KR200173549Y1 - Filter deaning method using reverse direct airblow washing - Google Patents

Abstract

The present invention relates to an air filter for backwashing filter paper for backwashing the filter medium over the entire layer in a filter paper for treating raw water.

The present invention is made by laying the main building formed with several branch pipes in the lower part of the filter medium, and then forming air holes at a predetermined interval in the main building and the branch pipes to supply air to the main building.

Description

Filter deaning method using reverse direct airblow washing}

The present invention relates to an air purifier for filter paper air backwashing to filter the media through the entire layer in the filter paper for treating the raw water.

Existing water treatment system flow diagram is shown in Figure 1, the impingement well (2) to physically precipitate the foreign matter contained in the purified water taken from the dam (1), and the purified water from the impregnation well (2) The mixing paper (3) to mix, the flocculation paper (4) to form flocs aggregated from the purified water from the water treatment chemicals in the mixing paper (3), and the floc formed in the flocculation paper (4) to gravity Disinfectant such as chlorine is introduced into the sedimentation basin (5) to be precipitated by sedimentation by means of natural precipitation, the filter paper (6) for filtering the purified water from which floc has been removed from the sedimentation basin (5), and the raw water filtered from the filter paper (6). After the water is purified, it is composed of purified water 7 supplied to the home 8.

In the filter paper 6 of the water treatment system, the suspended solids in the raw water are aggregated and water is passed through the granules at a relatively high speed to adhere to the media or to remove the turbidity by filtration.

Conventional rapid filter paper has a sufficient filter media cleaning effect by surface washing that sprays water from the upper part of filter media and backwashing with water from the lower part of filter paper because the filter medium is composed of sand monolayer.

Recently, due to the occurrence of algae in raw water, the surface of the filter paper is easily clogged, and thus it is not possible to proceed with filtration anymore, which leads to the inability to produce purified water.This is designed to prevent the pores from being easily clogged. The two-layer filtration method using this large anthracite has recently been expanded.

However, anthracite is 7-8 times more expensive than sand and has a low specific gravity, causing loss of backwash. Also, it is difficult to expect a sufficient cleaning effect with conventional surface cleaning methods because it penetrates and removes turbidity deeply. .

In addition, some of the air backwash filter paper using the principle of washing the effective air bubbles of sand and anthracite double media, but this is too expensive and can not be applied in the existing filter paper.

As the pores between the media are filled with detained turbidity during the filtration process, the pores are blocked and reach the final loss head which can no longer be filtered. At this time, washing is performed in the opposite direction to the water flow. Only the surface of the filter was washed and backwashed with water, so that the turbidity between the media could not be removed efficiently.

The present invention is designed to efficiently remove turbidity trapped between media by purging air from the filter media's lower part, thereby generating air bubbles in the media under the filter media and allowing air bubbles to pass through media. It is to wash the turbidity in between.

The present invention is made by laying the main building formed with several branch pipes in the lower part of the media and forming air holes at a predetermined interval in the main building and the branch pipes to supply air to the main building,

When air is supplied to the main pipe, the air holes are formed in the main and branch pipes, and air bubbles are generated. The air bubbles pass through the media, and the turbidity trapped in the pores between the media is efficiently removed to remove the turbidity between the media.

1 is a schematic diagram of a water treatment system

2 is a cross-sectional view of an embodiment of the present invention filter paper

3 is a schematic diagram of an embodiment of the present invention.

4 is a plan view of the diffuser of the present invention

5 is a rear view of the diffuser of the present invention

6 is a front view of the diffuser of the present invention

7 is a cross-sectional view of the diffuser branch pipe of the present invention

[Explanation of symbols on the main parts of the drawings]

6: filter paper 14: anthracite 15: sand

16: gravel 18: strainer block 20: diffuser

21: main building 22: branch 25: connector

27: air hole 28, 29: drain hole

As shown in FIG. 2, the filter paper 6 lays the gravel 16 on the strainer block 18 provided with the strainer 17 and the sand 15 and the anthracite 14 thereon. 13 is configured to be discharged through the lower collecting port 12 after passing through the filter medium described above in the drainage passage 11, and the filter medium configuration of the filter paper 6 is a general matter.

An air dispersing device 20 composed of a main pipe 21 and a branch pipe 22 is installed on the strainer block 18 of the present invention, and the main pipe 21 is supplied with air from an air supply device such as a blower 23. The main tube 21 is installed at the center of the strainer block 18, and a plurality of branch pipes 22 are integrally formed at both sides of the main tube 21 in the form of a comb.

Here, the main tube 21 has a connecting flange 24 for connecting another main tube 21 to both sides, and a connecting flange 26 for connecting a connecting tube 25 to which air is supplied is formed at one upper side thereof. The tip of the branch pipe 22 having a diameter smaller than that of the main pipe 21 is formed in a clogged shape.

The lower ends of the branch pipes 22 drill the air holes 27 at regular intervals, and the drain pipes 28 and 29 at the lower ends of the main pipe 21 and the branch pipes 22 to prevent the reduction of the cross-sectional area due to the inflow of water. )

The air hole 27 is streamlined to minimize frictional loss during air ejection.

In the present invention, the main pipe 21 having the branch pipe 22 formed thereon is connected to the connecting flange 24 to be installed on the strainer block 18 as a whole, and the connecting flange 26 and the connecting pipe 25 of the main pipe 21 are connected. The air generated in the blower 23 is introduced into the branch pipe 22 through the connecting pipe 25 and the main pipe 21.

The air introduced into the branch pipe 22 is ejected to the outside through the air hole 27 to form air bubbles, and the air bubbles formed through the air hole 27 pass through the medium to efficiently trap the turbidity between the medium. Will be removed.

The drainage holes 28 and 29 drilled at regular intervals at the lowermost portions of the main tube 21 and the branch tube 22 prevent the reduction of the cross-sectional area of the main tube 21 and the branch tube 22 due to the inflow of water.

In addition, the air hole 27 is provided at an angle to the bottom of the branch pipe 22 so that the air hole 27 is not blocked due to the inflow of foreign matters, and the air hole 27 is processed in a streamlined manner to provide friction during air ejection. Minimize losses.

The main building (21) and branch pipe (22) of the present invention is made of a set of a certain length to facilitate installation and construction.

The present invention installs an air diffuser on the strainer block of the filter paper to clean the filter media layer with air bubbles, thus extending the life of the filter paper and reducing the amount of water required for backwashing, ultimately reducing the cost of water purification and smoothly supplying high quality purified water. will be.

Claims (4)

The main building is installed on the strainer block of the filter paper, A branch pipe which is integrally connected to the main building and has an air hole at a predetermined interval downward; And a connecting pipe for supplying air from the air supply device to the main pipe. According to claim 1, Both sides of the main pipe is connected to the other flange is connected to the main building is formed on the upper side of the main connection filter flange, characterized in that the connecting flange is formed to connect the connection pipe. The filter paper air backwash air dispersing device of claim 1, wherein the air hole is drilled at a predetermined angle to both sides of the bottom of the branch pipe, and the air hole is processed in a streamlined form. The filter paper air backwash air dispersing device according to claim 1, wherein the lower part of the main building and the branch pipe has a drainage hole drilled at a predetermined interval.