer 114 of the first and second filtration devices 110A and 110B described above. .

An apparatus for adding oxidant to raw water will be described later in detail.

Anthracite layer 115 is a filter material layer made by decomposing anthracite coal into a very small size, and removes foreign matters of raw water together with filter sand layer 116 to improve turbidity and remove suspended matter.

An inlet pipe 111 through which raw water is introduced is formed in the upper part of the body 113 of the first and second filtration devices 110A and 110B, and the discharge pipe 112 through which the raw water is filtered is discharged under the body 113. In addition, the back washing water pipe 131 is supplied with the back washing water when the back washing the filtration device and the air supply pipe 121 for supplying air when the back washing is formed.

The upper portion of the body 113 of the filtration apparatus is formed with a wastewater outlet 117 and a backwash discharge pipe 132 for discharging the wastewater generated during the backwashing process.

As shown in FIGS. 2 and 3, the first and second filtration devices 110A and 110B are installed in parallel between the well pump 10 and the drain tank 30 so that no filtration device is blocked or operated. In case of maintenance or maintenance work, it is desirable to configure the water treatment system so that it can be operated continuously without stopping.

At this time, the inlet pipe 111, the discharge pipe 112, the backwash water pipe 131 and the air supply pipe 121 of the first filtration device (110A) and the second filtration device (110B) can be controlled by the control device. It is preferable to provide a solenoid valve.

Backwashing water and air are supplied to the first filtration device 110A and the second filtration device 110B for backwashing the first filtration device 110A and the second filtration device 110B. As shown in FIG. 3, the air supply pipe 121 through which air is supplied from the blower 120 to the first and second filtration devices 110A and 110B, and the backwash water from the drain tank 30 are first and second filtration devices 110A, A backwash water pipe 131 capable of being supplied to 110B) is installed.

In the present invention, the separate water is not supplied for backwashing, but the water stored in the drainage tank 30 is supplied to the first and second filtration devices 110A and 110B through the backwashing water pipe 131.

In this case, a separate pump is installed to supply the backwash water to the first and second filtration devices 110A and 110B only by the water pressure of the drain tank 30 without supplying the backwash water.

As shown in FIG. 3, the wastewater tank 130 and the vegetation storage tank 133 are installed in the backwashing and draining pipe 132 so that the wastewater generated when the first and second filtration devices 110A and 110B are backwashed. Temporarily stored in the waste water tank 130 is configured to discharge to the vegetation reservoir tank 133 to process.

5 and 6, the vegetation storage tank 133 is installed in a large area, and the wastewater introduced from the wastewater tank 130 is disposed through the holes 136 of the main pipe 134 and the branch pipe 135. It is evenly distributed and discharged into the wide vegetation reservoir 133 and is configured to be processed through the layers of sand 137 and gravel 138.

And the water treatment facility 100 of the present invention is the sodium hypochlorite input device 140 is installed as shown in FIG.

The first supply pipe 141 of the sodium hypochlorite input device 140 is connected to the discharge pipe 112, the second supply pipe 142 is connected to the backwash water pipe 131, the third supply pipe 143 is It is connected to the inlet pipe 111 of the 1,2 filtration device (110A, 110B).

The operation of the water treatment plant 100 of the present invention configured as described above will be described in detail.

In the normal water purification process, when raw water (ground water) is supplied from the well pump 10 to the first and second filtration devices 110A and 110B through the inlet pipe 111 as shown in FIG. 7, the surface water reforming layer 114, After passing through the anthrate layer 115 and the filtered sand layer 116, the nitrate nitrogen, heavy metals, arsenic, suspended solids, and foreign substances contained in the raw water are removed and discharged to the discharge pipe 112 and stored in the drainage tank 30.

At this time, the sodium hypochlorite injector 140 supplies sodium hypochlorite to the inlet pipe 111 of the first and second filtration devices 110A and 110B through the third supply pipe 143, so that the sodium hypochlorite and By mixing together, the trivalent arsenic contained in the raw water is oxidized to pentavalent arsenic so that the pentavalent arsenic is removed while passing through the surface modification media layer 114 of the first and second filtration devices 110A and 110B.

When the residual chlorine concentration of the purified water stored in the residual chlorine measuring device 32 installed in the drainage tank 30 is detected to be less than or equal to the prescribed value, the controller opens the valve of the first supply pipe 141 to inject the sodium hypochlorite injector 140. By supplying the sodium hypochlorite to the discharge pipe 112, it is configured to maintain the chlorine concentration of the purified water in the drain tank 30 above the prescribed value.

If the media of the first and second filtration devices 110A and 110B is blocked and the water treatment is not performed properly, the turbidity of the water in the drainage tank 30 increases, and when the turbidimeter 31 detects this, the controller stops the water purification process. And backwash process.

The control unit stops the operation of the well pump 10, locks the inlet pipe 111 and the outlet pipe 112 valves of the first and second filtration devices 110A and 110B, and the backwash water pipe 131 and the air supply pipe 121. ) And operate the blower 120.

When the backwash water pipe 131 is opened, the water in the drain tank 30 is supplied to the lower portion of the first and second filtration devices 110A and 110B by the water pressure of the backwash water pipe 131 to the lower part of the filtration device body. (113) While washing the inside, the foreign matter blocking the filter sand layer 116, the anthrate layer 115, and the surface modifying media layer 114 media is backwashed.

At this time, the compressed air supplied from the blower 120 is supplied to the lower portion of the body 113 of the filtration apparatus along the air supply pipe 121 to effectively backwash the foreign matter blocking the media with the backwash water. .

At this time, the control device by opening the valve of the second supply pipe 142 of the sodium hypochlorite injector 140, by mixing the sodium hypochlorite in the backwash to remove the negative ions adsorbed to the filter medium in the backwash, the surface Activate the iron deposited on the.

The wastewater backwashed by the filter media layer is discharged to the wastewater outlet 117 above the filtration body 113 and is temporarily stored in the wastewater tank 130 along the backwash discharge pipe 132 and then treated in a vegetation reservoir.

After the above backwashing process is performed for a certain time, the control device finishes the backwashing process and performs the water purification process again.

Liver water treatment facility of the present invention configured as described above is configured by the filtration method using the filter medium, and backwashing the filter medium filter using the water pressure of the drain tank without the pump consuming power when backwashing the filter device This can significantly reduce power consumption.

In addition, the structure is simple, can minimize the cost of equipment, easy to maintain and repair, but also low cost, and can be environmentally friendly to the backwash used in backwashing.

The technical spirit of the present invention has been described through the above-described embodiment.

It will be apparent to those skilled in the art that various modifications or variations can be made to the embodiments described above from the description of the invention.

In addition, even if not explicitly shown or described, those skilled in the art to which the present invention pertains various forms of modification including the spirit of the present invention from the description of the present invention. Is obvious and still belongs to the scope of the present invention.

The above embodiments described with reference to the accompanying drawings are described for the purpose of illustrating the present invention, and the scope of the present invention is not limited to these embodiments.

10: well pump 20: water treatment facility
30: drain tank 31: turbidimeter
32: residual chlorine meter 100: water treatment facility
110A: first filtration device 110B: second filtration device
111: inlet pipe 112: discharge pipe
113: body 114: surface modification media layer
115: anthracite layer 116: filter sand layer
117: wastewater outlet 120: blower
121: air supply pipe 130: waste water tank
131: backwash water pipe 132: backwash discharge pipe
133: vegetation reservoir 134: main pipe
135: branch pipe 136: hole
137: sand 138: gravel
139: outlet 140: sodium hypochlorite input device
141: first supply pipe 142: second supply pipe
143: third supply pipe 150: solar panel

Claims (7)

In the simple water supply treatment facility 100 installed in the inlet pipe 111 and the discharge pipe 112 into which the raw water is introduced, to purify the raw water,
Between the inlet pipe 111 and the discharge pipe 112 is provided with a filtration device having a filter medium,
The filter medium is a mixture of 50 ~ 70wt% of Portland cement, 30 ~ 50wt% volcanic stone, and 1 to 2% of aluminum by weight of the primary mixture further mixed to form a secondary mixture, the secondary A surface modification medium layer 114 deposited in 10 ml of 50 mM FeCl ₃ H ₂ O per 1 g of the mixture;
Anthracite layer 115 made by grinding anthracite; And the filtered sand layer 116 is stacked to clean the raw water.
The method of claim 1,
The filtration device,
A backwash water pipe 131 to which backwash water is supplied to the lower portion of the body 113 so as to flow upward from the bottom of the filter medium; And an air supply pipe 121 for supplying air;
A wastewater discharge port 117 through which backwash water is discharged to an upper portion of the body 113;
A backwash discharge pipe 132 for discharging the wastewater from the wastewater discharge port 117; And
Liver abnormalities treatment facility, characterized in that consisting of;
The method of claim 2,
The backwash water pipe 131 is a simple abnormal water treatment facility, characterized in that configured to receive the purified water of the drain tank 30 by the water pressure of the drain tank (30).
The method of claim 2,
When the turbidimeter 31 is installed in the drain tank 30 and the purified turbidity of the drain tank 30 is equal to or greater than a set value, the control device controls the backwash water pipe 131, the air supply pipe 121, and the backwash return pipe 132. Liver water treatment facility configured to open the valve and carry out the backwashing process.
The method of claim 1,
The sodium hypochlorite injector 140 supplies sodium hypochlorite to the inlet pipe 111 of the filtration apparatus, thereby oxidizing trivalent arsenic contained in raw water to pentavalent arsenic, and pentavalent arsenic surface modifying media layer ( Liver water treatment device configured to be adsorbed in 114).
The method of claim 2,
The sodium hypochlorite injector 140 supplies sodium hypochlorite to the backwash water pipe 131 to remove the negative ions adsorbed to the filter medium during the backwashing process and to activate the iron component deposited on the surface. Liver water treatment device.
The method of claim 2,
The vegetation storage tank 133,
The backwashing and draining pipe 132 is connected to the main pipe 134, and branch pipes 135 branched into a predetermined number are formed in the main pipe 134 to form holes in the main pipe 134 and the branch pipes 135. Waste water discharged from 136 is a liver abnormal water treatment device configured to be treated while passing through the sand layer 137 and the gravel layer 138 formed in the vegetation reservoir (133).

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