KR100970797B1 - Filter media and appartus with the same - Google Patents

Abstract

PURPOSE: A filter medium and a filtering device using the same are provided to prevent deformation of the filter medium by using a flexible filter medium by welding an inner member to move the filtered water passing through a membrane. CONSTITUTION: A filter medium includes an inner material(12) performing a flow path function of water and a membrane(11) surrounding the exterior of the inner material. The inner member is welded inside the membrane by heat. The inner member is integrally formed with the membrane. A welding process is formed at a temperature which is higher than 160°C of a melting temperature of the inner material.

Description

Filtration material and filtration device applying the same {FILTER MEDIA AND APPARTUS WITH THE SAME}

The present invention relates to a filter medium and a filtration device using the same, and more particularly, to a filter medium and a filtration device applying the membrane filter used in the water purification device.

In general, purified water refers to a process in which turbid water is treated (purified) for drinking, industrial, or agricultural use through self-cleaning or purification of the earth, and other artificial treatment.

For example, tap water refers to a system for supplying reliable drinking water through a water pipe, and the drinking water finally supplied to the user through the water pipe must be purified according to water quality standards. Therefore, if it is possible to obtain high quality raw water close to the target water quality, simple water treatment may be sufficient. However, water purification is not easy in the downstream part of a large river, which has many cities, factories, or farmland. Should be.

An example of such a water purifier is disclosed in Korean Patent Registration No. 10-372829 (registered February 6, 2003).

1 is a plan view of a conventional water purifier, and FIGS. 2A and 2B are perspective views illustrating the operation of a filtration device included in the water purifier shown in FIG. 1.

Referring to FIG. 1, the conventional water purifier includes a supply pump 1 for pumping sewage containing suspended solids at a high pressure or a low pressure, and three filters for collecting suspended particles of sewage pumped by the feed pump 1. Part 3 (3a, 3b, 3c), including the filtration device (5) for receiving the water filtered by the filter unit 3 through the purified water pipe (4) to pass only the pure water and soluble material to filter Is done.

At this time, the filtration device 5 is provided with the first and second membranes (5a, 5b), and filtered through only pure water and soluble substances, the filtered water through the reducing pipe (6) tank (7) To store).

In the conventional water purifier, the water finally washed in the water tank 7 during the forward rotation is pumped out through the discharge pipe 7a, and in the reverse rotation, the water tank 7 is pumped through the reverse supply pipe 8. A discharge / backwash pump 9 is further provided for supplying pure water to the first and second membranes 5a and 5b for backwashing.

However, the conventional filtration device applied to the water purification device as described above has a problem that the first and second membranes 5a and 5b are easily damaged by using a flat membrane as shown in FIG. there was.

That is, since the first and second membranes 5a and 5b are swollen into a bottle shape by high water pressure, as shown in FIG.

In the conventional filtration apparatus 5, since the first and second membranes 5a and 5b are deformed into the bottle shape during filtration, the part to be filtered is partially weighted, so that the dead zone where the filtration is not properly performed, that is, dead space There was also a problem of dead space.

In addition, when backwashing, the first and second membranes 5a and 5b adhere to each other, so that backwashing may not be performed properly.

As a result, the conventional filtration apparatus had to increase the installation intervals of the membranes 5a and 5b in consideration of the swelling of the membranes 5a and 5b.

The present invention is to solve the problems described above, an object of the present invention to provide a filter medium and a filter device applying the same to prevent deformation and breakage of the filter medium in the filtration process and backwashing process.

According to a feature of the present invention for achieving the object as described above, the present invention has a pore (12a) is formed therein, the inner surface of the inner member 12 and the outer surface of the inner member 12 to perform the function of water flow path It includes a surrounding membrane 11, characterized in that the inner material 12 is bonded to the inside of the membrane 11 to support to maintain a constant shape of the membrane 12.

According to another feature of the invention, the present invention is bonded to the membrane 11 and the inside of the membrane 11, and performs the function of the flow path of water filtered through the membrane 11 through the pores (12a) formed therein It is provided with an inner material 12, a plurality of the filter medium 10 and the water to be filtered through the filter pipe 10 is arranged and arranged side by side in the vertical direction supplied and stored, the stored water filter medium (10) The filter unit 24 for supplying to the filter unit 24 and the filter medium 10 to store the filtered water and the suspended solids adhered to the surface of the filter medium 10 to wash the filter 24 It includes a case 20 having an air supply unit 30 for supplying a high pressure air in the lower portion.

The filter unit 24 includes a pair of rails 22 connected between inner surfaces of both lower sides and a discharge pipe 23 for discharging the stored water to the outside, and the filter medium 10 is connected to the rails 20. The coupling member 13 includes a plurality of coupling members 13 flowing in the left and right directions, and the coupling member 13 includes a filter recombination unit 14 and a filter recombination unit 14 coupled to a lower end of the filter medium 10. It is formed in the lower portion, characterized in that it comprises a plurality of rail coupling portion 15 is formed through the coupling hole 16 so that the rail 22 is inserted.

The filter medium 10 is characterized in that formed in a plank shape or spiral.
The inner material 12 is characterized in that it is bonded to the inside of the outer material in a thermal fusion method or an adhesive method.

As described above, the present invention is to prevent the deformation of the filter medium by using a filter material produced by flexibly bonding the inner material that functions as a flow path to the inside of the membrane to move the filtered water through the membrane, thereby preventing the deformation of the filter medium By thinning a plurality of filter media can be integrated to increase the degree of integration.

And by installing the lower end of the filter medium so that it can flow freely in the left and right direction along the rail, it is possible to prevent the deformation and breakage of the filter medium in the filtration process and backwashing process, The site can be weighted to remove dead spaces that prevent filtration from performing properly.

In addition, instead of backwashing using backwashing water, high pressure air may be supplied from the lower part of the filtering device to easily remove suspended matters stuck to the surface of the filter medium.

Hereinafter, with reference to the accompanying drawings, a filter medium and a filtration device applying the same according to a preferred embodiment of the present invention will be described in detail.

3 is a perspective view of a filter medium according to a preferred embodiment of the present invention, Figure 4 is a cross-sectional view of the filter device to which the filter medium according to the preferred embodiment of the present invention is applied.

In the present embodiment, it is described without distinguishing water to be filtered, but it should be noted that the present invention can be applied to both a water purification device for filtering constants and a sewage treatment device for filtering sewage in a sewage treatment plant.

First, the configuration of the filter medium according to a preferred embodiment of the present invention will be described in detail with reference to FIG. 3.

As shown in FIG. 3, the filter medium 10 of the present invention includes a membrane 11 and an inner material 12 bonded to the inside thereof.

The membrane 11 is a polytetrafluoroethylene (PTFE) membrane or a polymer-based membrane which is a very stable compound due to the strong chemical bonding of fluorine and carbon among fluorine resins performing surface filtration. Use Among them, the PTFE membrane has properties such as almost perfect chemical inertness, heat resistance, non-tackiness, excellent insulation stability and low coefficient of friction. The pore size of the membrane 11 has a size between several tens of micrometers and 0.001 μm, depending on the characteristics of the water purifier, and the thickness of the membrane 11 is preferably about 10 μm.

The inner material 12 is made of a synthetic resin material such as plastic, expandable polypropylene, or expandable polyethylene, and a plurality of pores 12a are formed therein. Front, rear, left, and right sides of the inner member 12 are wrapped by the membrane 11, and the upper surface is formed to be exposed to be connected to the inside of the water tank 40 as shown in FIG. . In addition, since the melting point of the inner material 12 is lower than the melting point of the membrane 11, about 260 ° C. at about 160 ° C., the inner material 12 melts the surface when the surface of the inner material 12 is heated to 160 ° C. or higher. ) Is fused (lamination).
In this embodiment, the inner material 12 is described as being bonded to the outer material 11 by a thermal fusion method, but is not necessarily limited thereto. For example, in the present invention, the inner material 12 and the outer material 11 are formed by applying an adhesive in the form of dots or nets to the outer surface of the inner material 12 and / or the inner surface of the outer material 11. ) May be joined.

The inner material 12 functions as a flow path through which the filtered water passes through the membrane 11 through the pores 12a therein and moves to the water tank 40. In addition, the inner member 12 also functions as a support member for supporting the filter medium 10. The inner material 12 has a thickness of 3 to 6 mm, particularly preferably about 5 mm.

The filter medium 10 manufactured by fusing the membrane 11 and the inner material 12 therein is formed in a thin long slat shape.

As such, as the filter medium 10 is fused to the inner material 12 inside the membrane 11 to form a flexible board, the deformation of the filter material 10 is prevented and the thickness of the filter material 10 is prevented. The integration degree can be improved by making a smaller and integrating a plurality of filter media 10.

Next, with reference to Figure 4 will be described in detail the filtration device to which the filter medium according to a preferred embodiment of the present invention is applied.

As shown in FIG. 4, the filtration device of the present invention includes a plurality of filter media 10, a case 20 on which the filter media 10 is mounted, and an air supply unit 30 for supplying high pressure air to the filter media 10. And it comprises a water tank 40 for storing the filtered water passing through the filter medium (10).

The filter medium 10 is formed in a flexible shape in a thin and long slat (slat) shape is provided with a plurality arranged side by side in the vertical direction.

The lower portion of the filter medium 10 is provided with a plurality of coupling members 13 coupled to the rail 22 installed at the lower portion of the case 20. The coupling member 13 is bent in a substantially 'U' shape of the plate material of the metal material is coupled to the filter member coupling portion 14 and the lower end of the filter medium 10 and the case (under the filter member coupling portion 14) The coupling hole 16 is coupled to the rail 22 of the 20 is made of a nut-shaped rail coupling portion 15 is formed through.

That is, the filter medium 10 is coupled to the rail 22 of the case 20 by the coupling member 13 and freely flows along the rail 22 in the left and right directions, so that water is passed through the purified water pipe 21. Supplying or supplying a high-pressure air through the air supply unit 30 can be prevented from being damaged even during the cleaning operation to remove the floating debris stuck to the surface of the filter medium (10).

The case 20 is formed in a rectangular cylindrical shape and includes a filtration unit 24 on which the filter medium 10 is mounted, and a water tank 40 in which filtered water is stored. A purified water pipe 21 for supplying water to be filtered is connected to one lower side of the filtration unit 24. Accordingly, the filtration unit 24 always stores water therein.

The lower portion of the filter unit 24 is provided with a rail 22 to which the filter medium 10 is coupled. The rail 22 is a pair of rods connected to both inner surfaces of the filtration part 24, and is inserted into the coupling hole 16 of the coupling member 13.

The upper part of the case 20 is provided with a discharge pipe 23 for discharging the water stored in the water tank 40 for storing the filtered water from the filter medium 10 to the destination.

Air supply unit 30 is formed in a rectangular cylindrical shape in the lower portion of the filter unit 24, a plurality of air pipes 31 and the air supplied to be connected to supply the high-pressure air between the filter medium 10 is ejected The slit 33 is formed of an air supply plate (32). Accordingly, the air supply unit 30 may remove air debris adhered to the surface of the filter medium 10 by flowing the filter medium 10 by supplying air at high pressure between the filter mediums 10.

The water tank 40 is formed in a rectangular cylindrical shape on the upper portion of the case 20, connected to the inner material 12 of the filter medium 10 therein, epoxy (epoxy) on the lower surface of the water tank 40 ( The filter medium 10 is bonded using 41). The water tank 40 receives and stores the filtered water passing through the membrane 11 of the filter medium 10 through the inner material 12, and stores the discharge pipe 23 when the pump is rotated forward. Supply the stored water to the place of use. On the other hand, when the pump is reversely rotated to backwash the filter medium 10, the water tank 40 supplies the backwash water supplied through the discharge pipe 23 to the filter medium 10.

The case 20, the rail 22, the air supply unit 30, and the water tank 40 described above are preferably made of stainless material to prevent corrosion by water.

Next, the operation of the filter medium and the filtration device applying the same according to a preferred embodiment of the present invention will be described in detail with reference to FIGS.

5 is an operational state diagram illustrating the filtration operation of the filtration apparatus according to a preferred embodiment of the present invention, Figure 6 is an operational state diagram illustrating the backwash operation of the filtration apparatus shown in FIG.

First, the filtration operation of the filtration device of the present invention will be described with reference to FIG.

As shown in FIG. 5, a plurality of filter media 10 flexibly formed in a plank shape is mounted in the filter unit 20 of the case 20 side by side in the vertical direction. To this end, the lower end of the filter medium 10 is coupled to the rail 22 is inserted into the coupling hole 16 of the rail coupling portion 15 so as to flow freely in the left and right directions along the rail 22, and the upper end is The member 12 is bonded to the lower surface of the water tank 40 using the epoxy 41 in the state connected to the inside of the water tank 40.

As described above, in the state in which the filter medium 10 is mounted on the filtration unit 24 inside the case 20, the water to be filtered through the purified water pipe 21 is supplied and stored in the filtration unit 24.

Subsequently, when water is stored in the filter unit 24, the pump (not shown) rotates forward, and as the internal pressure of the filter medium 10 becomes lower than the pressure inside the filter unit 24, the membrane 11 of the filter medium 10 is removed. Is filtered by passing only pure water and soluble materials inside. Then, the inner material 12 fused to the inside of the membrane 11 serves as a flow path through which the pores 12a formed therein move the water, and the water filtered through the membrane 12 is provided on the case 20. It is delivered to the tank 40. Thus, the filtered water is stored in the water tank 40.

Thus, the water stored in the water tank 40 is supplied to the place of use through the discharge pipe 23 during the forward rotation of the pump.

Next, the backwashing operation of the filtration device of the present invention will be described with reference to FIG. 6.

Backwashing is performed periodically to remove debris from residual suspended matter that has adhered to the membrane 11 surface of the filter medium 10. That is, the pump is rotated in reverse to supply the backwash water to the water tank 40 through the discharge pipe 23. Then, the inner material 12 of the filter medium 10 functions as a flow path for moving the backwash water of the water tank 40 in the reverse direction during the filtration operation to supply the membrane 11. As the internal pressure of the filter medium 10 is higher than the internal pressure of the filtration unit 24, the membrane 10 performs the filtration operation in the reverse direction during the filtration process.

As a result, in the process of passing the backwash water supplied to the inner material 12, the suspended matter adhering to the surface of the membrane 11 is separated from the surface of the membrane 11. In this back-washing process, the suspended matters separated from the filter medium 10 are discharged to the outside by opening the drain valve, not shown.

At this time, the air pipe 31 of the air supply unit 30 supplies the high pressure air to the lower portion of the filter unit 24, the air supplied to the lower portion of the filter unit 24 is formed on the air supply plate 32 It is supplied between the plurality of filter media 10 through the litt (33).

As a result, while the filter medium 10 flows along the rail 22 in the lateral direction, it is possible to more smoothly remove the suspended matter stuck to the surface of the membrane 11.

Through the above process, the present invention can improve the degree of integration by integrating a plurality of filter media by reducing the thickness of the filter media and preventing deformation by using the filter media in which the inner material is fused to the inside of the membrane.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self evident.

In the above embodiment, the filter medium 10 has been described as being formed in a thin and long plank shape, but the present invention is not limited thereto. That is, the filter medium 10 is flexible by fabricating the inner material 12 in the membrane 11. Therefore, when the filter device is formed in a cylindrical shape, the filter medium 10 may be changed into a spiral or the like.

In addition, the filter medium 10 was described as being manufactured by fusing the inner material 12 to the inside of the membrane 11, but the inner material in a state in which a part of the upper end of the inner material 12 is exposed by the wide membrane 11. It may be changed so as to finish the manufacturing in the state wrapped around the front, rear, right, left and bottom of (12).

In addition, it was described that the external backwashing water and high pressure air are used together during the backwashing process, but the filter medium 10 may be washed using only the backwashing water or only the high pressure air. In particular, the washing process of the filter medium 10 using the high pressure air may be performed in a state in which water stored in the case 20 is removed.

1 is a plan view of a conventional water purifier.

Figures 2a and 2b is a perspective view illustrating the operation of the filtration device included in the water purifier shown in FIG.

3 is a perspective view of a filter medium according to a preferred embodiment of the present invention.

4 is a cross-sectional view of the filtering device to which the filter medium shown in FIG. 3 is applied.

5 is an operational state diagram illustrating the filtration operation of the filtration device according to an embodiment of the present invention.

6 is an operational state diagram illustrating a backwash operation of the filtration device shown in FIG. 5.

`` Explanation of symbols for main parts of drawings ''

10: filter medium 11: membrane

12: inner material 13: coupling member

14: filter recombination unit 15: rail coupling unit

20: case 21: water purification pipe

22: rail 23: discharge pipe

24: filtration unit 30: air supply unit

31: air pipe 32: air supply plate

33: slit 40: tank

Claims (5)

Pores 12a are formed therein, and the inner member 12 performing a water flow path function. A membrane 11 surrounding the outer surface of the inner material 12, The inner material 12 is fused to the inside of the membrane 11 by heat, so that the inner material 12 and the membrane 11 are integrally formed so as to support the membrane 11 to maintain a constant shape. Function, The fusion is carried out by heat of a temperature higher than 160 ℃, the melting point temperature of the inner material (12) and lower than 260 ℃, the melting point temperature of the membrane (11). Pores 12a are formed therein, and the inner member 12 performing a water flow path function. Filter medium 10 comprising a membrane 11 surrounding the outer surface of the inner material 12 and A water tank for storing the filtered water through the filter unit 24 and the filter medium 10 for supplying and storing water to be filtered through the purified water pipe 21 and supplying the stored water to the filter medium 10 ( 40 and a case 20 having an air supply unit 30 for supplying high-pressure air to the lower portion of the filter unit 24 to wash the suspended matter stuck to the surface of the filter medium 10, The inner material 12 is fused to the inside of the membrane 11 by heat, so that the inner material 12 and the membrane 11 are integrally formed so as to support the membrane 12 to maintain a constant shape. Function, The fusion is performed by heat of a temperature higher than the melting point temperature of the inner material 12, 160 ℃ and lower than the melting point temperature of the membrane 11, 260 ℃, The filter unit 24 includes a pair of rails 22 connected between inner surfaces of both lower sides and a discharge pipe 23 for discharging the stored water to the outside, The filter medium 10 is provided with a plurality of coupling members 13 coupled to the rail 20 to flow in the left and right directions, The coupling member 13 is formed at the lower portion of the filter medium coupling portion 14 and the filter medium coupling portion 14 coupled to the lower end of the filter medium 10, and the coupling hole 16 to insert the rail 22. Filtration device, characterized in that it comprises a plurality of rail coupling portion 15 is formed through. delete delete delete

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