KR101158765B1 - Sand filter of high flow type - Google Patents

Abstract

PURPOSE: An upward sand filter is provided to increase the filtering efficiency of sand and the cleaning efficiency of filtering media by rapidly treating floated materials accumulated in an air lifting pipe. CONSTITUTION: An upward sand filter includes a filtering tank(10), a spraying part(20), an air lifting pipe(30), a backwashing chamber(40), a backwashing pipe(50), and a sand cleaning part(60). A backwashing ware is installed at the backwashing chamber to overflow and discharge the backwashing water to the backwashing pipe if the backwashing water is more than the pre-set height of the backwashing chamber. The height of the backwashing ware is gradually adjusted. A dispersion preventive plate(70) is arranged at the upper side of the air lifting pipe. One or more spiral protrusion parts(90) are formed at the lower inner circumference of the air lifting pipe.

Description

Upflow Sand Filter {Sand Filter of High Flow type}

The present invention relates to an upflow sand filter for filtering contaminants of raw water and cleaning sand, and more particularly, to effectively separate the rising media, water, and air that rise through the air lift pipe, and to separate the media from the media. An upflow sand filter can be used to effectively remove material.

In general, the upflow sand filter has a small installation area, and adopts an upflow cleaning method to clean the filter medium (sand), which can continuously clean the sand at the same time as the filtration. Widely used in the recycling and desalination industries.

1 is a view showing a conventional upflow sand filter.

As shown in the upflow sand filter, a sand filtration layer 1a is formed therein, and raw water passing through the sand filtration layer 1a is moved upwards to remove contaminants from the treated waterware 1b. Distributor for injecting the raw water introduced into the filtration tank 1 through the inlet pipe 2a to the sand filtration layer 1a through the inlet pipe 2a and the treated water pipe 1c formed thereon so as to overflow and discharged. (2), and an air lift pipe 3 of a double pipe type installed perpendicular to the filtration tank 1 so as to raise the contaminated sand by injecting air supplied from an air compressor (not shown) to the lower side; It is installed in the upper end of the air lift pipe (3), the washing water chamber (4) to collect the washing water to wash the first washed sand through the air lift pipe (3), and collected in the washing water chamber (4) One end is connected to the washing water chamber 4 to discharge the treated water. The other end is provided with a washing water pipe 5 connected to the outside and a zigzag-shaped flow path 6a positioned below the washing water chamber 4 so as to clean the secondary water while dropping the first washed sand downward. It consists of a sand washing machine (6). The sand washing part 6 is made of a rubber material, and the upper and lower flow path areas are the same.

The upstream sand filter configured as described above is uniformly distributed and raised throughout the sand filtration layer 1a by the distributor 3 installed in the sand filtration layer 1a. At this time, the pollutant (SS) is collected by the sand filtration layer (1a), the filtered water is moved to the upper portion and overflowed from the treated water (1b) is discharged to the outside through the treated water pipe (1c).

The contaminated sand, which filtered the raw water and trapped the contaminated material, rises upward through the inner cylinder 3b by the compressed air injected from the outer cylinder 3a of the air lift tube 3, and the inner cylinder 3b above. Contaminant is separated from the contaminated sand in the process of ascending through the contaminated sand, water and air rising at different speeds are collected in the washing water chamber (4).

The sand collected in the washing water chamber 4 is further uniformly dispersed in the upper cone 6b while falling downward through the zigzag flow path 6a of the sand washing machine 6 so that the sand filtration layer 1a It is stacked on top.

In addition, the treated water introduced into the washing water chamber 4 together with the sand is discharged to the outside through the washing water pipe (5).

The conventional upflow filter as described above has the following problems.

First, the airlift pipe that lifts and cleans the media contaminated with water by air pressure may be clogged by foreign matter or wear and breakage by the media.

Second, the media that rises due to the air pressure is dispersed on the top of the air lift pipe is discharged to the washing water pipe to cause the loss of the media.

Third, if the incoming air contains contaminants, the cleaning effect of the media is reduced.

The present invention has been made to solve the above problems, an object of the present invention is to provide an upflow sand filter to prevent the dispersion of sand by having a dispersion preventing plate on the top of the airlift pipe.

In addition, the bottom of the airlift pipe provided with a filter to provide an upflow sand filter to filter the air supplied.

In addition, it is to provide an upstream sand filter that can easily remove the floating material accumulated on the upper side of the airlift pipe by the removable structure of the airlift pipe.

In addition, provided with a spiral projection inside the airlift pipe to vortex the rising water and media, and to provide an upflow sand filter to increase the separation efficiency of the water and media.

The upflow sand filter of the present invention has a sand filtration layer 11 formed therein, and the raw water passing through the sand filtration layer 11 is moved upward to remove contaminants and overflows from the treated water ware 12. A filtration tank 10 having a treatment water pipe 13 formed at an upper portion thereof so as to be discharged; An injection unit 20 including an inlet pipe 21 and a distribution pipe 22 for injecting raw water introduced into the filtration tank 10 through the inlet pipe 21 to the sand filtration layer 11. ; An air lift pipe 30 installed vertically in the filtration tank 10 to raise contaminated sand by spraying air supplied from an air compressor to the lower side; A backwash chamber 40 installed at an upper end of the airlift pipe 30 to collect sand and polluted water which are first washed through the airlift pipe 30; A backwash tube 50 having one end connected to the backwash chamber 40 to discharge the treated water collected in the backwash chamber 40 and the other end exposed to the outside; And a sand washing unit 60 disposed below the backwash chamber 40 and having a zigzag flow path configured to perform secondary cleaning while dropping the first washed sand downward. Dispersion preventing plate 70 for preventing the dispersion of sand and contaminated water transported through the air lift pipe 30 is further characterized in that the upper end.

At this time, the air lift pipe 30 is characterized in that detachable.

In addition, in the backwash chamber 40, when the backwash water stored in the backwash chamber 40 is greater than or equal to a predetermined height, backwash water wear 41 is installed so that the backwash water pipe 50 overflows and is discharged. The wash wear 41 is characterized in that the height is adjusted step by step.

In addition, the lower end of the air lift pipe 30 is characterized in that it is provided with an air filter unit 80 for filtering the air introduced from the air compressor.

In addition, the air filter unit 80 has an inlet hole 83 for conveying the introduced air into the air lift pipe 30 and a mesh net 82 provided to surround the inlet hole 83. It includes, the mesh net 82 is characterized in that replaceable.

Finally, at least one spiral protrusion 90 is formed on the lower inner circumferential surface of the air lift tube 30 to protrude spirally in the vertical direction.

Upflow sand filter of the present invention by the configuration as described above has the following effects.

First, it minimizes the loss of media by preventing the dispersion of media that has risen through the air lift pipe.

Second, it is possible to quickly process the suspended matter accumulated in the air lift pipe to increase the cleaning efficiency of the media.

Third, the filtered air is supplied through the air lift pipe to increase the cleaning efficiency of the media.

Fourth, the efficiency of sand filtration process is increased by increasing the separation efficiency of water and media through the air lift pipe.

1 is a cross-sectional view of a conventional upflow sand filter
Figure 2 is a perspective view of the upflow sand filter of the present invention
3 is a cross-sectional view of an upflow sand filter of the present invention.
Figure 4 is a cross-sectional side view of the air lift tube of the present invention
5 is a cross-sectional view of the air filter unit of the present invention
Figure 6 is an exploded cross-sectional view of the air filter unit of the present invention

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

1 and 2, the upflow sand filter of the present invention is a filtration tank 10, the injection unit 20, air lift pipe 30, backwash chamber 40, backwash pipe 50, sand It comprises a cleaning unit 60, the dispersion preventing plate 70, the air filter unit 80 and the spiral projection (90).

The filtration tank 10 has a filtration layer 11 formed therein, so that the raw water passing through the filtration layer 11 is moved to the upper side to remove the contaminants and to flow over the discharged water from the treated water 12. The treated water pipe 13 is formed at the top.

The injection unit 20 is composed of an inlet pipe 21 and the distribution pipe (22). The distribution pipe 22 injects the raw water introduced into the filtration tank 10 through the inflow pipe 21 to the filtration layer 11.

The air lift pipe 30 is installed perpendicular to the filtration tank 10 and is configured to raise the contaminated sand and water by injecting air supplied from an air compressor (not shown) to the lower side. Therefore, in the air lift pipe 30, a primary cleaning action occurs in which contaminants attached to sand are separated by a difference in speed between contaminated sand, water, and air moving upward.

At this time, as shown in Figure 4, the dispersion preventing plate 70 is installed on the upper end of the air lift pipe (30). The dispersion preventing plate 70 is formed in a circular plate body, the lower end is configured to be coupled to the upper end of the air lift pipe (30). The dispersion preventing plate 70 is to prevent the dispersion of sand and contaminated water transferred through the air lift pipe (30).

The air lift pipe 30 is supported through the injection unit 20 so that the air lift pipe 30 is configured to be detachable from the filtration tank 10 without using a separate tool. Therefore, it is possible to quickly and easily remove the suspended matter accumulated on the upper side of the air lift pipe (30). When the air lift pipe 30 is removed, the dispersion preventing plate 70 is removed using a handle.

The upper end of the air lift pipe 30 is configured to be accommodated in the backwash chamber 40 and is fixed through the hood bracket 71. The hood bracket 71 also plays a secondary role of preventing the dispersion of sand and contaminated water transferred through the air lift pipe 30.

In addition, as shown in FIG. 5, an air filter unit 80 may be provided at the lower end of the air lift pipe 30. The air filter unit 80 is divided into an air inlet space (80a) and an air discharge space (80b), the air introduced from the air inlet pipe 81 is between the air inlet space (80a) and the air discharge space (80b) It is filtered through the mesh network 82 is installed. The air lift pipe 30 is formed with a plurality of inlet holes 83 to transfer the air introduced from the air inlet pipe 81 into the air lift pipe 30 to increase the efficiency of the air lift pump. The mesh net 82 is configured to surround the inlet hole 83 to filter the air introduced into the inlet hole 83. The mesh net 82 is configured to be replaceable. Therefore, the air lift pipe 30 in which the air filter unit 80 is installed is configured to be separated into an upper side and a lower side and is screwed through the screw coupling parts 85a and 85b. O-ring 84 for sealing may be installed in the coupling portion of the air lift pipe (30).

In addition, a spiral protrusion 90 may protrude from an inner circumferential surface of the air lift tube 30. The spiral protrusion 90 may be formed to protrude in a spiral form along the longitudinal direction of the air lift pipe 30. Although the plurality of spiral protrusions 90 are shown radially formed on the inner circumferential surface of the airlift pipe 30 on the drawing, it is apparent that at least one or more can be formed according to the use of those skilled in the art.

Water and sand rising along the inside of the air lift pipe 30 through the spiral protrusion 90 are vortexed, and thus the separation efficiency is doubled.

The backwash chamber 40 is installed at the upper end of the air lift pipe 30 to collect the sand and contaminated water raised through the air lift pipe 30. One side of the backwash chamber 40 is provided with backwashing water 41 for adjusting the contaminated water level of the backwash chamber 40.

At this time, the backwash wash 41 may be installed so that the height is adjusted in multiple stages. This is to control the amount of backwash water discharged according to the amount of backwashed pollutants. Specifically, if you define the height of the backwash software according to the backwash amount,

When the backwash amount is 18 ~ 19 (liter / min), the height of backwash is 12.7mm,

When the backwash amount is 26 ~ 27 (liter / min), the height of backwash is 15.875mm,

When the backwash amount is 34 ~ 35 (liter / min), the height of backwash is 19.05mm,

When the backwash amount is 41 ~ 42 (liter / min), the height of backwash is 22.225mm,

When the backwash amount is 49 ~ 50 (liter / min), the height of backwash can be changed to 25.4mm.

In addition, the backwashing chamber 40 is provided with a backwashing pipe 50 for discharging the contaminated water overflowing the backwashing water 41 to the outside. The backwash pipe 50 is connected to the backwash chamber 40 at one end thereof so as to discharge the contaminated water collected in the backwash chamber 40, and the other end thereof is connected to the outside.

The sand washing unit 60 is positioned below the backwashing chamber 40 and has a zigzag flow path 60a for secondary cleaning while dropping the first washed sand downward. The zigzag flow path 60a is formed through the first protrusion 61 formed on the inner circumferential surface of the sand washing unit 60 and the second protrusion 62 formed on the outer circumferential surface of the air lift tube 30. The zigzag flow path 60a is connected to an upper portion and a lower portion so that sand falling from the backwash chamber 40 moves downward, and treated water rising from the lower portion moves upward. Therefore, the pollutant separated from the zigzag flow path 60a moves to the backwash chamber 40 together with the upstream treated water.

The technical spirit should not be interpreted as being limited to the above embodiments of the present invention. Various modifications may be made at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

10: filtration tank 11: sand filtration layer
12: treated water wear 13: treated water pipe
20: injection portion 21: inlet pipe
22: distribution pipe
30: air lift pipe
40: backwash chamber 41: backwash
50: backwash pipe
60: sand tax 60a: zigzag euro
61: first protrusion 62: second protrusion
70: dispersion prevention plate 71: hood bracket
80: air filter unit 80a: air inlet space
80b: Air discharge space 81: Air inlet pipe
82: mesh net 83: inflow hole
84: O-ring
90: spiral projection

Claims (7)

A sand filtration layer 11 is formed therein, and the raw water passing through the sand filtration layer 11 moves upwards to remove contaminants and overflow the treated water pipe 12 so as to be discharged. Filter tank 10 is formed at the top;
An injection unit 20 including an inlet pipe 21 and a distribution pipe 22 for injecting raw water introduced into the filtration tank 10 through the inlet pipe 21 to the sand filtration layer 11. ;
An air lift pipe 30 installed vertically in the filtration tank 10 to raise contaminated sand by spraying air supplied from an air compressor to the lower side;
A backwash chamber 40 installed at an upper end of the airlift pipe 30 to collect sand and polluted water which are first washed through the airlift pipe 30;
A backwash tube 50 having one end connected to the backwash chamber 40 to discharge the treated water collected in the backwash chamber 40 and the other end exposed to the outside; And
Located in the lower side of the backwash chamber 40, and includes a sand washing unit 60 is formed with a zigzag flow path for secondary cleaning while dropping the first washed sand downward,
In the backwash chamber 40, when the backwash water stored in the backwash chamber 40 is above a predetermined height, backwash water wear 41 is installed so that the backwash water pipe 50 overflows and is discharged. 41, the height is adjusted step by step to adjust the amount of backwash water discharged according to the amount of backwashed pollutant,
The top of the air lift pipe 30 is further provided with a dispersion preventing plate 70 for preventing the dispersion of sand and contaminated water transported through the air lift pipe 30, the air lift pipe (30) Upflow type sand filter, characterized in that at least one spiral projection 90 is formed on the lower inner circumferential surface of the air lift pipe 30 spirally protruding in the vertical direction so that the sand and water is vortexed to rise.
The method of claim 1,
The air lift pipe 30 is an upflow sand filter, characterized in that detachable.
delete The method of claim 1,
Upstream sand filter, characterized in that the lower portion of the air lift pipe 30 is provided with an air filter unit 80 for filtering the air flowing from the air compressor.
The method of claim 4, wherein
The air filter unit 80 includes an inlet hole 83 for transferring the introduced air into the air lift pipe 30, and a mesh net 82 provided to surround the inlet hole 83. Upflow sand filter, characterized in that made.
6. The method of claim 5,
The mesh net 82 is an upflow sand filter, characterized in that replaceable.
delete

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