KR100560812B1 - Filtering system with self-cleaning function - Google Patents

Abstract

The present invention relates to a filtration system having a self-cleaning function to purify a filter portion contaminated by foreign matter and allow continuous filtration without replacing the filter portion. The upper space separated by a grid-like grid is provided. A first filter tower 1 and a second filter tower 1 ', each of which has a ball-shaped filter medium filled in and a lower space, respectively, and are provided with fluid inlets 11A respectively formed on top of the filter tower 1, 1'. ) Is connected to either side of the waste fluid supply pipe 31 and the foreign substance discharge pipe 32 by the operation of the three-way, the fluid inlet (11B) formed in the lower portion of the filter tower (1) (1 ') is the operation of the three-way. Is connected to either side of the filtration fluid discharge pipe 33 and the connection pipe 34, the connection pipe 34 is a washing water supply pipe 35 having a valve (35a) (36a) and the steam supply pipe (36) It is characterized in that connected to each.

Midnight, Trilateral, Filter, Steam, Wash

Description

Filtering system with self-cleaning function

1 is a block diagram showing a filtration system according to the prior art;

2 is a block diagram showing a filtration system having a self-purifying function according to the present invention;

3 is a detailed view of a filtration tower which is a main part of the present invention.

※ Explanation of symbols about main part of drawing ※

1, 1 ': filtration tower 10: tank

11A, 11B: Fluid outlet 13: Upper grid

14: 1st filter medium 15: 2nd filter medium

16: 3rd filter medium 17: lower grid

19: air supply tube 21: upper connector

21a, 21b: triangular side 22: lower connector

22a, 22b: three-way side 31: waste fluid supply pipe

32: foreign substance discharge pipe 33: filtration fluid discharge pipe

34: connection piping 35: washing water supply piping

36: steam supply piping 37: compressed air supply piping

The present invention relates to a filtration system, and more particularly, to a filtration system having a self-purifying function to purify the filter portion contaminated by foreign matter so that continuous filtration can be performed without replacing the filter portion.

1 is a configuration diagram schematically showing a filtration device according to the prior art, the solution tank 110 is equipped with a solution inlet, outlet pipe 111, 112 in front and rear with respect to the flow direction of the solution, and The solution tank 110 is composed of a plurality of filters (120, 130) provided side by side along the flow direction of the solution.

That is, foreign matters of the solution introduced into the solution tank 110 through the solution inlet pipe 111 may be removed from the first filter 120 and the second filter 130.

Of course, the first filter 120 and the second filter 130 may have various structures according to the characteristics of the foreign substances to be filtered. For example, when the iron component is included in the foreign matter, one of the first filter 120 or the second filter 130 is configured to remove the foreign matter of the iron component by having a magnetic.

However, the conventional filtration facility as described above should periodically replace the filter 120, 130, the replacement operation of the filter 120, 130 stops the operation of the filtration facility, and then replace the installed filters By removing from the installation and installing new filters in the installation, not only the operation efficiency is lowered due to the shutdown of the installation, but also the labor loss due to the large labor and time required to replace the filter.

An object of the present invention is to provide a filtration system having a self-purifying function, which is capable of purifying the filter portion contaminated by foreign matters without stopping the operation of the equipment.

As a technical configuration for achieving the above object, the present invention is provided with a first filter tower and a second filter tower each of which is filled with a ball-shaped filter medium in the upper space and the lower space separated by a grid grid, The fluid inlets formed at the top of the filter tower are respectively connected to one side of the waste fluid supply pipe and the foreign substance discharge pipe by the operation of the three-way valve, and the fluid inlets formed at the bottom of the filter tower are connected to the filtration fluid discharge pipe by the three-way operation. Is connected to any one side of the pipe, the connecting pipe is provided by the filtration system having a self-purifying function, characterized in that connected to each of the water supply pipe and the steam supply pipe having a valve.

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

FIG. 2 is a block diagram showing the filtration equipment according to the present invention as a whole. The first filtration tower 1 and the second filtration tower 1 ′ having the same structure are arranged side by side, and the filtration tower 1 1 (1). ') Have the same structure as each other, so only one filter tower will be described.

As shown in Fig. 3, the filtration tower 1 has a tank 10 having a substantially hollow cylindrical shape, and the tank 10 is composed of an upper tank 10A and a lower tank 10B, The lower end of the upper tank 10A and the upper end of the lower tank 10B are coupled to each other by a fastening member 12 such as a bolt, and are configured to be separated from each other if necessary, and the upper and lower tanks of the upper tank 10A. At the lower end of 10B, fluid inlets 11A and 11B for entering and exiting the fluid are respectively formed.

A large number of first filter mediums 14 having a spherical shape having a diameter of about 8 mm and formed of plastics are provided in the upper tank 10A, and these first filter materials 14 are formed in the upper portion. It is accommodated in a predetermined space formed by the upper grid 13 is fixed to the inside of the tank (10A), the upper grid 13 has a circular or smaller than the size of the diameter of the first filter medium 14 or Polygonal holes are penetrated and arranged in a grid.

Of course, the shape and arrangement structure of the upper grid 13 is not particularly limited, and the upper grid 13 is formed in a plate shape so as to be spaced apart from the upper and lower portions of the upper tank 10A by a predetermined interval. The first filter medium 14 may be accommodated between the grids 13. In this case, the size of the space formed by the upper grid 13 may be such that a predetermined free space exists even after the first filter medium 14 is accommodated.

A second filter medium 15 having a diameter of about 3 mm and formed of plastic and a sphere having a diameter of about 12 mm and formed of glass in the lower tank 10B. 3, the filter medium 16 is accommodated in a large amount, these second and third filter medium (15, 16) is the lower fluid outlet (11B) by the lower grid 17 is fixed to the inner lower end of the lower tank (10B). Emissions are prevented. Of course, the movement of the second and third filter media (15, 16) toward the upper tank (10A) is blocked by the upper grid (13). In addition, the lower grid 17 has a circular or polygonal hole having a size smaller than the diameter of the second filter medium 15 and is arranged in a lattice shape, and the lower grid 17 has a substantially plate shape. It is good to be.

In addition, the lower tank (10B) is preferably provided with an observation window 18 made of a transparent material to observe the inside from the outside.

The inside of the filter tower (1) is provided with an air supply tube 19 lengthened up and down, the air supply tube 19 is formed with a plurality of air supply holes in the longitudinal direction and the circumferential direction.

Referring to FIG. 2, the fluid inlets 11A formed at the top of the first filtration tower 1 and the second filtration tower 1 ′ are connected to each other by an upper connection pipe 21 forming a closed loop. The fluid inlets 11B connected to each other and formed at the lower end thereof are connected to each other by a lower connection pipe 22 forming a closed loop.

The fluid inlets 11A of the first filtration tower 1 and the second filtration tower 1 'are respectively connected to the upper connection pipe 21 via the three-way sides 21a and 21b, and the upper connection The pipe 21 is divided into two regions by the three sides 21a and 21b, and the waste fluid supply pipe 31 and the foreign substance discharge pipe 32 are connected to each of the divided zones, and the waste fluid supply pipe 31 Has a pump 31a.

The lower connecting pipe 22 is divided into two regions by being connected to the fluid inlet 11B of the first filtration tower 1 and the second filtration tower 1 ′, and has three sides on each of the divided regions. 22a) and 22b, and the three-way sides 22a and 22b are respectively connected to the filtration fluid discharge pipe 33 and the connection pipe 34, and the filtration fluid discharge pipe 33 is connected to the pressure switch 33a. Have

The washing water supply pipe 35 is branched from the connection pipe 34, the steam supply pipe 36 is branched from the washing water supply pipe 35 via the inline heater 36b, and the washing water supply pipe 35 is disposed in the washing water supply pipe 35. And the steam supply pipe 36 is provided with on-off valves 35a and 36a, respectively.

The other end of the connection pipe 34 is branched from the compressed air supply pipe 37, and the connection pipe 34 is branched from the portion to which the washing water supply pipe 35 is connected and from the compressed air supply pipe 37. The check valve 34a and the solenoid valve 34b are mounted between the parts.

The compressed air supply pipe 37 is bifurcated through three sides 37a and connected to the air supply tubes 19 of the first filtration tower 1 and the second filtration tower 1 ', respectively. .

In addition, the compressed air supply pipe 37 is provided with a solenoid valve 37b between a portion where the connection pipe 34 is branched and a portion where the three-way side 37a is installed.

The operation of the present invention having the above configuration will be described.

The pump 31a of the waste fluid supply pipe 31 is operated so that the raw liquid to be filtered is supplied to the upper portion of the second filtration tower 1 ', and the supplied liquid is supplied to the upper tank of the second filtration tower 1'. The foreign matter of large size is removed from the first filter medium 14 provided in 1A), and the foreign substances of small size are removed from the second filter medium 15 provided in the lower tank 1B. It is discharged to the filtration fluid discharge pipe 33 through the side 22a.

When the foreign matter removal operation of the stock solution by the second filter tower 1 'is performed for a predetermined time, the outer surfaces of the first filter medium 14 and the second filter medium 15 of the second filter tower 1'. The foreign matter is attached to the flow of the fluid to prevent the flow of the fluid flowing through the filtration fluid discharge pipe 33 is gradually reduced, this pressure is higher than the set pressure of the pressure switch (33a) provided in the filtration fluid discharge pipe 33 When the reduced or set time elapses, the crude liquid supplied to the second filtration tower 1 ′ is supplied to the first filtration tower 1.

Of course, this operation is provided in the upper connecting pipe 21 is driven to the three-sided 21b for providing a connection passage to the second filter tower (1 ') is supplied with the raw liquid is supplied to the second filter tower (1') The three-way 21a, which blocks the gap and provides a connection passage to the first filtration tower 1, is driven to supply the stock solution to the first filtration tower 1 to supply the stock solution to the first filtration tower 1. Foreign material removal is performed.

Here, a lower diameter second filter medium 15 is located at the upper side and a larger diameter second filter medium 16 is located at the lower part of the lower portion of the filter tower 1, 1 ′, so that the flow of fluid is increased. It can be made smoothly, which is due to the prevention of the retention of foreign matter in the lower portion of the second filter medium 15 of small diameter.

The first, second and third filter media 14, 15 and 16 of the second filtration column 1 'are backwashed at the same time as the feed solution is supplied to the first filtration tower 1, whereby washing water is supplied. Opening and closing valve (35a) of the pipe (35) and the opening and closing valve (36a) of the steam supply pipe 36 to supply the washing water and steam, the in-line heater (36b) in a state in which the supplied washing water and steam are mixed with each other The temperature was raised by heating at and then fed into the second filtration tower 1 ′ through the lower portion of the second filtration tower 1 ′.

At the same time, when the solenoid valve 34b of the connecting pipe 34 is opened to supply compressed air to the inside of the second filter tower 1 'through the lower portion of the second filter tower 1', the compressed air is The first, second and third filter media 14, 15 and 16, which were accommodated in the second filter tower 1 ', are vigorously stirred to separate foreign substances adhering to these surfaces.

When most of the foreign matter is separated from the outer surface of the filter mediums 14, 15 and 16 by supplying compressed air as described above, the solenoid valve 34b of the connecting pipe 34 is closed and then The solenoid valve 37b and the three-way side 37a are opened to supply compressed air to the air supply tube 19 of the second filtration tower 1 '.

At the same time, when the three-way (21b) of the upper connecting pipe 21 is operated so that the fluid inlet (11A) and the foreign matter discharge pipe 32 of the second filter tower (1 ') are connected to each other, the air supply tube (19) Foreign matter separated from the outer surface of the filter medium 14, 15, 16 is forced out through the foreign matter discharge pipe 32 by the high pressure air injected through the air supply hole of the foreign matter discharge pipe 32.

By repeating the above operation a predetermined number of times, the foreign substances existing in the inside of the second filtration tower 1 'are completely discharged to the outside, and then wait for the next filtration operation.

Of course, when the washing operation of the second filtration tower (1 ') is finished, the filter media (14) (15) (16), which were stirred by the supply of high pressure air, sinks downward by gravity, In the case of the second filter medium 15 and the third filter medium 16, the third filter medium 16 having a higher specific gravity first sinks to the lower side, and then the second filter medium 15 having a smaller specific gravity is disposed at the upper side of the third filter medium 16. Sink.

According to the filtration system having a self-purifying function according to the present invention as described above, it is possible to purify the filter medium contaminated with foreign matters by backwashing without stopping the operation of the filtration facility to solve the problem of productivity decrease due to the replacement operation Has solved the effect.

In addition, the filter material can be used without replacement while being purified by backwashing, so that the maintenance and repair of the facility is easy.

Claims (3)

A first filtration tower 1 and a second filtration tower 1 'each having a ball-shaped filter medium filled in an upper space and a lower space separated by a grid-like grid are provided. The fluid inlet 11A respectively formed at the top of the c) is connected to any one side of the waste fluid supply pipe 31 and the foreign matter discharge pipe 32 by the operation of the three-way valve, respectively, at the lower portion of the filtration tower 1, 1 '. The formed fluid inlet 11B is connected to either side of the filtration fluid discharge pipe 33 and the connection pipe 34 by a three-way operation, the connection pipe 34 is a washing water supply pipe having valves (35a, 36a) Filtration system having a self-purifying function, characterized in that each of the 35 and the steam supply pipe (36). According to claim 1, wherein the connecting pipe 34 is connected to the compressed air supply pipe 37 via the valve 34b, the compressed air supply pipe 37 is the valve 37b and the three-way side 37a Filtration system having a self-cleaning function, characterized in that connected to the air supply tube (19) installed inside the first filtration tower (1) and the second filtration tower (1 '). The filter medium of claim 1, wherein the filter medium filled in the lower space of the filter tower (1) (1 ') has a diameter and a specific gravity larger than that of the second filter medium (15) formed of a plastic material and the second filter medium (15). Filtration system having a self-cleaning function, characterized in that consisting of a third filter medium having.

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