KR102059012B1 - Water treatment apparatus using flexible membrane module - Google Patents

Abstract

A water treatment apparatus using a flexible membrane flat membrane module is disclosed. The present invention, the plurality of membrane flat membrane module is installed sealed to the upper surface of the water tank; An air diffuser installed on an upper surface of the water tank so as to be adjacent along the lower side length direction of the membrane flat membrane module; A first horizontal moving apparatus installed adjacent to the upper side of the membrane flat membrane module to horizontally move the upper side of the membrane flat membrane module from side to side; A second horizontal moving device installed adjacent to the lower side of the membrane flat membrane module to horizontally move the lower side of the membrane flat membrane module from side to side; And a driving device interlocked with each other to move the first horizontal moving device and the second horizontal moving device from side to side.
Each of the plurality of membrane flat membrane modules is installed to be zigzag bent in the same direction.

Description

WATER TREATMENT APPARATUS USING FLEXIBLE MEMBRANE MODULE}

The present invention relates to a water treatment apparatus using a flexible membrane flat membrane module, and more particularly, to a flexible membrane flat membrane module capable of maximizing maintenance by air bubbles while zigzag-shaping the membrane shape using a flexible membrane and an operation bar. It relates to the water treatment apparatus used.

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.

In addition, in the case of the conventional flat membrane has a problem that it is difficult to shake off the membrane of the flat membrane standing perpendicular to the diffuser with the air discharged from the diffuser because the internal material of the solid material is embedded in the membrane.

1. Republic of Korea Patent Registration No. 10-372829 (registered February 6, 2003)

An object of the present invention is to solve the above problems, water treatment using a flexible membrane flat membrane module to maximize the cleaning of the air bubble while deforming the shape of the membrane using a flexible membrane and the operation bar to zigzag To provide a device.

Another object of the present invention is to provide a water treatment apparatus using a flexible membrane flat membrane module that can effectively perform backwashing through efficient maintenance cleaning of the membrane flat membrane module.

In order to achieve the above object, the water treatment apparatus using a flexible membrane flat membrane module according to the present invention, the water tank to which the filtered water or the washing water can be filled, for discharging the filtered water stored in the water tank or to fill the water tank with the washing water In the water treatment apparatus using a flexible membrane flat membrane module including an entrance and a support frame for supporting the membrane unit installed on the upper surface of the water tank,

A plurality of membrane flat membrane modules sealed and installed on an upper surface of the water tank; An air diffuser installed on an upper surface of the water tank so as to be adjacent along the lower side length direction of the membrane flat membrane module; A first horizontal moving apparatus installed adjacent to the upper side of the membrane flat membrane module to horizontally move the upper side of the membrane flat membrane module from side to side; A second horizontal moving device installed adjacent to the lower side of the membrane flat membrane module to horizontally move the lower side of the membrane flat membrane module from side to side; And a driving device interlocked with each other to move the first horizontal moving device and the second horizontal moving device from side to side.

Each of the plurality of membrane flat membrane modules is installed to be zigzag bent in the same direction.

The first horizontal moving device, the upper position moving bar which is installed in the transverse direction on the upper side of each membrane flat membrane module; And an upper support rod for longitudinally connecting the upper position moving bars to both sides in the longitudinal direction.

The second horizontal moving device, the lower position moving bar which is installed in the transverse direction on the lower side of each membrane flat membrane module; And a lower support rod connecting the lower position movement bars in both directions in the longitudinal direction.

The first horizontal moving device and the second horizontal moving device may be set to be positioned at different positions from each other by the driving device.

The upper position bar and the lower position bar is characterized in that each has a pair of operation bar structure so that the membrane flat membrane module can be inserted.

The upper position movement bar and the lower position movement bar is characterized in that each has a single operation bar structure which is installed in contact with the membrane flat membrane module.

The membrane flat membrane module comprises: a membrane constituting both outer surfaces facing each other; A support member made of a flexible material embedded in the membrane constituting the outer surfaces; And a plurality of point joining portions formed by pressing and bonding the outer surfaces facing each other at a predetermined point.

The plurality of point junctions are formed to be spaced apart from each other at a predetermined interval.

A flow path is formed between the plurality of point junctions.

It extends from the top to the bottom of the membrane flat membrane module is embedded therein, characterized in that it further comprises a water supply and recovery pipe formed of a flexible material.

According to the present invention, it is possible to maximize the maintenance cleaning by air bubbles while deforming the shape of the membrane into a zigzag using a flexible membrane and the operation bar, through which the backwash of the membrane flat membrane module can be effectively performed.

1 is a plan view of a conventional water purifier.
2A and 2B are perspective views illustrating the operation of the filtration device included in the water purification device shown in FIG.
3 is a perspective view showing a water treatment apparatus using a flexible membrane flat membrane module according to the present invention.
4 is a perspective view showing a membrane unit according to an embodiment of the present invention.
5 is a cross-sectional view of a water treatment apparatus equipped with a membrane unit according to an embodiment of the present invention.
6 is a perspective view showing a membrane unit according to another embodiment of the present invention.
7 is a cross-sectional view of a water treatment apparatus equipped with a membrane unit according to another embodiment of the present invention.
8 is a perspective view of a flexible membrane flat membrane module according to the present invention.
9 is a perspective view of a flexible membrane flat membrane module according to another embodiment of the present invention.

Hereinafter, a water treatment apparatus using a flexible membrane flat membrane module according to various embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

An important feature of the present invention, by using a flexible membrane and the drive means to zigzag the shape of the membrane to maximize the maintenance cleaning by air bubbles, through which the backwash of the membrane flat membrane module can be effectively performed Technology.

Figure 3 is a perspective view showing a water treatment apparatus using a flexible membrane flat membrane module according to the present invention, Figure 4 is a perspective view showing a membrane unit according to an embodiment of the present invention, Figure 5 is an embodiment of the present invention Is a cross-sectional view of a water treatment device equipped with a membrane unit.

As shown in Figures 3 to 5, the water treatment apparatus according to the present invention discharges the filtered water stored in the water tank 10, the water tank 10, or the water tank 10 can be filled with filtered water or washing water. An entrance 11 for filling the washing water, and a support frame 20 for supporting the membrane unit 30 is installed on the upper surface of the water tank (10).

The overall structure of the water treatment device as described above may be variously modified as necessary.

The membrane unit 30 of the present invention includes a plurality of membrane flat membrane modules 31 installed on an upper surface of the water tank 10. In this case, each of the plurality of membrane flat membrane modules 31 is preferably installed to be bent in a zigzag.

That is, the lower portion of each membrane flat membrane module 31 is installed to be sealed to the upper surface of the water tank 10, the upper portion thereof is installed to be supported by the support frame 20.

An diffuser 13 is installed on an upper surface of the water tank 10 in which the membrane flat membrane module 31 is installed, and the diffuser 13 is adjacent along the length of the lower side of the membrane flat membrane module 31. It is preferable to install. The diffuser 13 is connected to the air flow path 15 to eject the air introduced from the outside to the membrane unit 30. The blown air may wash the membrane flat membrane module 31 and at the same time maintain the amount of dissolved water in the water tank in which the water treatment apparatus is installed.

In addition, in order to install the plurality of membrane flat membrane modules 31 to be zigzag bent, the first horizontal moving device 40 is installed on the upper side of the membrane flat membrane module 31, and the lower side of the membrane flat membrane module 31 The second horizontal moving device 50 is installed.

The first horizontal moving device 40 has an upper position moving bar 41 and a plurality of upper position moving bars 41 which are installed in the transverse direction on the upper side of each membrane flat membrane module 31 from both sides in the longitudinal direction. The upper support rod 43 is connected to the long.

In this case, the upper position movement bar 41 has a pair of operation bar structure, the membrane flat membrane module 31 may be configured to be fitted between the pair of operation bar.

In this way, each of the plurality of membrane flat membrane modules 31 is positioned by the upper position moving bar 41 into which they are inserted, and can simultaneously take the same form.

Similarly, the second horizontal moving device 50 has a lower position moving bar 51 installed laterally on the lower side of each membrane flat membrane module 31 and a plurality of the lower position moving bars 51 on both sides. It includes a lower support rod 53 for longitudinally connecting.

In this case, the lower position moving bar 51 has a pair of operating bar structures, and the membrane flat membrane module 31 may be configured to be fitted between the pair of operating bars.

In this way, each of the plurality of membrane flat membrane modules 31 is positioned by the lower positioning bar 51 into which they are inserted, and can simultaneously take the same form.

In such a structure, the first horizontal moving device 40 and the second horizontal moving device 50 may be connected to the driving device 23 to perform translational movement, respectively, and the first horizontal moving device 40 and the second horizontal moving device 50 may be used. Horizontal moving device 50 is preferably set to be located at different positions from each other.

That is, as shown in FIGS. 4 and 5, when the first horizontal moving device 40 pushes and positions the membrane flat membrane module 31 by the driving device 23, the second horizontal moving device 50 is driven. The device 23 is set to pull and position the membrane flat membrane module 31.

In this case, the membrane flat membrane module 31 may be finally bent in a zigzag form.

In addition, it is also possible to change the position between the first horizontal transfer device 40 and the second horizontal transfer device 50 by operating the drive unit 23 in reverse for effective cleaning of the membrane flat membrane module 31. (See Figs. 5A and 5B).

The first horizontal transfer device 40 and the second horizontal transfer device 50 may be installed more according to the overall length of the membrane flat membrane module 31 or the size of the water treatment device, and the zigzag shape at that time is also variously changed. Can be.

Referring to Figure 5, look at the operation of the water treatment apparatus according to the present invention.

(a) First, the first horizontal transfer device 40 is set to push the membrane flat membrane module 31 by the drive device 23, the second horizontal transfer device 50 to pull the membrane flat membrane module 31. do. After that, when the air is blown out through the diffuser 13, the surface of the membrane flat membrane module 31 facing the diffuser 13 is well cleaned, and the plane which is bent from the diffuser 13 is well cleaned. Not done.

(b) After a predetermined time has elapsed, the driving device 23 is operated so that the first horizontal moving device 40 pulls the membrane flat membrane module 31, and the second horizontal moving device 50 moves to the membrane flat membrane module ( 31) to push. Thereafter, when the air is blown out through the diffuser 13, the surface of the membrane flat membrane module 31 facing the diffuser 13 may be washed.

6 is a perspective view showing a membrane unit according to another embodiment of the present invention, Figure 7 is a cross-sectional view of a water treatment device equipped with a membrane unit according to another embodiment of the present invention.

Membrane unit according to another embodiment of the present invention is the same as the configuration and effect of the membrane unit according to an embodiment of the present invention except that the upper position movement bar and the lower position movement bar is composed of one operation bar.

That is, in the membrane unit according to another embodiment of the present invention, when the plurality of membrane flat membrane modules 31 are densely installed by configuring the upper positioning bar 41a and the lower positioning bar 51a as one operation bar. It is used to push or pull the adjacent membrane flat membrane module 31 with one operation bar.

As shown in FIG. 8, the flexible membrane flat membrane module utilized in the present invention has a membrane 110 constituting both outer surfaces facing each other and a membrane 110 constituting both outer surfaces 111 and 113. It includes a support member 120 of a flexible material embedded in the interior.

The membrane 110 is a polytetrafluoroethylene (hereinafter referred to as 'PTFE') membrane or polymer system, which is a very stable compound due to strong chemical bonding of fluorine and carbon among fluorine resins performing surface filtration. Use a membrane.

The support member 120 of the flexible material may be a flexible nonwoven material.

In addition, the membrane flat membrane module 31 according to the present invention includes a plurality of point junctions 130 on both outer surfaces 111 and 113.

The point junction portion 130 is formed by pressing and bonding both outer surfaces 111 and 113 facing each other at a predetermined point.

The joining method may be a variety of methods, for example, a joining method such as a riveting means such as riveting, a sawing method, or a method by ultrasonic or thermal fusion may be used.

In addition, the plurality of point junctions 130 may be formed to be spaced apart from each other at regular intervals, and are formed by physically pressing and bonding both outer surfaces 111 and 113.

When the plurality of point junctions 130 are formed as described above, the outer surfaces 111 and 113 of the membrane 110 are pressed by the point junctions 130, and flow paths are formed between the respective point junctions 130. 135 is formed. Therefore, the filtration water or the washing water may smoothly move through the pores of the support member 120 and the flow path 135.

9 is a perspective view of a flexible membrane flat membrane module according to another embodiment of the present invention.

As shown in FIG. 9, the membrane flat membrane module according to another embodiment of the present invention may have a separate water supply and recovery tube 150 extending from the top to the bottom thereof to be embedded therein. The water supply and recovery pipe 150 is preferably made of a flexible material so that it can be bent freely.

The water supply and recovery pipe 150 is to prevent the supply of water or the recovery of water that is performed at the lower side of the membrane flat membrane module to be made smoothly because it is far from the water supply unit or the recovery unit. Allow recovery.

On the other hand, the present invention is not limited to the above-described embodiment and the accompanying drawings, various modifications and applications that are not illustrated within the scope not departing from the technical spirit of the present invention, as well as the substitution of components and equivalent threading As the examples may be changed, the contents related to the modification and application of the features of the present invention should be interpreted as being included in the scope of the present invention.

10: water tank 11: doorway
13: diffuser 15: air passage
20: support frame 30: membrane unit
31: membrane membrane module 40: the first horizontal transfer device
41: upper position moving bar 43: upper support rod
50: second horizontal moving device 51: lower position moving bar
53: lower support rod 110: membrane
111, 112: Both outer surfaces 120: Support member
130: point junction 135: flow path
140: intermediate member

Claims (9)

delete A water tank through which filtered water or washing water can be filled, an entrance for discharging the filtered water stored in the water tank or filling the water tank with washing water, and a support frame for supporting the membrane unit installed on the upper surface of the water tank. In the water treatment apparatus using a flexible membrane flat membrane module,
A plurality of membrane flat membrane modules sealed and installed on an upper surface of the water tank;
An air diffuser installed on an upper surface of the water tank so as to be adjacent along the lower side length direction of the membrane flat membrane module;
A first horizontal moving apparatus installed adjacent to the upper side of the membrane flat membrane module to horizontally move the upper side of the membrane flat membrane module from side to side;
A second horizontal moving device installed adjacent to the lower side of the membrane flat membrane module to horizontally move the lower side of the membrane flat membrane module from side to side; And
And a driving device interlocked with each other to move the first horizontal moving device and the second horizontal moving device from side to side.
Each of the plurality of membrane flat membrane modules is installed to be zigzag bent in the same direction,
The first horizontal moving device, the upper position moving bar which is installed in the transverse direction on the upper side of each membrane flat membrane module; And an upper support rod for longitudinally connecting the upper position moving bars to both sides in the longitudinal direction.
The second horizontal moving device, the lower position moving bar which is installed in the transverse direction on the lower side of each membrane flat membrane module; And a lower support rod for longitudinally connecting the lower position moving bars in both directions in the longitudinal direction. The method of claim 2,
And the first horizontal moving device and the second horizontal moving device are set to be positioned at different positions from each other by the driving device. The method of claim 2,
The upper position movement bar and the lower position movement bar has a pair of actuating bar structure so that each membrane membrane module can be inserted, characterized in that the flexible membrane flat membrane module water treatment apparatus. The method of claim 2,
The upper position movement bar and the lower position movement bar, each of the water treatment device using a flexible membrane flat membrane module, characterized in that it has a single operation bar structure which is installed in contact with the membrane flat membrane module. The method according to any one of claims 2 to 5,
The membrane flat membrane module,
Membranes constituting both outer surfaces opposite one another;
A support member made of a flexible material embedded in the membrane constituting the outer surfaces; And
And a plurality of point joining portions formed by pressing and bonding the outer surfaces facing each other at a predetermined point. The method of claim 6,
The plurality of point junctions are water treatment apparatus using a flexible membrane flat membrane module, characterized in that formed spaced apart from each other at a predetermined interval. The method of claim 7, wherein
A water treatment apparatus using a flexible membrane flat membrane module, characterized in that a flow path is formed between the plurality of point junctions. The method of claim 6,
A water treatment apparatus using a flexible membrane flat membrane module, characterized in that it further comprises a water supply and recovery pipe is formed in a flexible material extending from the top to the bottom of the membrane flat membrane module.

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