KR20120124895A - Membrane cleaning apparatus for submerged flat membrane module used for sewage and wastewater treatment - Google Patents

Abstract

PURPOSE: A membrane washing device of a submerged type flat membrane module for sewage-wastewater treatment is provided to wash the surface of a membrane when a flat membrane module is submerged in a membrane separating bath. CONSTITUTION: A membrane washing device of a submerged type flat membrane module for sewage-wastewater treatment includes a plurality of washing members(40), a rod-shaped upper connecting bar(50), a lower connecting bar(50'), and a driving unit. The washing members are in the shape of rods, and the thicknesses of the washing members correspond to the gaps of flat membrane cartridges(20). The washing members are vertically installed between the flat cartridges. Both end parts of the washing members are protruded from the upper and lower parts of the flat membrane cartridges. The upper connecting bar and the lower connecting bar are combined with the upper and lower end parts of the washing members. The driving unit transfers power to the upper connecting bar and the lower connecting bar. The connecting bars linearly move to the width direction of the flat membrane cartridges, and the washing members wash the membrane surfaces of the flat membrane cartridges.

Description

Membrane cleaning device for immersion type flat membrane module for wastewater treatment {MEMBRANE CLEANING APPARATUS FOR SUBMERGED FLAT MEMBRANE MODULE USED FOR SEWAGE AND WASTEWATER TREATMENT}

The present invention relates to an apparatus for cleaning the membrane surface of the immersion flat membrane module, which is a wastewater treatment and reuse device.

Wastewater, such as industrial wastewater, domestic sewage, and agricultural and livestock wastewater, has to be purified and drained to a certain level or less through a purification facility, and various wastewater treatment and reuse devices are used for this purpose.

The immersion type membrane separation device, which is one of wastewater treatment and reuse devices, is generally provided with a membrane separation tank in which wastewater is introduced and treated, an immersion type flat membrane module deposited and deposited inside the membrane separation tank, and installed on the inner bottom surface of the membrane separation tank. It is composed of an diffuser for supplying air to the submerged flat membrane module.

The submerged flat membrane module includes a cartridge frame opened up and down, and a plurality of flat membrane cartridges inserted into and fixed at predetermined intervals inside the cartridge frame to filter and separate foreign substances contained in the wastewater.

Referring to Figure 1, first, the waste water stored in the raw water tank (1) is transferred to the membrane separation tank (6) through the raw water transfer pipe (2). The conveyed waste water is immersed flat membrane module 7 installed in the membrane separation tank 6 by operation of the suction pump 9 installed on the treated water transfer pipe 8, specifically, each flat membrane cartridge provided with a filtration membrane. Forced suction treatment through, and the sucked treatment water is collected into the treatment tank 10 through a nozzle provided on the flat membrane cartridge.

On the other hand, waste water has various viscosities according to its properties, so when filtration through a flat membrane, fine foreign matter or viscous material clings to the membrane surface and membrane clogging proceeds, so that the filtration efficiency gradually decreases as the treatment time passes. In order to solve this problem, the diffuser 5 is forcibly supplied to the lower part of the submerged flat membrane module 7 so as to prevent foreign matter from sticking to the membrane surface of the flat membrane cartridge, and the air supply pipe 4 is blown by the blower 3. To force air into the diffuser 5 through the) to remove foreign substances adhering to the membrane surface of the flat membrane cartridge when bubbles discharged from the diffuser 5 rise from the lower part of the membrane separation tank 6. Doing.

However, air bubbles do not wash the surface of the membrane smoothly. If the membrane is blocked after the treatment time has elapsed, the membrane separator is stopped and the flat membrane cartridge is removed from the cartridge frame. After cleaning, there is a problem in that the cartridge is mounted inside the frame again and reused.

In addition, if the flat membrane cartridge needs to be removed frequently and washed according to the characteristics of the waste water, the surface of the membrane may be scratched or the surface of the membrane may be damaged due to careless handling. There is a problem that must be handled.

The present invention for solving the above problems, by installing a cleaning member, such as a brush or a sponge between the flat membrane cartridges constituting the flat membrane module and the flat membrane module membrane separation by linearly reciprocating a certain section in the width direction of the flat membrane cartridge It is an object of the present invention to provide a membrane cleaning apparatus of a submerged flat membrane module for wastewater treatment, which has a new structure that allows the membrane surface to be cleaned while being deposited inside the tank.

In order to achieve the above object, the present invention, the cartridge frame which is installed up and down to be installed in the membrane separation tank in which the waste water treatment is performed, and the foreign matter contained in the waste water is inserted into and fixed at regular intervals inside the cartridge frame In the washing apparatus for cleaning the membrane surface of the immersion type flat membrane module consisting of a plurality of flat membrane cartridge to be separated by filtration, it is formed in a rod shape having a thickness corresponding to the interval of the flat membrane cartridge, both ends of the flat membrane cartridge, A plurality of cleaning members installed vertically between the flat membrane cartridges to protrude downward; An upper connecting bar and a lower connecting bar having a rod shape installed in a direction orthogonal to the width direction of the flat membrane cartridge by being coupled to the upper and lower portions of the washing member, respectively; And the upper connection bar and the lower connection bar linearly reciprocate a predetermined section in the width direction of the flat membrane cartridge to transfer power to the upper connection bar and the lower connection bar so that the cleaning member can wash the membrane surface of the flat membrane cartridge. It provides a membrane cleaning device of the immersion type flat membrane module for wastewater treatment, characterized in that it comprises a drive means.

In addition, the present invention, the drive means, a first sprocket comprising a drive sprocket which receives power from the drive unit and a first driven sprocket which is constructed while maintaining a constant distance in the width direction of the flat membrane cartridge from the drive sprocket Drive means, second drive means comprising a second driven sprocket and a third driven sprocket which are arranged while maintaining a predetermined distance in the vertical direction from the drive and the first driven sprocket, respectively, and the drive sprocket, the first and the second And a roller chain connected between the third driven sprockets to provide a membrane cleaning device for an immersion type flat membrane module for wastewater treatment.

In addition, the present invention, the roller chain, the first driving means and the second driving means is connected to form a trajectory intersecting in the "X" shape so that the first driving means and the second driving means rotate in opposite directions to each other. It provides a membrane cleaning device of the submerged flat membrane module for wastewater treatment, characterized in that configured to.

In addition, the present invention provides a membrane cleaning device for immersion flat membrane module for wastewater treatment, characterized in that the driving means is provided in pairs at positions facing each other about the immersion flat membrane module.

In addition, the present invention is fixed to the two ends of the upper connection bar and the lower connection bar, respectively, the fixing portion is formed, the fixing unit is a membrane cleaning device for immersion flat membrane module for wastewater treatment, characterized in that coupled to each of the pair of roller chains To provide.

In addition, the present invention provides a membrane cleaning device for immersion flat membrane module for wastewater treatment, characterized in that the drive unit is an electric motor or a pneumatic cylinder.

In addition, the present invention provides a membrane cleaning device for the immersion flat membrane module for wastewater treatment, characterized in that a timer is provided in the driving unit to set the operation cycle of the membrane cleaning device according to the properties of the wastewater.

According to the present invention, since the membrane module can wash the surface of the membrane in the state of being deposited inside the membrane separation tank, there is no need to stop the operation of the membrane separation device for cleaning, so that the wastewater treatment process can be continuously performed. There is this.

In addition, since the flat membrane cartridge does not need to be separated from the cartridge frame for cleaning, problems such as drying or breaking of the membrane during the cleaning process can be prevented in advance, thereby extending the life of the wastewater treatment module.

1 is a block diagram of a wastewater treatment process using an immersion type membrane separation device,
Figure 2 is a perspective view showing a coupling structure of the washing member, the upper and lower connection bars and the immersion type flat membrane module of the membrane cleaning apparatus according to the present invention,
Figure 3 is a partially cutaway perspective view showing the overall configuration of the membrane cleaning apparatus according to the present invention,
Figure 4 is a block diagram showing the connection structure of the drive sprocket, the driven sprocket and the roller chain of the membrane cleaning device according to the present invention,
5 is a view showing an operating state of the cleaning member of the membrane cleaning device according to the present invention,
6 is a view illustrating a coupling state of the sprocket and the roller chain and the upper connection bar of the membrane cleaning apparatus according to the present invention,
Figure 7 is a view illustrating the shape of the fixing portion of the upper and lower connection bar of the membrane cleaning apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a general configuration of the wastewater treatment process using a conventional immersion membrane separation apparatus, Figure 2 is a perspective view showing a coupling structure of the washing member, the upper and lower connection bars and the immersion type flat membrane module of the membrane cleaning apparatus according to the present invention, 3 is a partially cutaway perspective view showing the overall configuration of the membrane cleaning apparatus according to the present invention.

First, as shown in these drawings, looking at the structure of a general immersion type membrane separation device for wastewater treatment, the raw water tank (1), the wastewater is stored from the raw water tank (1) where the waste water is stored through the membrane separation It consists of a membrane separation tank (8), a treatment water tank (10) for receiving and storing (collecting) the treated water separated from the membrane separation tank (8). An immersion type flat membrane module 7 is installed in the membrane separation tank 8, and the immersion flat membrane module 7 has a cartridge frame 30 opened up and down, and a guide groove formed in the cartridge frame 30. 32 is inserted into a fixed interval at a predetermined interval is composed of a plurality of flat membrane cartridge 20 for filtering and separating foreign matter contained in the waste water. The suction pump 9 sucks the wastewater inside the membrane separation tank 8 through the treatment water transfer pipe 8 so that the wastewater can be treated by each flat membrane cartridge 20, and the membrane separation tank 8 An diffuser 5 having a plurality of diffusers 5a formed therein is installed on the inner bottom, and the blower 3 serves to supply air to the diffuser 5 through the air supply pipe 4.

In the general immersion type membrane separation device configured as described above, the air is supplied to the membrane separation tank 8 through the diffuser 5 according to the operation of the blower 3 and the suction pressure according to the operation of the suction pump 9. In the immersion type flat membrane module (7) by the separation of foreign matter contained in the waste water, the filtered water is treated through the treated water transfer pipe (8) through the nozzle (20a) of the upper portion of each flat membrane cartridge (20) Collected into the water tank (10).

Membrane cleaning device of the immersion type flat membrane module for wastewater treatment according to the present invention stops the operation of the membrane separation device for the periodic cleaning of the flat membrane cartridge 20, without having to separate each flat membrane cartridge 20 from the cartridge frame 30 The immersion type flat membrane module (7) to wash the surface of the membrane in the state of being deposited in the membrane separation tank, a plurality of cleaning members 40 and the cleaning member for cleaning the surface of the flat membrane cartridge (20) Upper and lower connection bars by transferring power to the upper connection bar 50 and the lower connection bar 50 'to connect and fix the 40, the upper connection bar 50 and the lower connection bar 50' ( 50, 50 ') and driving means for allowing the fixed cleaning member 40 to be coupled to each other so as to linearly reciprocate a predetermined section in the width direction of the flat membrane cartridge 20 in a state of being in surface contact with the flat membrane cartridge 20. Is done.

As shown in Figures 2 and 3, the cleaning member 40 is formed in a rod shape having a thickness corresponding to the installation interval of the plurality of flat membrane cartridge 20 is fixed to the immersion type flat membrane module (7). For example, in general, each flat sheet cartridge 20 may be installed in the cartridge frame 30 at intervals of about 7 to 15 mm, and the cleaning member 40 may also be installed at about 7 to 7 intervals of each flat membrane cartridge 20. To form a thickness of 15mm it is possible to effectively wash the film surface of each flat membrane cartridge (20).

The washing member 40 having a rod shape is vertically installed between the flat membrane cartridges 20 so that both ends protrude upward and downward of the flat membrane cartridge 20.

The cleaning member 40 may be formed by a brush or a sponge. In addition, various materials or shapes capable of effectively cleaning fine foreign substances attached to the membrane surface without damaging the membrane surface of the flat membrane cartridge 20 (eg For example, a square pillar shape, a cylindrical shape, etc.) can be used as a matter of course.

The upper connection bar 50 and the lower connection bar 50 'are also formed in a rod shape, and are installed in a direction orthogonal to the width direction of each flat membrane cartridge 20.

The upper connection bar 50 is located at the top of the flat membrane cartridge 20 to be coupled to the upper end of each cleaning member 40, the lower connection bar 50 'can be coupled to the lower end of each cleaning member 40. Located in the lower portion of the flat cartridge 20 so that.

Each of the cleaning members 40 is fixedly coupled to the upper connection bar 50 and the lower connection bar 50 ', respectively, so that both ends operate as one body at all times. The coupling method of the cleaning member 40 and the upper and lower connection bars 50 and 50 'may be applied to various known methods.

In the driving means, the upper connecting bar 50 and the lower connecting bar 50 'linearly reciprocate a predetermined section in the width direction of the flat membrane cartridge 20 so that the cleaning member 40 cleans the membrane surface of the flat membrane cartridge 20. It serves to transfer power to the upper connecting bar 50 and the lower connecting bar 50 '.

According to a preferred embodiment of the present invention, the driving means includes a drive unit 90 for providing power, a drive sprocket 60a receiving power from the drive unit 90, and a flat cartridge cartridge from the drive sprocket 60a. The first drive means consisting of the first driven sprocket 60b which is arranged while keeping a constant distance in the width direction of 20), and the constant distance is maintained in the vertical direction from the drive and the first driven sprockets 60a and 60b, respectively. Between the second drive means consisting of the second driven sprocket 60c and the third driven sprocket 60d, and the drive sprocket 60a, the first, second and third driven sprockets 60b, 60c, 60d It consists of a roller chain (80) connected to.

The drive unit 90 provides a rotational force to the drive sprocket 60a, and may use an electric motor or a pneumatic cylinder.

As shown in FIG. 3, the driving means is paired at the left and right sides of the submerged flat membrane module 7, that is, at both end sides of the upper and lower connection bars 50 and 50 ′. It is preferable to install.

In this case, the driving means maintains a constant distance in the width direction of the flat sprocket cartridge 20 from the drive sprockets 60a and 60'a receiving power from the drive unit 90 and the drive sprockets 60a and 60'a. The first driving means composed of the first driven sprockets 60b and 60'b which are built up and the drive and the first driven sprockets 60a, 60'a, 60b and 60'b are respectively maintained at a predetermined distance in the vertical direction. Second drive means consisting of second driven sprockets 60c, 60'c and third driven sprockets 60d. 60'd, and drive sprockets 60a, 60'a, first, second and It consists of a pair of roller chains 80, 80 'connected between the third driven sprockets 60b, 60'b, 60c, 60'c, 60d, 60'd.

The cartridge frame 30 and / or the membrane separation tank 6 may be additionally provided with additional fixing means or brackets so that the driving means may be installed.

Figure 4 is a block diagram showing the connection structure of the drive sprocket 60a, driven sprockets 60b, 60c, 60d and the roller chain 80 of the membrane cleaning apparatus according to the present invention.

As shown in Figs. 3 and 4, the roller chains 80 and 80 'are arranged between the first drive means (drive sprocket and first driven sprocket) and the second drive means (second driven sprocket and third sprocket). Connect so as to form a trajectory intersecting with "X" shape. The first drive means (drive sprocket and first driven sprocket) and the second drive means (second driven sprocket and third sprocket) rotate in opposite directions by the connection structure of the roller chains 80 and 80 '. Done. Referring to FIG. 4, when the driving sprocket 60a rotates clockwise and proceeds toward A, the first driven sprocket 60b rotates in the same clockwise direction in association with the second driven sprocket 60c and Since the third driven sprocket 60d is rotated counterclockwise, the first drive means (drive sprocket and first driven sprocket) and the second drive means (second driven sprocket and third sprocket) This results in rotation in opposite directions. When the drive sprocket 60a rotates counterclockwise and travels toward B, the second driven sprocket 60c and the third driven sprocket 60d rotate in the clockwise direction.

6 is a view illustrating a coupling state of the drive sprocket 60a and the roller chain 80 and the upper connection bar 50 of the membrane washing apparatus according to the present invention, Figure 7 is an upper portion of the membrane washing apparatus according to the present invention And the shape of the fixing parts 50a and 50'a of the lower connection bars 50 and 50 '.

The upper connecting bar 50 and the lower connecting bar are formed in a section of the roller chains 80 and 80 'that form a horizontal straight section (section between the driving sprocket and the first driven sprocket, section between the second driven sprocket and the third sprocket). Both ends of 50 'are respectively joined.

Fixing portions 50a and 50a 'are formed at both ends of the upper connection bar 50 and the lower connection bar 50' to couple to the horizontal straight sections of the roller chains 80 and 80 ', respectively.

Fixing portion (50a, 50a ') may be of the same shape and structure as shown in (a) or (b) shown in Figure 7, in addition to the fixing means having a variety of known shapes and structures can be applied.

As both ends of the upper connecting bar 50 and the lower connecting bar 50 'are coupled and fixed to the straight section of the first driving means and the straight section of the second driving means, respectively, the drive sprockets 60a and 60'a. When the clockwise rotation is performed, the upper connecting bar 50 and the lower connecting bar 50 'linearly move in the A direction together in each straight section of the first and second driving means, and drive sprockets 60a and 60. When 'a) rotates in the counterclockwise direction, the upper connecting bar 50 and the lower connecting bar 50 are linearly moved in the B direction together in each straight section of the first and second driving means (Fig. 4).

As such, when the driving sprockets 60a and 60'a, which receive power from the driving unit 90, are periodically rotated in the clockwise or counterclockwise direction, they are coupled to the roller chains 80 and 80 'and interlocked therewith. The upper connecting bar 50 and the lower connecting bar 50 ′ are operated to linearly reciprocate a predetermined section S-S ′ in the width direction of the flat membrane cartridge 20, as shown in FIG. 5. The cleaning member 40 fixed to the upper connection bar 50 and the lower connection bar 50 'is cleaned while linearly reciprocating the membrane surface in contact with the flat membrane cartridge 20.

On the other hand, the waste water has various viscosities depending on the properties, so the membrane blockage of the flat membrane cartridge 20 during filtration is different, the cleaning cycle of the flat membrane cartridge 20 also needs to be changed. To this end, by additionally installing a timer in the drive unit 90, it is possible to set the operation cycle of the drive unit 90, that is, the operation cycle of the membrane cleaning device according to the properties of the waste water.

As described above, although some embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that the present invention may be modified without departing from the principles or spirit of the present invention. You will know. Therefore, the scope of the present invention is not limited to the described embodiments, and various modifications and variations can be made without departing from the spirit and scope of the present invention, and such modifications or variations will be said to belong to the scope of the present invention. .

1: source tank 2: source transfer pipe
3 .: blower 4: air supply line
5: diffuser 6: membrane separator
7: Immersion flat membrane module 8: Treatment water transfer pipe
9: suction pump 10: treatment tank
20: flat cartridge 30: cartridge frame
40: cleaning member 50: upper connecting bar
50 ': Lower connection bar
60a, 60'a: drive sprocket
60b, 60'b: first driven sprocket
60c, 60'c: second driven sprocket
60d, 60'd: third driven sprocket
80, 80 ': roller chain 90: drive part

Claims (7)

Immersion type consisting of a cartridge frame which is installed inside the membrane separation tank where the waste water is treated, and a plurality of flat membrane cartridges which are inserted and fixed at regular intervals inside the cartridge frame to filter and separate foreign substances contained in the waste water. In the cleaning device for cleaning the membrane surface of the flat membrane module,
A plurality of cleaning members which are formed in a rod shape having a thickness corresponding to the interval of the flat membrane cartridges and are vertically installed between the flat membrane cartridges so that both ends protrude upward and downward of the flat membrane cartridges;
An upper connecting bar and a lower connecting bar having a rod shape installed in a direction orthogonal to the width direction of the flat membrane cartridge by being coupled to the upper and lower portions of the washing member, respectively; And
The upper connecting bar and the lower connecting bar is a drive for transmitting power to the upper connecting bar and the lower connecting bar so that the cleaning member can wash the membrane surface of the flat membrane cartridge by linearly reciprocating a predetermined section in the width direction of the flat membrane cartridge. Membrane cleaning apparatus of the submerged flat membrane module for wastewater treatment, comprising a means. The method according to claim 1,
The driving means includes:
First drive means each comprising a drive sprocket receiving power from a drive unit, a first driven sprocket which is constructed while maintaining a constant distance in the width direction of the flat membrane cartridge from the drive sprocket, and the drive and the first driven sprocket, respectively. It consists of a second drive means consisting of a second driven sprocket and a third driven sprocket which is kept at a constant distance in the vertical direction, and a roller chain connected between the drive sprocket, the first, second and third driven sprocket Membrane cleaning device of the submerged flat membrane module for wastewater treatment. The method according to claim 2,
The roller chain is connected to form a trajectory intersecting an “X” shape between the first driving means and the second driving means so that the first driving means and the second driving means rotate in opposite directions to each other. Membrane cleaning device for immersion flat membrane module for wastewater treatment. The method according to claim 2,
The driving means is a membrane cleaning device of the immersion flat membrane module for wastewater treatment, characterized in that provided in a pair in a position opposite to each other about the immersion flat membrane module. The method of claim 4,
Fixing parts are formed at both ends of the upper connection bar and the lower connection bar, respectively, and the fixing part is a membrane cleaning device for immersion type flat membrane module for wastewater treatment, characterized in that coupled to the pair of roller chains, respectively. The method according to claim 2,
The driving unit is a membrane cleaning device of the immersion flat membrane module for wastewater treatment, characterized in that the electric motor or pneumatic cylinder. The method according to claim 2,
Membrane cleaning apparatus of the immersion flat membrane module for wastewater treatment, characterized in that a timer is provided in the drive unit to set the operation cycle of the membrane washing apparatus according to the characteristics of the wastewater.

Images