KR19990030247A - Permanent filtration device with variable filter layer - Google Patents

Abstract

The present invention can filter the suspended solids contained in the fluid (especially water) with high accuracy by changing the pore structure of the filtration layer at the time of filtration and backwashing. A permanent filtration device having a variable filter layer having.

According to the present invention, a plurality of flexible parts are formed inside the bottom plate flange (4) of the container (3) having a tubular shape and having a raw water inlet pipe (7) connected to the upper side and a treated water discharge pipe (8) through which filtered raw water is discharged. By fixing the lower end of the weft filter (1,2) consisting of a weft yarn, when the filtration of the raw water, the plurality of weft yarns are compressed to the lower plate flange (4) in accordance with the pressure of the raw water to form a filter layer for filtering the suspended solids , Backwashing is released at the same time to release the pressing of the plurality of weft filter (1) forming the filter layer by applying pressurized air and fresh water through the treated water discharge pipe (8) in the state that the compression to the filter layer is released The backwashing of the solids is carried out, so that both filtration and backwashing efficiency are high.

Description

Permanent filtration device with variable filter layer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a permanent filtration device having a variable filter layer, in particular a fluid (particularly water) by varying the pore structure of the filtration layer during filtration and backwashing, using a filter composed of a plurality of flexible weft yarns. The present invention relates to a permanent filtration apparatus having a variable filter layer capable of high-precision filtering suspended solids contained in the shell) and having an excellent backwashing efficiency in backwashing using air pressure and fresh water.

Float contained in fluid (especially water) for filtration of suspended solids in water treatment of water purification plant, pretreatment before advanced treatment of various wastewater and wastewater (ie activated carbon, ozone, photocatalyst, membrane separation treatment) or water treatment for recycling purposes. As a device for filtering solids, a micro filter is used.

The precision filtration device used for this purpose is manufactured as a structure in which the pore structure of the filter for filtration is fixed to a certain size, so if the pores are blocked by the filtered contaminants after a certain period of time, backwashing is impossible or the backwash recovery rate This was so poor that most microfiltration units had to replace their filters.

The reason why the conventional filtration device is inferior in backwashing efficiency is that the pore structure does not change even during backwashing as in filtration. As a result, the backwashing efficiency is low because the contaminants caught in the pores of the filter are not easily washed.

Therefore, the present invention has been made in view of the problems of the prior art, and its object is to filter the suspended solids contained in the fluid (especially water) with high accuracy by changing the pore structure of the filter layer during filtration and backwashing. It is possible to provide a permanent filtration apparatus having a variable filter layer having a good backwashing efficiency in backwashing using air pressure and fresh water.

Another object of the present invention is to provide a filtration device that can further finely control the size of the pores by artificially compressing or stretching the filter in addition to the compression / extension of the filter by hydraulic pressure.

1 is a partial cutaway perspective view showing the internal structure of a permanent filtration device having a variable filter layer according to a first embodiment of the present invention,

Figure 2 is a partial cutaway perspective view showing the weft assembly of Figure 1,

Figure 3a is a schematic cross-sectional view showing the filtration operation of the filtration device,

Figure 3b is a schematic cross-sectional view showing the backwash operation of the filtration device,

4 is a cross-sectional view showing the internal structure of a permanent filtration device having a manual filter compression / expansion device according to a second embodiment of the present invention.

* Explanation of Signs of Major Parts of Drawings *

One ; Weft filter 2; Weft Filter

3; Pressure vessel 4; Bottom plate flange

5; Water flow stabilizer 6; Top flange

7; Raw water injection pipe 8; Treated water discharge pipe

9; Weft 10; Upper holder

11; Lower holder 12; Discharge hole

13; Hollow part 14; Sump

15; Hole 20; Filter layer

25; Suspended solids 30; enemy

35; Holder support plate 40; Filter crimp / extension

45; Drive shaft 50; handle

In order to achieve the above object, the present invention is a tubular shape and has a container having a lower plate flange connected to the raw water inlet pipe is connected to the upper side and the treated water discharge pipe to discharge the filtered raw water on the lower side, each lower end inside the container It consists of a plurality of flexible weft filter is fixed to the lower plate flange of the, when the filtration of the raw water, the plurality of weft filter is compressed to the lower plate flange in accordance with the pressure of the raw water to form a filter layer for filtering the suspended solids A permanent filtration device having a variable filter layer is provided.

The backwashing of the filter layer is performed by releasing the compression of the plurality of weft filters forming the filter layer by applying pressurized air and fresh water through the treated water discharge pipe in the state in which the compression on the filter layer is released, and at the same time, the backwashing of the collected solids. By doing this, the backwashing efficiency is excellent.

As described above, in the present invention, by using a weft filter composed of a plurality of flexible weft yarns, the suspended solids contained in the fluid (particularly water) are highly filtered by changing the pore structure of the filtration layer during filtration and backwashing. It can be used semi-permanently because backwashing efficiency is excellent by using air pressure and fresh water when backwashing.

(Example)

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

1 is a partial cutaway perspective view showing the internal structure of a permanent filtration device having a variable filter layer according to a first embodiment of the present invention, Figure 2 is a partial cutaway perspective view showing the weft assembly of FIG.

First, referring to Figure 1, the filtration device of the present invention is a raw water inlet pipe 7 for guiding the raw water to be filtered from the outside is connected to the upper plate flange (6) fixed to the upper portion of the pressure vessel (3) and the pressure vessel In the lower portion of the treated water discharge pipe 8 through which the raw water filtered through the lower plate flange 4 is connected.

A plurality of holes 15 are drilled in the upper portion of the pressure vessel 3 to stabilize the flow of raw water introduced into the inside, and a water flow stabilizer 5 having an outer circumferential portion fixed to the inner wall of the container is installed.

In addition, first and second weft yarns having a plurality of wefts 9 supported by the upper holder 10 and the lower holder 11, respectively, as shown in FIG. 2 below the pressure stabilizer 5 of the pressure vessel 3. Filters 1 and 2 are provided. The number of weft filters embedded in the pressure vessel 3 may be increased or decreased depending on the size of the filtration device, and the first weft filter 1 disposed at the outer side and the second weft filter 2 disposed at the inner side may be pressure vessels. It is preferably arranged to maintain a constant interval between the inner peripheral surface of the.

As the weft yarn 9 forming the weft filter, for example, synthetic fibers such as polyester, nylon, and polypropylene (PP) may be used as materials having flexibility and durability. The upper holder 10 may be made of plastic so that the weft filter has a posture vertically by buoyancy, and the shape of the upper holder 10 and the lower holder 11 is determined according to the shape of the container, and preferably the container. When (3) is a cylinder resistant to high pressure, it is cylindrical, and may be made of polygons of various forms depending on the shape of the container. The lower holder 11 supports the lower end of the weft filter and is fixed to the collecting plate 14 in which a plurality of discharge holes 12 are formed to discharge the filtered raw water while forming the hollow 13 between the lower plate flanges. The treated water discharge pipe 8 is fixed to the lower plate flange 4 so as to communicate with the hollow portion 13.

Hereinafter, the operation of the filtration apparatus according to the present invention will be described in detail with reference to FIGS. 3A and 3B.

First, when filtering the raw water, the raw water is introduced into the pressure vessel 3 at a constant water pressure through the raw water inlet pipe 7 and is discharged at a uniform pressure inside the container as it passes through the water flow stabilizer plate 5. The first and second weft filters 1 and 2 are pressed. As a result, the first and second weft filters 1 and 2 are sequentially pressed onto the lower plate flange 4 by water pressure to form a filter layer 20 having fine pores. Therefore, when the pressure of the pressure vessel 3 is increased by the filter layer 20, the suspended solids 25 contained in the raw water 30 are filtered while passing through the filter layer 20, and the filtered filtrate is filtered through the lower collecting plate hole ( It is collected to the hollow portion 13 through 12 and is discharged through the treated water discharge pipe (8).

On the other hand, after the filtration device is operated for a certain time, if the filter layer 20 is contaminated by the suspended solids 25 or more than the reference value, the backwashing of the weft filter is performed. The backwashing is performed by first and second weft filters (1, 2) forming the filter layer (20) by first applying pressurized air and fresh water through the treated water discharge pipe (8) while decompressing the filter layer (20). ) The crimp is released and the size of the pores is greatly increased, and the backwashing of the solids collected in the weft filter is easily performed by the turbulence of air bubble and applied fresh water. It is discharged to the outside through (7).

As described above, the present invention has a structure in which the pore size of the filter layer formed by the weft filter can change depending on the filtration time and the backwashing time, thereby making it possible to simultaneously maintain high filtration efficiency and backwashing efficiency of contaminants. Therefore, if the water flow direction is changed only without replacing the weft filter, backwashing is possible, so long-term operation is possible.

4 shows a permanent filtration device having a manual filter pressing / extension device according to a second embodiment of the present invention. The second embodiment compresses the first and second weft filters 1 and 2 to filter layer 20. ) Is characterized in that the filter compression / expansion device 40 is added to the first embodiment, which is capable of artificially adding a compressive force externally in addition to the water pressure of the raw water supplied when forming a). It has the same structure as the example.

The filter pressing / extension device 40 includes a drive shaft 45 extending from the outside on a holder support plate 35 which integrally supports the upper holders 10A and 10B for supporting the first and second weft filters 1 and 2. Has a connected structure. Therefore, when pressing the filter for filtration, holding the handle 50 and pressing the pressure vessel (3) is a higher compression than the filter is pressed by water pressure so that the size of the pores can be maintained more finely do.

In addition, during backwashing of the filter, the holder supporting plate 35 and the first and second weft filters 1 and 2 can be extended quickly and maximally by grasping the handle 50 and pulling up, thereby using only pressurized air and fresh water. Compared to the case of washing, the efficiency of backwashing can be greatly increased.

As described above, in the present invention, by using a filter composed of a plurality of flexible weft yarns, the suspended solids contained in the fluid (particularly water) can be filtered with high accuracy by changing the pore structure of the filter layer during filtration and backwashing. It can be used semi-permanently as it shows excellent back washing efficiency by using air pressure and fresh water.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

Claims (8)

A container having a bottom plate flange having a tubular shape and having a raw water inlet pipe connected to an upper side thereof and a treated water discharge pipe for discharging filtered water to the lower side thereof; The lower end is composed of a weft filter means consisting of a plurality of flexible weft yarn is fixed to the lower plate flange inside the container, Permanent filtration device having a variable filter layer, characterized in that during the filtering of the raw water to form a filter layer for pressing the plurality of wefts to the lower plate flange to filter the suspended solids in accordance with the pressure of the raw water. According to claim 1, Permanent filtration device having a variable filter layer characterized in that it further comprises a water flow stabilization means for stabilizing the water flow of the raw water flowing into the interior of the container. The filter of claim 1, wherein the backwashing of the filter layer is performed while releasing compression of the plurality of wefts forming the filter layer by applying pressurized air and fresh water through the treated water discharge pipe in a state where the compression to the filter layer is released. Permanent filtration device having a variable filter layer, characterized in that for performing the backwash of the solid. The permanent filtration apparatus of claim 1, wherein the weft filter unit forms a shape of one of a cylindrical shape and a polygonal shape. The permanent filtration apparatus according to claim 1, wherein the weft filter means is composed of a plurality of weft filters arranged concentrically. The water collecting plate of claim 5, further comprising a collecting plate having a plurality of discharge holes for discharging the purified raw water while supporting the lower end of the weft filter means and forming a hollow portion between the lower plate flanges. Permanent filtration device having a variable filter layer, characterized in that in communication with the part. According to claim 1, Permanent filtration device having a variable filter layer further comprises an upper and lower filter holder for forming a plurality of weft yarns in the upper and lower portions of the weft filter means. The permanent filtration apparatus according to claim 1, further comprising filter crimping / extending means for artificially crimping and stretching the plurality of wefts of the weft filter means.