KR100401937B1 - deep bed filter cartridge - Google Patents

Abstract

The present invention is a cylindrical media storage case in which raw water is introduced and discharged; A fiber bundle for filtering the raw water, the filter material bundle having both ends bound by an auxiliary string; It is coupled to both ends of the filter storage case, the auxiliary straps of the filter bundle is coupled to a plurality of coupling device configured to hold a plurality of the filter bundle inside the filter storage case, characterized in that deep filtering of the raw water in the raw water It is about depth filter cartridge to make.

For the deep filtration, the present invention adjusts the density or size of the media voids by interpolating media bundles of different lengths, using a conical media storage case, or by crimping means for compressing the media storage case.

According to the present invention, the density of the filter medium increases from the inlet to the outlet, and all the spaces in the filter bed are utilized as particle trapping spaces. There is an advantage.

Description

Deep filtration cartridge {deep bed filter cartridge}

The present invention is a cylindrical media storage case in which raw water is introduced and discharged; A fiber bundle for filtering the raw water, the filter material bundle having both ends bound by an auxiliary string; It is coupled to both ends of the filter storage case, the auxiliary straps of the filter bundle is coupled to a plurality of coupling device configured to hold a plurality of the filter bundle inside the filter storage case, characterized in that deep filtering of the raw water in the raw water It is about depth filter cartridge to make.

For the deep filtration the present invention is to deeply filter the density or size of the filter media by the means of interpolating the bundles of different lengths, using a conical filter case, or by pressing means for compressing the filter case Relates to a cartridge.

In general, the operation of the filtration system consists of filtration and backwashing.

Filtration refers to the operation of separating the suspended solids and liquid particles in the fluid in a broad sense, and in the narrow sense to separate the solid particles in the liquid, such as water, the liquid mixture containing the solid particles through the porous filter medium, Solid means deposition on the surface or inside of the filter medium, and liquid means permeation to separate the two.

Hereinafter, the filtration of the present invention will be described by taking filtration in a narrow sense as an example, but the scope of the present invention is not limited thereto.

The narrow filtration means a filtration layer filled with suspended solids such as fine particles, algae, etc. in water of a liquid (hereinafter referred to as 'raw water') that needs to be filtered to contain suspended solids (hereinafter, referred to as 'filtrate'). In the following, abbreviated as "extra layer"), a process of entrapment and removal by physical and chemical operations such as diffusion, interception, inertia collision, precipitation, aggregation and adsorption is performed.

Sedimentation of suspended solids occurs in the filtrate filled with the filter medium during the filtration process, thereby reducing the air gap of the filtrate, thereby generating filtration resistance.

Since the filtration resistance lowers the filtration efficiency, the filter medium in the filtrate needs to be backwashed.

Therefore, the performance of the filtration system is evaluated by the filtration and backwashing processes, which are determined in detail by the efficiency of removing the suspended solids and the size of the removal particle size, the filtration rate, the filtration duration, the backwash frequency, the backwash quantity, and the backwash time. .

The media is mainly used for particulate matter such as sand, anthracite, activated charcoal, clay, crushed magnetite, garnet, inert media, etc., but these media have a problem that the filtering device and the installation area are very large.

In addition, since the trapping space of the underwater particles during filtration is not only limited to the surface layer, but also has a fixed pore structure due to the characteristics of the media, air gap reduction or void occlusion of the suspended solids in the water frequently occurs, Since the loss is increased, the backwashing frequency of the filter medium in the filtrate is increased, and the filtration rate is reduced.

In order to solve the problems of the conventional method, a pre-rotated rotary backwash microfiltration device (application number: 10-1997-023068) has been introduced, and the present invention is a fiber yarn filter radially attached to the side of the porous drum rotating body. One end is attached to the rotary spring fixed to the pressure vessel wall, and the filter is filtered and backwashed through the reverse and forward rotation of the drum.

However, the filtration apparatus is severely damaged by the fiber yarn filter due to friction, and the particle capture space is small, so that the filtration duration is short, the frequency of backwashing is frequent, and it is difficult to cope with fluctuations in water quality of raw water.

Then, a permanent filtration device (application number: special 1998-0405542) having a variable filter layer which is a filtration device that is compressed and filtered by the feed pressure of the raw water, and is relaxed by back pressure by the pressurized air and backwashing water pressure. However, this method also suffers from entanglement and damage of the fibrous fiber, which is a medium in the process of repeated compression and relaxation of the piston, and because of the formation of a single layer during the filtration operation, the trapping time and the amount of particle trapping are small. Frequently, the frequency of washing is not high, and the filtration rate is not large, and it is difficult to cope with changes in the quality of the feed water.

The present invention, in order to solve the above problems, long life of the fiber yarn filter, large particle capture space, long filtration duration, easy backwashing, easy to cope with the fluctuation of water quality of the raw water depth filter cartridge The purpose is to provide.

That is, an object of the present invention is to provide a deep filtration cartridge in which the size of the trapped particles for each site is different because the pore density of the discharge portion and the inlet portion is different.

In addition, an object of the present invention is to provide an in-depth filtration cartridge that is easy to wash the suspended matter during backwashing.

1 is a cross-sectional view of a deep filtration cartridge according to the present invention.

2 is a cross-sectional view of a deep filtration cartridge which is another technical subject matter of the present invention.

3 is a cross-sectional view of a deep filtration cartridge which is another technical subject matter of the present invention.

4 is a cross-sectional view of another embodiment of the present invention.

* Explanation of symbols on main parts of drawings *

1: Media bundle 3: Media storage case

32: outer cylinder

5: crimping means 51: high pressure air injection nozzle

6: filter device 61: inlet filter device

62: discharge medium filter device

The present invention has been made in order to achieve the above object, and the cylindrical filter case which the raw water is introduced and discharged; A fiber bundle that is inserted into the filter case and filters the raw water, the filter bundle being bound at both ends by an auxiliary strap; A perforated plate coupled to the inlet and the outlet of the filter housing case is divided into an inlet filter device and an outlet filter device, and the auxiliary straps of the filter bundle are combined to provide a plurality of filter media inside the filter storage case. It is composed of a filter holding device for holding and fixed, the deep filter cartridge, characterized in that the filter bundles are inserted into the filter housing case of different lengths to form a filter layer.

Here, the filter bundle is preferably a deep filter cartridge characterized in that all of the filter bundles interpolated in the discharge unit fixing device are tightly coupled, and the average filter density increases toward the discharge unit.

The present invention also provides a conical case having a trapezoidal cross section, comprising: a media storage case in which a wide circumferential surface is an inlet for raw water and a narrow circumferential surface is an outlet; A fiber bundle that is inserted into the filter case and filters the raw water, the filter bundle being bound at both ends by an auxiliary strap; A porous plate coupled to the inlet and the outlet of the filter case is divided into an inlet filter fixing device and an outlet filter fixing device, and the auxiliary string of the filter bundle is connected and coupled to the filter bundle inside the filter storage case. It is composed of a plurality of filter holding device for holding and holding, the inlet portion of the filter housing case has a low filter density by a wide inner diameter, the discharge portion has a deep filter cartridge characterized in that the high filter density by a narrow inner diameter It is desirable.

And the present invention is a cylinder in which the raw water is introduced and discharged, the filter medium storage case made of a flexible material that is bent; A fiber bundle that is inserted into the filter case and filters the raw water, the filter bundle being bound at both ends by an auxiliary strap; A porous plate coupled to the inlet and the outlet of the filter case is divided into an inlet filter fixing device and an outlet filter fixing device, and the auxiliary string of the filter bundle is connected and coupled to the filter bundle inside the filter storage case. A mediation fixing device for holding and fixing a plurality; Compression means for selectively squeezing the media storage case on the side or the front of the media storage case, by pressing the media storage case by the pressing means in accordance with the degree of contamination of the raw water to change the media density in the media storage case It becomes a technical summary that it becomes a deep filtration cartridge characterized by the above-mentioned.

Here, the pressing means is preferably a deep filtration cartridge, characterized in that formed in plural on the side or front of the filter case.

And it is preferable that the pressing means is a deep filtration cartridge, characterized in that the filter housing is inserted into the sealed outer cylinder, the air pressure is injected through the high-pressure air injection nozzle is introduced into the outer cylinder.

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

1 is a cross-sectional view of a deep filtration cartridge according to the present invention, Figure 2 is a cross-sectional view of a deep filtration cartridge which is another technical subject of the present invention, Figure 3 is a sectional view of a deep filtration cartridge which is another technical subject of the present invention, 4 is a cross-sectional view of another embodiment of the present invention.

As shown in the figure, the present invention is largely composed of a filter housing case 3, a filter bundle 1, and a filter fixing device 6.

Hereinafter, the present invention will be described in detail with reference to FIG. 1.

The media storage case 3 of FIG. 1 is a cylindrical case into which raw water is introduced and discharged.

The filter housing case 3 is not necessarily limited to a cylindrical shape.

The raw water means water in which suspended matter (sludge) is contained in the water and needs to be purified.

The filter media bundle (1) is composed of a fiber bundle that both ends are tied by the auxiliary string (12).

As the raw water flows into the fiber bundle, suspended matter in the water is filtered through the fiber to allow the water to be purified.

The filter medium fixing device 6 is a porous plate coupled to the inlet and the outlet of the filter housing case 3 and is divided into an inlet filter device 61 and an outlet filter device 62.

The filter bundle (1) is a plurality of interpolation in the interior of the filter housing case (3) is fixed by coupling the auxiliary strap 12 to the filter medium (6).

The filter medium fixing device 6 is coupled to both ends of the filter case 3, the auxiliary strap 12 of the filter bundle 1 is coupled to a plurality of the filter bundle case 1 to the filter case (3) ) It is a device to fix a plurality of inside.

The filter medium fixing device 6 is preferably made of a porous plate so as not to block the passage of raw water.

In the present invention, the media storage bundles 3 having different lengths are equally interpolated in the media storage case 3 to form a media layer.

As a result, end portions of the long filter bundle are scattered to form a filter layer at the inlet of the filter storage case 3, and the filter bundles are compressed to form the filter layer toward the discharge part, thereby changing the filter density of the inlet and the discharge part.

At this time, one end of the filter media bundle (1) is connected to the inlet filter medium fixing device 61 by hanging the auxiliary string 12, the other end of the filter medium bundle (1) discharge part filter medium (62) It is desirable to connect so that the density of the filter medium linearly from the outlet to the outlet.

According to the configuration of the present invention described above, as the density from the inlet to the outlet increases, the filter filling rate, that is, the filling rate increases, and as the size of the pores capable of trapping the suspended matter decreases toward the outlet, large particles of suspended matter are caught in the inlet. In the discharge section, small particles of suspended matter are caught.

In detail, when raw water flows into the inlet of the filter case 3, a large float is caught at the inlet having a low filter density, and small floats are caught at the outlet having a high filter density, and the water is purified according to the size of the float. Is optionally determined, i.e., a deep filtration (meaning that it is filtered by size of the filter particles).

That is, according to the present invention, as the raw water is introduced, the relatively large floating material is mainly captured at the inlet portion where the large voids are formed, and the smaller floating material is captured as it proceeds to the discharge portion, which is caught along the inner longitudinal direction of the media storage case 3. Since the suspended solids are deeply filtered, there is an advantage in that the filtrate, which is the trapping space of the actual particles, is formed in the entire length of the filter.

This deep filtration also greatly improves the cleaning effect of the filter media (1), in detail, when the high-pressure injection by mixing the washing water or high pressure air in the reverse direction with the raw water, discharged through the inlet in the order of the small float from the large float Will be.

The washing water and the like flows in the direction of the small pores of the filtrate in the direction of the large pores, so that the pressure resistance caused by the suspended matter does not occur, the washing process is easily performed.

This washing effect of the filter media (1) not only lasts the life of the filter medium, but also increases the treatment efficiency of the raw water.

Hereinafter, another technical gist of the present invention will be described with reference to FIG. 2.

As shown in FIG. 2, the present invention comprises a filter housing case 3, a filter bundle 1, and a filter fixing device 6. As shown in FIG.

2 is a conical casing having a trapezoidal cross-section, in which a wide circumferential surface is an inlet for raw water and a narrow circumferential surface is an outlet.

In the filter housing case 3, the filter bundle 1 is fixed and interpolated by the filter fixing device 6.

Preferably, the filter media bundle 1 has the same length, but it is also preferable to equally arrange the media bundles having different lengths as described above.

The medial bundle 1 interpolated by the medial storage case 3 of the conical case is compressed by a narrow inner diameter of the outlet to form a small void, and a large void is formed by a wide inner diameter at the inlet.

That is, according to the present invention of Fig. 2, a deep filtration cartridge is provided in which the pore size of the filter medium becomes smaller toward the discharge portion.

When the raw water flows into the inlet of the deep filtration cartridge, the suspended solids are deeply filtered by the size of the pore that decreases toward the outlet, and when the high pressure washing water is introduced into the outlet during the washing, the deeply filtered suspended solids are washed without clogging.

Hereinafter, another embodiment of the present invention will be described with reference to FIG. 3.

The present invention of Figure 3 is characterized in that the raw material is introduced and discharged, characterized in that the media storage case (3) of the flexible material to be bent, the media bundle (1) and the media fixing device (6) and the pressing means (5) It consists of.

In detail, the filter housing case 3 is a cylinder in which raw water is introduced and discharged, and is formed of a flexible material that is bent.

In the filter housing case 3, the filter bundle 1 is interpolated and fixed by the filter fixing device 6.

The filter holding device is a porous plate coupled to the inlet and the outlet of the filter storage case (3) is divided into an inlet filter device 61 and the discharge filter device (62).

The crimping means 5 of FIG. 3 is a device for selectively crimping the medial storage case 3 at the side or the front of the mediar storage case 3.

The device is composed of a rod or a byte moved by a control signal, which is a technical level that is not difficult to configure in a conventional technology method, and thus a detailed description thereof will be omitted since it is outside the technical gist of the present invention.

In the present invention of FIG. 3, the filling rate of the filter medium, that is, by forming a selective curved part (compression or bending part) by mechanical means in a deep filter cartridge having the same or divided pore size, thereby varying the filling rate of the filter medium according to the filtration needs. will be.

That is, normal filtration may be performed without the pressing means 5, and if there is a need for deep filtration according to the pollution degree of raw water or the particle size distribution characteristic of the suspended matter, the pressing means 5 may be operated to operate the filter housing case ( By pressing or bending 3), a curved portion is formed to change the size of the internal voids so that the suspended matter is deeply filtered.

According to the present invention of Figure 3, the filling rate of the filter medium is formed at one or more curved portions are higher or the same cartridge from the inlet to the discharge unit, the raw water is filtered through the filter deeply to improve the filtration efficiency, the curved portion at the time of washing Backwashing efficiency can be improved by eliminating

Figure 4 shows that the crimping means is by air pressure in another embodiment of the present invention.

As shown in FIG. 4, the filter housing case 3 is inserted into the sealed outer cylinder 32, and the air pressure injected through the high pressure air injection nozzle 51 introduced into the outer cylinder 32 is used as a crimping means. It is also worth considering.

According to the present invention described above, deep filtration of raw water and at the same time the degree of filtration can be varied according to the quality of raw water, thereby increasing the filtration rate and efficiency.

According to the present invention described above, the deep filter cartridge, which has a long life of the filter medium filter fibers, a large particle capture space, a long filtration duration, easy backwashing, easy to cope with the water quality fluctuations of raw water There is an advantage.

That is, the density of the filter increases from the inlet to the outlet, and there is an advantage in that a deep filtration cartridge is provided in which all the spaces in the filtrate are used as particle capture spaces.

In addition, the size of the suspended solids filtered according to each site is different, there is an advantage that the deep filtration cartridge in which the suspended solids are deeply filtered.

In addition, there is an advantage that the deep filtration cartridge is easy to wash the suspended solids during backwashing due to the deep filtration.

Claims (5)

Cylindrical media storage case (3) through which raw water is introduced and discharged; A fiber bundle inserted into the filter storage case 3 to filter raw water, the filter bundle being bound at both ends by an auxiliary strap; The porous plate is coupled to the inlet and outlet of the filter case 3 is divided into an inlet filter fixing device 61 and the discharge filter medium (62), the auxiliary strap of the filter bundle is coupled to the Consists of a filter fixing device (6) for holding a plurality of filter bundles inside the filter storage case, Deep filter cartridges, characterized in that the median bundles (1) of different lengths in the filter housing case (3) is interpolated to increase the average filter density toward the discharge portion. A conical casing having a trapezoidal cross section, the wide circumferential surface of which is an inlet for raw water, and a narrow circumferential surface of which is a discharge portion; A fiber bundle inserted into the filter storage case 3 to filter raw water, the filter bundle being bound at both ends by an auxiliary strap; As the porous plate coupled to the inlet and the outlet of the filter case 3, it is divided into an inlet filter device 61 and an outlet filter device 62, the auxiliary strap of the filter bundle is connected Consists of a filter fixing device for fixing the plurality of filter bundles (1) in the filter storage case 6, The depth filter cartridge characterized in that the inlet portion of the filter housing case (3) has a low filter density by a wide inner diameter, the discharge portion has a high filter density by a narrow inner diameter. Raw material inflow and discharge, the cylinder is a flexible storage material made of a flexible material (3) to be bent; A fiber bundle inserted into the filter storage case 3 to filter raw water, the filter bundle being bound at both ends by an auxiliary strap; As the porous plate coupled to the inlet and the outlet of the filter case 3, it is divided into an inlet filter device 61 and an outlet filter device 62, the auxiliary strap of the filter bundle is connected A filter holding device (6) for holding and fixing the filter bundle (1) in the filter storage case; Consists of the crimping means (5) for selectively crimping the media storage case (3) on the side or front of the media storage case (3), The depth filter cartridge, characterized in that the filter medium (5) is pressed by the pressing means (5) in accordance with the degree of contamination of the raw water to change the density of the filter medium in the filter medium storage case (3). The pressing means (5) according to claim 3 Deep filtering cartridge, characterized in that formed in the longitudinal direction on the side or front of the filter medium storage case (3). The pressing means (5) according to claim 3 or 4 Inserting the filter housing case (3) in a sealed outer cylinder (32), deep filter cartridge, characterized in that the air pressure is injected through the high-pressure air injection nozzle (51) to be introduced into the outer cylinder (32).