KR200292207Y1 - unattended automatic filter system - Google Patents

Abstract

The present invention relates to an unmanned automated water purifying device, and more particularly to a water purifying device that can automatically purify water, drainage tanks, backwashing without the need for a manager in a small water purification facilities in farming and fishing villages.

Currently, managers are difficult to deploy separately and cannot manage water purification facilities using small waterworks, valley water or groundwater.

Therefore, the present invention installs a time switch on the solenoid valve every day when the night time or water supply is the least demanded, and backwashing periodically every day to supply clean water without accumulation of impurities in the filter media and backwash the filtered drainage tank It relates to an unmanned automated water purifier, characterized in that made in one embodiment.

Description

Unmanned automatic water purifier {unattended automatic filter system}

The present invention relates to an unmanned automated water purifying apparatus, and more particularly, to a water purifying apparatus installed in a small-scale water purifying facility in a farming and fishing village, in which water purification, drainage tanks, and backwashing are performed without a manager.

Currently, water purification facilities using small-scale water supply, valley water, or groundwater in rural areas are difficult to arrange managers, cannot manage, and water purification facilities and drainage tanks are installed separately, making it difficult to utilize water purification facilities. .

Therefore, in the present design, the time switch is installed on the solenoid valve every day when the night time or the water supply demand is the least, and the backwash is periodically performed every day to supply clean water without accumulating impurities in the media. The present invention proposes an unmanned automated water purifying apparatus, which is capable of filtration, drainage tanks, and backwashing.

1 is a block diagram of an unmanned automated water purifying apparatus of the present invention.

2 is a cross-sectional view filled with the contents of the present invention

3 is a plan view of the filtration distribution pipe of the present invention

※ Explanation of code for main part of drawing

1. Drain tank tank 2. Inlet solenoid valve

2-1 Bypass Inlet Valve 3. Back Wash Solenoid Valve

3-1 Bypass Backwash Valve 4. Sludge Discharge Solenoid Valve

4-1 Bypass Sludge Discharge Valve 5. Outflow Solenoid Valve

5-1 Bypass outlet valve 6. Filtration tank

7. Sedimentation tank 8. Intake pipe

9. Filtration distribution pipe 9-1 Distribution nozzle

10.Balltop 11.Raw water inlet pipe

12.Manhole 13.Wall Pavilion

14.Electronic control unit and time switch panel

In consideration of the above-mentioned point, the following describes the one embodiment configuration and effect of the present invention by the accompanying drawings.

1 is a block diagram of an unmanned automated water purifying apparatus of the present invention.

2 is a cross-sectional view taken along the line AA of the contents of the present invention, having a drainage tank (1) in the body of a certain standard, having a filtration tank (6) at the bottom and a sedimentation tank (7) at the bottom; (7) Manufacture and install the filtration distribution pipe (9) with a material that is not permanently rust as the inner upper layer, and install a ball tower (10) at the end of the filtration distribution pipe (9), and the raw water inflow pipe (11) Form a distribution tube in the side, install the inlet solenoid valve (2) on the one hand and attach the bypass inlet valve (2-1) to the side, and install the backwash solenoid valve (3) on the other side of the distribution tube and A pass backwash valve (3-1) is attached, and an inlet solenoid valve (2) forms an inlet pipe (8) in the vertical direction to connect with the filtration distribution pipe (9) at the bottom, and a manhole (12) at the top of the body. And the overflow pipe 13 is formed at the upper side of the outer side of the main body, and the outlet solenoid valve 5 is installed at the lower end thereof. Attach the bypass outlet valve (5-1) to the side, install the sludge discharge solenoid valve (4) at the bottom of the main body, and attach the bypass sludge discharge valve (4-1) to the side, the electronic control device and Attach the time switch panel (14).

Meanwhile, the filtration tank 6 is filled with filtration material to the bottom of the outlet solenoid valve 5.

Looking at one embodiment of the present invention configured as described above in detail by the accompanying drawings as follows.

As raw water flows into the raw water inlet pipe 11 and passes through the inlet solenoid valve 2 and the inlet pipe 8, the raw water is distributed in the filtration distribution pipe 9, and the flow rate of the filtration tank 6 decreases rapidly due to the resistance of the filter medium. do.

The raw water with reduced flow rate precipitates sludge in the settling tank (7), and the light water passes through the filtration tank (6), which is purified as clean and clean water and stored in the drain tank (1). It is supplied through and solves the role of water purification and drainage tank at the same time, operates the outlet solenoid valve (5) at the time when the demand for water supply is the least, closes the valve to make the water in the drain tank (1) and then the inlet solenoid valve ( 2) to close the valve and operate the backwash solenoid valve 3 and the sludge solenoid valve 4 at the same time to open the valve. When it is lowered to the bottom, impurities of the filtration distribution pipe (9) are cleaned while the ball tower (10) opens and exits, and the sludge solenoid valve (4) and the backwash valve (3) are closed and the inlet solenoid valve (2) is closed. If you open the process at the same time, the water When the ball tower 10 is operated and closed while moving up from the settling tank 7, the water becomes a purified water through the filtration distribution pipe 9 again, and all the solenoid valves send signals from the electronic control device and the time switch 14. It works.

On the other hand, if the power is not supplied or the solenoid valve fails to operate, each bypass valve can be operated manually.

As described above, the present invention solves the roles of the purified water and the drainage tank at the same time and is a useful design that can supply the clear water without having to reside separately by automatically cleaning the backwash.

And conventional systems are designed to be backwashed when the sludge is accumulated, the backwash was not made clean, but the present design is to discharge the sludge periodically every day because it is effective in improving the water quality can always supply clean water It is a useful design.

Claims (1)

It is equipped with a drain tank (1) in the body of a certain standard, and equipped with a filtration tank (6) and a settling tank (7), install a filtration distribution pipe (9) and a ball tower (10) at the end, and the raw water inlet pipe ( 11) form a distribution pipe and install an inlet solenoid valve (2) on one side and a bypass inlet valve (2-1) on the side, install a backwash solenoid valve (3) on the other side of the distribution tube, Attach the bypass backwash valve (3-1) to the side, connect the inlet solenoid valve (2) and the inlet pipe (8) with the filtration distribution pipe (9), and form a manhole (12) at the top of the body, Install the overflow pipe (13), the outlet solenoid valve (5), attach the bypass outlet valve (5-1) to the side, install the sludge discharge solenoid valve (4) at the bottom of the main body, and bypass the sludge discharge valve (4). -1), unmanned automated water purifier characterized in that it comprises an electronic control device and a time switch panel (14).