KR100563987B1 - Automatic system of intake and water-purifying apparatus for lake - Google Patents

Abstract

The present invention relates to an automation system for water intake and water purification equipment for lake water, and in particular, a water intake pump is installed through a floating member in a reservoir to intake water in the upper portion of the water, and an inflow tank is installed to provide pump operation time. It is possible to form a relatively long, and to install at least one or more filtration tank communicating with the inlet tank to be purified to the best water quality, of course, the filtration water filtered in the filtration tank is easy, easy to drain In order to discharge, and to install a separate tank for washing water supply to improve the water purification efficiency by periodically back-washing the filter tank, the water intake and water purification device for the lake water so that the intake, purification and supply is automatically made by the water level of the drain tank It relates to an automation system.

The technical configuration includes a water intake pump 2 provided in the floating member 1 so that the upper water of the reservoir is withdrawn; An inlet tank 5 communicating with the intake pump 2 through the intake pipe 3 to store raw water and having a water level sensor 4 installed therein; First and second filtration tanks are installed sequentially through the inlet tank (2) via a raw water inlet pump (6), a water level sensor (7) is installed therein to adjust the storage height, and to filter the stored raw water. (8, 9); A filtration tank circulation pump (10) installed between the first filtration tank (8) and the second filtration tank (9); An outlet motor valve 11 installed at one lower end side of the second filtration tank 9 to guide the outflow of the filtered water; A drain tank 13 which communicates with the outlet motor valve 11 via a drain tank supply pump 12; A washing water supply tank 15 in communication communication with a lower portion of the second filtration tank 9 via a supply pipe, and having a water level sensor 14 installed therein; A back washing pump (16, 17) installed at a side of the washing water supply tank (15) installed in a back washing tube communicating with the first filtration tank (8) and the second filtration tank (9), respectively; The first and second filtration tank (8) (9) is provided on one side of the drain electric valve (18) which is installed so that the impurities and foreign matter by the backwash water to be discharged by the wash water.

Intake pump, water level sensor, influent tank, first and second filtration tank, washing water supply tank

Description

Automatic system of water intake and water purification equipment for lake water {Automatic system of Intake and Water-purifying Apparatus for Lake}

1 is a schematic configuration diagram showing the automation system of the water intake and water purification device for appeal according to the present invention,

Figure 2 is a schematic structural diagram showing a filtration tank in the automation system of the water intake and purification apparatus for lake water according to the present invention,

3 is an installation structure diagram of the intake pump installed in the water storage tank of the present invention,

4 is a partial cross-sectional view of a filtration tank according to the present invention.

* Explanation of Signs of Major Parts of Drawings

1 ... Floating member 2 ... Intake pump

3 ... intake pipe 4 ... water level sensor

5.inlet water tank 6 ... raw water inlet pump

7.Water level sensor 8 ... First filtration tank

9 ... 2nd filtration tank 10 ... filtration tank circulation pump

11 ... outflow electric valve 12 ... drainage tank supply pump

13 Drain tank 14 Water level sensor

15 ... wash water supply tank 16,17 ... backwash pump

18 Drain motor valve 19 Automatic control panel

The present invention relates to an automation system for water intake and water purification equipment for lake water, and in particular, a water intake pump is installed through a floating member in a reservoir to intake water in the upper portion of the water, and an inflow tank is installed to provide pump operation time. It is possible to form a relatively long, and to install at least one or more filtration tank communicating with the inlet tank to be purified to the best water quality, of course, the filtration water filtered in the filtration tank is easy, easy to drain In order to discharge, and to install a separate tank for washing water supply to improve the water purification efficiency by periodically back-washing the filter tank, the water intake and water purification device for the lake water so that the intake, purification and supply is automatically made by the water level of the drain tank It relates to an automation system.

In general, lake water in rural areas using liver abnormalities is disadvantageous because sludge and impurities accumulate in the water purification device to purify the raw water due to low water intake using a general underwater motor due to deterioration of raw water quality. In addition, since the water purification device is not periodically cleaned and washed properly, the drinking water does not meet the standard of drinking water quality, as well as the turbid water that can be visually identified in the water supply, and the intake pump for intake of the raw water is Since there is a distance and height between the reservoir and the water purification device, a large capacity pump must be installed and operated. In addition, since the small water pump is used or the water pressure is processed within the water purification device, frequent failures occur due to the difference between the capacity of the intake pump and the water purification capacity. This is a disadvantage that occurs.

In addition, in the water purification device as described above, only one stage of filtration is performed, and in some regions of poor water quality, there is a lot of problems with the drinking water for drinking water such as inadequate drinking water quality.

Therefore, in order to improve the problems caused by the conventional simple tap water purification method as described above, while it is desirable to introduce a water purification system such as a city, it is relatively small in that it is used as a water supply facility for a small village unit in rural areas. It is desirable to use existing facilities and to supplement and improve the facilities, rather than the city's water system, which puts a huge budget for the water supply population.

The present invention has been made in order to improve the conventional problems as described above, the object is to install the intake pump in the floating member to facilitate the intake of the upper water of the reservoir, while the inlet tank is installed to relatively increase the operating time of the intake pump It is possible to form a long, and to install at least one or more filtration tank communicating with the inflow water tank to be purified to the best water quality, as well as to easily and easily stored in the drainage tank filtered water filtered In addition, a separate tank for washing water supply is installed to remove impurities caused by backwashing to improve water purification efficiency, and an automation system of water intake and water purification device for lake water in which water intake, water purification and supply can be automatically performed by the water level of the drainage tank To provide.

As a technical means for achieving the above object, the present invention, the intake pump (2) installed in the floating member (1) to take the upper water of the reservoir; An inlet tank 5 communicating with the intake pump 2 through the intake pipe 3 to store raw water and having a water level sensor 4 installed therein; First and second filtration tanks are installed sequentially through the inlet tank (2) via a raw water inlet pump (6), a water level sensor (7) is installed therein to adjust the storage height, and to filter the stored raw water. (8, 9); A filtration tank circulation pump (10) installed between the first filtration tank (8) and the second filtration tank (9); An outlet motor valve 11 installed at one lower end side of the second filtration tank 9 to guide the outflow of the filtered water; A drain tank 13 which communicates with the outlet motor valve 11 via a drain tank supply pump 12; A washing water supply tank 15 in communication communication with a lower portion of the second filtration tank 9 via a supply pipe, and having a water level sensor 14 installed therein; A back washing pump (16, 17) installed at a side of the washing water supply tank (15) installed in a back washing tube communicating with the first filtration tank (8) and the second filtration tank (9), respectively; And a drain electric valve 18 installed at one side of the first and second filtration tanks 8 and 9 so that impurities and foreign matters caused by backwashing water are discharged by washing water.

In addition, the present invention is the intake pump (2) is coupled to the bottom of the floating member (1) is connected to a pipe of a flexible material, such as PE, the depth of the deepest water upstream so that the intake is made of rope, etc. It can be fixed using.

In addition, the filtration tank (8, 9) can be installed by using a plurality of circulating pump (10) continuously to be a multi-stage purified water, the plurality of filtration tank is connected in series to increase the water purification rate or In parallel, the amount of purified water can be increased by connecting them in parallel.

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

1 is a schematic configuration diagram showing the automation system of the water intake and water purification apparatus for lake water according to the present invention, Figure 2 is a schematic structural diagram showing the filtration tank in the automation system of water intake and water purification apparatus for lake water according to the present invention, 3 is a configuration diagram of the intake pump installed in the water storage tank of the present invention, Figure 4 is a partial cross-sectional view of the filtration tank according to the present invention.

As shown in the present invention, the inflow water tank 5 is communicated through the intake pump 2 and the intake pipe 3 installed in the floating member 1 so that the upper water of the reservoir is taken in. At this time, the floating device (1) is composed of a material having buoyancy, such as styrofoam, the intake pump and the intake pipe is installed at the lower end, the floating member 1 is a specific area of the reservoir (deep water place) ) It is possible to restrict the movement of the floating member by installing a fixing means such as a rope so that only floating. In addition, the intake pipe 3 connected to the intake pump may be formed of a material having elasticity such as PE or the like to prevent the connection part from being broken by the flow, or may form a flexible connection portion with the intake pump.

In addition, the inflow tank (5) is a temporary storage tank for increasing the operating time of the intake pump (2), the water level sensor (4) is installed inside to store the raw water, the stored raw water is communicated through the pipe It is supplied to the installed first filtration tank (8). Between the first filtration tank (8) and the inlet tank (2) via the raw water inlet pump (6) to operate according to the measurement by the water level sensor (7) installed inside the first filtration tank.

In addition, the first filtration tank (8) is further provided with a second filtration tank (9) having a water level sensor (7) installed therein to increase the water purification efficiency of the raw water, the first filtration tank (8) and the second filtration tank ( 9) Between the filtration tank circulation pump 10 is installed, an outlet motor valve 11 for guiding the outflow of the filtered water is installed on one side of the lower end of the second filtration tank 9, the outflow electric valve 11 and drainage The drainage tank 13 is communicated via the tank supply pump 12. The filtration tanks 8 and 9 may be installed in a plurality more to purify the best water quality. That is, by using a plurality of filter tanks in series to improve the water purification rate, or by connecting the filter tanks in parallel to increase the amount of purified water.

In addition, a washing water supply tank 15 having a water level sensor 14 installed therein is provided at one side of the lower portion of the second filtration tank 9, and the first filtration tank 15 is disposed at a side of the washing water supply tank 15. 8) and backwash pumps 16 and 17 are respectively installed in the backwash pipe to backwash the second and second filtration tanks 9, while drain electric valves are provided at one side of the first and second filtration tanks 8 and 9. (18) is installed so that impurities and foreign matters caused by backwashing water are discharged to the washing water supply tank (15). This automation system is to automatically take the water, the purified water, the supply by the water level of the drain tank 13 to improve the water purification efficiency, it is possible to take water and purified water in one system.

Referring to the operation and effect of the present invention made of such a configuration as follows.

As shown in Figures 1 to 4, the intake pump (2) is always suspended in the water surface by the buoyancy of the floating member (1) while the raw water is intake after the intake through the intake pipe (3) Supply to the water tank (5). At this time, when the water in the inlet tank (5) is a high water level is detected by the water level sensor (4) installed in the inlet tank (5) to stop the intake pump (2), the raw water inlet pump ( 6) the raw water is introduced into the first filtration tank (8) and filtered, and when the water level of the first filtration tank (8) reaches a certain height, the water level sensor (7) installed inside the first filtration tank (8) is Sensing and filtration tank circulating pump 10 is operated to enter the second filtration tank (9) to be filtered again, on the other hand, if the water quality is not good in the first, second filtration tank (8) (9) 3 In addition, a fourth filtration tank may be installed.

On the other hand, when the water level of the second filtration tank (9) is a certain height is detected by the water level sensor (7) installed in the second filtration tank (9), the outlet motor valve 11 and the drain tank supply pump 12 and the supply of washing water When the pump 15 'is operated to send water to the drain tank 13 and the washing water supply tank 15, and the water in the washing water supply tank 15 reaches a high level, the water level sensor 14 detects the washing water supply pump ( 15 ') is stopped and the drain tank (6) when the water level is high, the water level sensor detects the drain tank supply pump 12 is stopped.

In addition, when the water level of the second filtration tank 9 becomes a high level, the installed water level sensor 7 detects the filtration tank circulation pump 10 is stopped, and when the water level of the first filtration tank 8 becomes high, the first filtration 8 The water level sensor (7) inside the tank detects the raw water inflow pump (6) and stops the water intake tank (5) when the water level sensor (4) detects the water level sensor (4). It is to be made.

On the other hand, when the water in the inlet tank (5) becomes a low level due to the purified water treatment, the intake pump (2) is operated, when the high water level is automatically stopped by the water level sensor (4) inside the inlet tank (5) To increase the running time of the intake pump (2).

Since the intake pump 2 needs to pump a long distance at a time in a reservoir or a dam at a time, a large capacity is required, and a intake pump is frequently used due to a difference in quantity because a small pump is used in the water purification device. By operating the inlet tank (5) is installed to prevent the excessive generation of the pump and to reduce the number of operating pump intake.

In addition, when a problem occurs on the intake side and the water reaches the bottom of the tank, the inflow tank level sensor 4 detects and stops the operation of the raw water inflow pump 6. When the water level of the filtration tank 8 reaches the bottom, the water level sensor 7 detects and stops the operation for the protection of the filtration tank circulation pump 10. As a result, when the water level of the second filtration tank 9 reaches the bottom, the second filtration tank (9) will be stopped by the water level sensor (7) inside to protect the drain tank supply pump (12).

Subsequently, when the water reaches the predetermined level of the tank, the inlet water tank 5 detects the water level sensor 4 of the inlet water tank to perform the operation of the raw water inlet pump 6, thereby allowing the first filtration tank ( When the water level of 8) reaches a certain level, the water level sensor 7 installed in the first filtration tank detects and operates the circulating pump circulation pump 10. Therefore, when the water level of the second filtration tank reaches a certain level, the water level sensor 7 is detected again. The water level sensor 7 installed in the second filtration tank detects and causes the drainage tank supply pump 12 and the washing water supply tank 15 to operate.

On the other hand, the washing and cleaning of the filtration tank is controlled once a week once about 5 to 10 minutes by adjusting the timer attached to the automatic control panel 19, the outflow electric power installed in the bottom of the second filtration tank (9) The valve 11 is closed and the drain electric valve 18 installed at the bottom of the first filtration tank 8 is opened to stop the operation of the filtration tank circulation pump 10 and the raw water inflow pump 6.

At the same time, the first filtration tank backwash pump 16 and the second filtration tank backwash pump 17 operate simultaneously to discharge impurities and foreign substances generated in the first filtration tank 8 and the second filtration tank 9 to drain drain valves. It is discharged out through (18).

When the water in the wash water supply tank 15 reaches the bottom during cleaning, the water level sensor 14 installed in the wash water supply tank 15 detects the first filter backwash pump 16 and the second filter backwash pump 17. At the same time stops the operation to protect the pump, if the water of the first filtration tank 8 and the second filtration tank 9 is not detected by sending a signal to the automatic control panel 19, all the backwash function is stopped and outflow The electric valve 11 is opened and the drain electric valve 18 is closed, and the raw water inflow pump 6 is operated so that the system of filtration (purified water) can be automatically and manually taken in water, purified water, backwash, and drainage. It is possible to increase the effectiveness of the water purifier by consisting of one system.

According to the automation system of the present invention water intake and water purification device as described above, the intake pump is installed through the floating member in the reservoir to facilitate the intake of the upper water surface, while the inlet tank is installed to increase the pump operating time relatively long. It is possible to form, and to install at least one or more filtration tank communicating with the inlet water tank to be purified to the best water quality, of course, the filtered water filtered in the filtration tank can be easily and easily introduced into the drain tank. In addition, by separately installing a tank for supplying the washing water to periodically backwash the filtration tank to improve water purification efficiency, there is an excellent effect that the intake, purification and supply can be automatically made by the water level of the drainage tank.

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the following claims. Those of ordinary skill will want to know easily.

Claims (3)

The upper water of the reservoir is coupled to the lower end of the floating member 1 so as to be connected to the pipe of a flexible material such as PE, and is fixed by using a rope or the like so that the water is floated upstream of the deepest depth. Intake pump 2; An inlet tank 5 communicating with the intake pump 2 through the intake pipe 3 to store raw water and having a water level sensor 4 installed therein; The inlet tank (2) is installed sequentially through the raw water inlet pump (6), the water level sensor (7) is installed inside to adjust the storage height, to filter the stored raw water, circulation pump (10) First and second filtration tank (8, 9) is a multi-stage purified by successively installing a plurality of using; A filtration tank circulation pump (10) installed between the first filtration tank (8) and the second filtration tank (9); An outlet motor valve 11 installed at one lower end side of the second filtration tank 9 to guide the outflow of the filtered water; A drain tank 13 which communicates with the outlet motor valve 11 via a drain tank supply pump 12; A washing water supply tank 15 in communication communication with a lower portion of the second filtration tank 9 via a supply pipe, and having a water level sensor 14 installed therein; A back washing pump (16, 17) installed at a side of the washing water supply tank (15) installed in a back washing tube communicating with the first filtration tank (8) and the second filtration tank (9), respectively; Water drainage for lake appeal, characterized in that it comprises a; the first and the second filtration tank (8) (9) is installed on one side of the drain electric valve (18) is installed so that impurities and foreign matter by the backwash water is discharged by the wash water; And automation system of water purification device. delete delete

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