KR101049234B1 - Water Filter - Google Patents

Abstract

The present invention relates to a separator for a water treatment including a separator module having an immersed membrane, and an aeration tube for ejecting cleaning air to the separator directly under the membrane module. Since it is arranged to cross, it relates to a water treatment filter that can be seen to have an equivalent level of cleaning effect by a small number of diffusers compared to the previous.

Air, separator, diffuser, water treatment, scrubber, filter

Description

Water treating filtering apparatus

The present invention relates to an immersed membrane and a water treatment filter comprising the membrane cleaning apparatus.

Separation of solids in raw water (pre-treatment) using an immersion type membrane has many advantages over separation methods using heating or phase change. One of them is the treatment of desired water quality according to the pore size of the membrane. The number can be obtained stably, which means that the reliability is high. In addition, the separation method using the separation membrane may be applied to a separation process using microorganisms, etc., in which heat may adversely affect, since an operation such as heating is unnecessary.

Accordingly, in recent years, membranes have been utilized in various fields such as the production of pure water and drinking water, sewage treatment, solid-liquid separation in septic tanks, removal of suspended solids in industrial wastewater, and filtration of industrial water.

In processing processes using immersion type membranes, one of the important driving factors is the supply of cleaning air. In other words, in the process of separating the solids in the raw water, the membrane is contaminated, in order to prevent contamination, the blowing air to the membrane to remove the foreign matter adhering to the surface of the membrane.

A plurality of aeration tubes are used to supply the cleaning air, and each of the diffusers is installed so as to lie horizontally on the lower side of the separation membrane, and a plurality of aeration holes are arranged in a row toward the separation membrane. Blow out the cleaning air. In general, a plurality of separation membranes are provided and arranged vertically so as to be effectively cleaned by the flow of washing air (i.e., air bubbles) and water thereby ejected from the diffuser. Each diffuser is parallel to the separator and is disposed one directly below each separator.

However, in order to clean the separator using the diffuser as described above, since a diffuser proportional to the number of separators is required, a large number of diffusers are required (see FIG. 1) (in FIG. 1, reference numeral 2 denotes a separator, Reference numeral 4 denotes an diffuser) and thus, manufacturing is difficult and difficult, as well as high manufacturing costs and high costs for maintenance and operation.

In addition, the solids in the raw water can not block the inflow into the diffuser through the diffuser, there was also a problem that the blockage of the pipeline by the inflowing solids proceeds.

It is an object of the present invention to provide a filter for water treatment that can achieve a membrane cleaning of the membrane module more efficiently.

According to an embodiment of the present invention, there is provided a membrane module having a plurality of separation membranes arranged side by side; A filter for water treatment is provided below the separator module and includes a plurality of diffusers arranged to intersect the separator and blow off cleaning air to the separator. In this case, the diffuser may be arranged to be parallel to each other and orthogonal to the separator.

The diffuser has a plurality of diffusers having a circular cross section and in which cleaning air is blown out. The diffuser of the diffuser is divided into left and right with respect to the center line of the diffuser on at least one of the upper and lower portions of the diffuser. May be spaced along the length of the diffuser so as to be positioned.

Here, the diffuser on the left side and the diffuser on the right side may be alternately arranged. In addition, the diffuser of the diffuser may be disposed so as to be located one by one between the separation membrane.

The diffuser is doubled by an outer tube and an inner tube rotatably inserted into the outer tube, and the inner tube and the outer tube have a plurality of diffusers through which cleaning air is blown out. The inner tube is rotated in the outer appearance by the rotating means, the diffuser of the outer appearance can be opened and closed while matching or inconsistent with the diffuser of the inner tube as the inner tube rotates.

Filter for water treatment according to an embodiment of the present invention may further include opening and closing means for opening and closing the diffuser of the diffuser.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

2 is a block diagram showing a water treatment filter according to a first embodiment of the present invention, Figure 3 is a plan view of FIG. As shown in Figs. 2 and 3, the water treatment filter (hereinafter referred to as the first embodiment) according to the first embodiment of the present invention is a treatment tank (shown in Fig. 2) that provides a treatment space for raw water (water before treatment). A membrane module 20 having a rectangular parallelepiped structure provided therein, a separator module 20 installed in an inner space formed by the frame 10 and including a plurality of separators (immersion type separators) 22, the separator membranes And a separator cleaning device for cleaning the separator 22 of the module 20.

Here, the membrane cleaning apparatus includes a plurality of diffusers 30 and cleaning air supply means (not shown) for supplying the cleaning air to the diffusers 30, wherein the diffuser 30 is a separator module. Blowing air is blown off below (20). The separation membrane module 20 removes foreign substances adhering to the surface of the separation membrane 22 by the cleaning action of the air bubbles blown up from the diffuser 30. Separation membrane 22 is disposed vertically at regular intervals to be parallel to each other. This arrangement structure can enhance the cleaning effect due to rising air bubbles than the separation membrane 22 is arranged horizontally.

The diffuser 30 is parallel to each other and laid horizontally, but is arranged to intersect the vertical separation membrane 22. In addition, the diffuser 30 disposed as described above is provided with a plurality of diffusers 32 having a circular cross section and discharging cleaning air at an upper portion thereof facing the separator module 20.

The diffuser 32 of the diffuser 30 is arranged in a line to be spaced apart from each other along the length of the diffuser 30 so as to be located on the center line L of the diffuser 30, and between the separation membranes 32. Are arranged so that each one is directly underneath. That is, the separators 22 are positioned one by one directly between the diffusers 32.

In the first embodiment of the configuration as described above, since the diffuser 30 crosses the separator 22 and the diffuser 32 of the diffuser 30 is positioned one by one between the separator 22, In comparison, the separator 22 can be cleaned with a smaller number of diffusers 30. That is, compared to the previous (parallel structure of the diffuser disposed parallel to the separator and positioned one under each separator), a relatively small number of diffusers 30 can be expected to have the same level of cleaning effect. Therefore, if the diffuser 30 is arranged to be orthogonal to the separator 22, this effect will be further improved.

On the other hand, in the first embodiment, the diffusers 32 of the diffuser 30 have no reason to be located one by one between the separators 22. Therefore, two or more diffusers 32 of the diffuser 30 may be positioned between the separator 22.

Next, another embodiment that is configured similarly to the first embodiment will be described. For reference, other embodiments will be described based on other parts as compared with the first embodiment, and only the corresponding parts will be shown in the drawings.

4 is a plan view showing a main part of a water treatment filter according to a second embodiment of the present invention. As shown in FIG. 4, the filter for water treatment according to the second embodiment of the present invention (hereinafter referred to as the second embodiment) has the same configuration and its effects as compared to the first embodiment. Only the arrangement of the diffuser 132 is somewhat different.

In the second embodiment, the diffuser 132 of the diffuser 130 is divided by the same number on the left and right on the basis of the center line L of the diffuser 130, so that the left and right ones face each other. It is arranged at regular intervals along the length of the diffuser (130).

According to this second embodiment, the cleaning air provided at a constant pressure from the cleaning air supply means is ejected through each of the diffusers 132 of the diffuser 130, wherein the cleaned air is a cross section of the diffuser 130. Because of this circular shape and the diffuser 132 is located on the upper left and right of the diffuser 130, it does not rise vertically but rises in both diagonal directions so as to spread and separate membranes (Fig. 2 and Fig. 3). Remove the foreign substance adhering to the surface. Therefore, in the second embodiment, the spacing of the diffuser 130 may be wider than in the first embodiment, thereby reducing the number of installations.

On the other hand, in the second embodiment, the diffuser 132 may be provided in the same shape at the lower portion opposite the upper portion of the diffuser 130, not the upper portion. Of course, the diffuser 132 of the second embodiment has no reason to be provided only at either one of the upper and lower portions of the diffuser 130, and may be provided on both the upper and lower portions of the diffuser 130.

The main part of the water treatment filter according to the third embodiment of the present invention is shown in FIGS. 5A, 5B and 6. Figures 5a and 5b is a cross-sectional view, Figure 6 is a plan view, as shown here, the water treatment filter (hereinafter referred to as the third embodiment) according to the third embodiment of the present invention compared with the second embodiment In other words, the other configuration and its effects are all the same, only the configuration of the diffuser 230 is different.

The diffuser 230 of the third embodiment is configured to have a dual structure by the inner tube 232 having the inside of the cleaning air transport path and the outer shell 234 surrounding the outer circumference of the inner tube 232, and the outer tube 234 has a peripheral structure. Mounted on a component of the frame (eg, a frame).

The inner tube 232 and the outer tube 234 are composed of straight circular pipes having the same center and having a constant diameter. Accordingly, the inner tube 232 may rotate in the outer tube 234. Of course, if necessary, a guide means may be provided between the inner tube 232 and the outer tube 234 to guide the inner tube 232 so as to accurately rotate the gap, and further, a gap between the inner tube 232 and the outer tube 234. Means for keeping the constant may be provided. For example, the guide means comprises a guide groove provided along the outer circumference of the inner tube 232 (or the outer tube) and a protrusion provided on the inner circumference of the outer tube 234 (or the inner tube) so as to fit into the guide groove. Preferably, at least two guide grooves are disposed to be spaced apart from each other, and at least two guide grooves are disposed to be spaced apart from each other when they are fitted in the guide grooves. Of course, in such a guide means, the projection is to function as a gap maintaining means, if formed to have a curved surface to be in contact with the guide groove can reduce the friction with the guide groove.

Both the inner tube 232 and the outer tube 234 have a plurality of air diffusers 233 and 235 through which the cleaning air is blown out. Since the diffuser 235 (hereinafter referred to as an outer diffuser) of the appearance 234 is provided in the same manner as the diffuser 132 of the second embodiment, detailed description thereof will be omitted. The diffuser 233 (hereinafter referred to as the inner diffuser) of the inner tube 232 is provided to coincide with or disagree with the outer diffuser 235 as the inner tube 232 rotates in correspondence with the outer diffuser 235. That is, the inner diffuser 233 serves as a mediating hole that spatially connects the inside and the outside of the diffuser 230 when coincided with the outer diffuser 235. For reference, the inner diffuser 233 may be formed in the same manner as the outer diffuser 235, but like the outer diffuser 235, the inner diffuser 233 is provided in two lines on one side of the circumference of the inner tube 232. I saw it.

At least one impeller 236 is provided in the inner tube 232, and the impeller 236 serves as a rotating means for rotating the rotatable inner tube 232. The impeller 236 is formed integrally with the inner tube 232 or rotated by cleaning air transported along the inner tube 232. Of course, when the impeller 236 is rotated, the inner tube 232 is also rotated.

According to the third embodiment configured as described above, the inner tube 232 is supplied with the cleaning air from the cleaning air supply means, and rotates with the impeller 236 when the impeller 236 is rotated by the supplied cleaning air. do. When the inner tube 232 starts to rotate, each of the outer diffusers 235 are alternately coincident with each other without being coincident with all of the inner diffusers 233 because the inner diffusers 233 are arranged in a spiral manner. Of course, the cleaning air is blown out alternately in the outer diffuser 235.

The cleaning air ejection structure can reduce energy consumption because the cleaning air is not continuously ejected from both of the external air diffusers 235, but each of the external air diffusers 235 alternately ejects the cleaning air. In addition, since the cleaning air is ejected periodically from the viewpoint of any one of the external diffusers 235, the size of the air bubbles becomes larger, and turbulence around the separator (refer to reference numeral 22 in FIG. 2). ) Can be generated to ensure an excellent cleaning effect.

In addition, when the separation membrane is not cleaned, if the outer diffuser 235 is inconsistent with the inner diffuser 235, the outer diffuser 235 is closed, and solids in the raw water are discharged through the diffuser 233 and 235. It can be seen that the effect can be prevented from flowing into the diffuser 230. According to this, it can be seen that the inner tube 232 functions as an opening and closing means for opening and closing the outer diffuser 235.

On the other hand, according to the drawings, the third embodiment is shown that the inner diffuser 233 is two rows, the inner diffuser 233 may be reduced by one, or may have a slot shape.

7 is a plan view showing a main part of the water treatment filter according to a fourth embodiment of the present invention. As shown in FIG. 7, the water treatment filter (hereinafter referred to as the fourth embodiment) according to the fourth embodiment of the present invention has all the same components and effects as compared to the second embodiment. Only the arrangement of the diffuser 332 is somewhat different.

The fourth embodiment is arranged such that the diffuser 332 located on the left side and the right side thereof alternate with each other based on the center line L of the diffuser 330. That is, the diffuser 332 of the fourth embodiment is arranged in a zigzag. In this way, the cleaning air can be ejected in the oblique directions on both sides of the upper side, and since the number of the diffusers 332 is smaller than in the second embodiment, the energy saving effect can be obtained.

On the other hand, the fourth embodiment may be configured based on the third embodiment instead of the second embodiment. Of course, when based on the third embodiment, the outer diffuser (see reference numeral 235 in Figs. 5A, 5B and 6) is arranged in a zigzag.

The present invention has been described above, but the present invention is not limited to the embodiments disclosed in the present specification and the accompanying drawings, and those skilled in the art without departing from the technical spirit of the present invention (a general knowledge in the technical field to which the present invention belongs). Can be variously modified.

1 is a block diagram showing a general water filter.

2 is a block diagram showing a water treatment filter according to a first embodiment of the present invention.

3 is a plan view of FIG. 2.

4 is a plan view showing a main part of a water treatment filter according to a second embodiment of the present invention.

5A and 5B are cross-sectional views showing main parts of a water treatment filter according to a third embodiment of the present invention.

6 is a plan view showing a main part of the water treatment filter according to a third embodiment of the present invention.

7 is a plan view showing a main part of the water treatment filter according to a third embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10 frame 20 separator module

22: separator 30,130,230,330: diffuser

32,132,233,235,332: diffuser 232: inner tube

234: appearance 236: impeller

Claims (8)

A membrane module having a plurality of membranes erected side by side; At the same time parallel to each other below the separation membrane module, and arranged to intersect the separation membrane and includes a plurality of diffuser for blowing the cleaning air to the separation membrane, The plurality of diffusers have a circular cross section and each has a plurality of diffusers through which cleaning air is blown out, The diffusers of each diffuser are spaced along the length of the diffuser so that at least one of the upper and lower portions of the diffuser is located at right and left on the center line of the diffuser. A filter for water treatment, wherein the appliance and the diffuser on the right side are alternately arranged. The method according to claim 1, And said diffusers are arranged to be orthogonal to said separator. delete delete delete The method according to claim 1, The diffusers of each diffuser are arranged such that the separator is positioned directly between each diffuser. A membrane module having a plurality of membranes erected side by side; At the same time parallel to each other in the lower side of the separation membrane module, and arranged to intersect with the separation membrane and is composed of a double by a cylindrical inner tube and a cylindrical inner tube rotatably inserted into the outer shell, respectively, the air diffuser in which the cleaning air is ejected in the inner and outer surfaces A plurality of diffusers, wherein the diffuser of the inner tube and the diffuser of the outer are positioned to correspond to each other, and a plurality of diffuser pipes for ejecting cleaning air to the separator; Rotating means for rotating each of the inner tube in the outer shell includes an impeller provided to rotate with the inner tube by the cleaning air flowing along the inner tube in the inner tube, the diffuser of the outer tube is rotated the inner tube As it coincides with or disagrees with the machinery of the inner tube, The diffusers of each of the exteriors are spaced along the length of the diffuser so as to be located on at least one of the upper and lower portions of the exterior and divided left and right with respect to the center line of the diffuser. The right diffuser of the appearance and the filter for water treatment disposed alternately. The method according to claim 1, Filter for water treatment further comprises opening and closing means for opening and closing the diffusers of each diffuser.

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