KR101136025B1 - Membrane module - Google Patents

Abstract

The filtration membrane module according to the present invention is a filtration membrane module including a flat frame having a slit channel formed on the surface thereof, and a filtration membrane attached to the surface of the frame, wherein the frame is filtered from the filtration membrane and entered into the channel. A suction collecting port for receiving negative pressure is provided to supply the treated water to the outside, and the channels are concave on the surface of the frame, and convex portions are formed between the channels, and the filtration membrane is fixed at the edge of the frame. And fixed to one of the convex portions formed between the channels so as to divide the space in which the negative pressure is applied.

Description

Filtration membrane module {MEMBRANE MODULE}

The present invention relates to a filtration membrane module, and more particularly, to a filtration membrane module in which a flat membrane-type filtration membrane used for water treatment is modularized together with a frame.

Fine pores are formed in the filtration membrane used for water treatment to filter contaminants and pass only clean water. Among these filtration membranes, the flat membrane is a membrane formed in a planar or sheet form.

The filtration membrane module is modularized by installing the flat membrane-shaped filtration membrane in a flat frame. The frame supports the filtration membrane, and a flow path is formed to supply the treated water that has passed through the filtration membrane to the outside.

The water treatment apparatus which mounts several of these filtration membrane modules on a support base and installs them in a tank containing contaminated water and sucks the treated water passing through the filtration membrane through the frame of the filtration membrane module to obtain the treated water from which contaminants have been removed is generally used. come.

Republic of Korea Utility Model No. 0241540 discloses a filtration membrane module according to the prior art as described above.

On the support (frame, 110) of the filtration membrane module according to the prior art, a plurality of oil pipes 111 are formed vertically long in the inside so that the treated water filtered through the flat membrane 130 can be discharged through the water collecting port 143. do.

The suction pump is installed in the water treatment device 1 so as to suck the purified water through the water collecting port 143. At this time, since the oil pipe 111 is formed to be vertically long, the closer to the water collecting port 143, the more strongly the vacuum is applied. do. As a result, a pressure difference occurred in each portion of the flat membrane 130 surface.

In the above-described conventional technique, the damping chamber 140`a has been intended to relieve some of these pressure differences, but the area of the oil pipes 111 covered by one catchment 143 is large and the pressure applied according to the hydraulic pressure distribution may be fluid. There was a problem that the pressure difference can still occur.

In addition, a method of installing two catches 143 on the support 110 is generally used. In this case, the pressure applied to the oil pipe 111 of the central part farthest from each catch 143 is very high depending on the situation. There was a problem that it could be lowered.

The present invention is to solve the above problems, an object of the present invention is to provide a filtration membrane module configured to minimize the pressure difference applied to each part of the filtration membrane.

The filtration membrane module according to the present invention for solving the above problems, the plate-shaped frame is formed with a slit channel on the surface; A filtration membrane module comprising: a filtration membrane attached to a surface of the frame, wherein the frame is provided with a suction collecting port that takes a negative pressure to supply the treated water filtered out of the filtration membrane and introduced into the channel to the outside, and the channels are the A concave portion is formed on the surface of the frame so that a convex portion is formed between the channels, and the filtration membrane is fixed to one of the fixing portion at the edge of the frame and the convex portion formed between the channels and the negative pressure is applied to the space. It is characterized by dividing.

In the filtration membrane module according to the present invention, the filtration membrane is fused and fixed to the frame.

In addition, the filtration membrane module according to the present invention is characterized in that the fixing part of the rim side in which the filtration membrane is fusion-fixed to the frame is formed in the inner and outer fixing part spaced apart from each other by a predetermined distance.

In addition, the filtration membrane module according to the present invention is characterized in that the fixing portion of the convex portion at which the filtration membrane is fusion-fixed to the frame is formed of a first fixing part and a second fixing part spaced apart from each other by a predetermined interval.

In addition, in the filtration membrane module according to the present invention, at one end of the channels on the surface of the frame, a confluence channel is formed at a right angle with the channels so as to join the treated water flowing through the channels. It is done.

In addition, the filtration membrane module according to the present invention is characterized in that one of the convex portions to which the filtration membrane is fixed extends toward the edge so that the confluence flow path is bisected.

In addition, in the filtration membrane module according to the present invention, two suction catching ports are installed at both corners of the frame so that the space for receiving the negative pressure divided by a portion where the filtration membrane is fixed to the frame is one at each suction catching port. Characterized in that arranged to correspond.

In addition, the filtration membrane module according to the present invention, the channels are formed on both sides of the frame, respectively, in the frame, the collection oil to collect the treated water flowing in each of the channels of the both sides to one place to distribute it to the suction collecting port The furnace is formed.

In addition, the filtration membrane module according to the present invention, the channels are vertically extended along the surface of the frame, the convex portion is formed to extend up and down along the surface of the frame, the portion where the filtration membrane and the rim is fixed The channel and the convex portion are formed in a rectangular band shape, and a portion in which one of the filter membrane and the convex portion is fixed is formed in the rectangular band shape. It is formed to cross the, characterized in that for dividing the inner space of the fixing portion formed in the band shape of the square.

According to the filtration membrane module according to the present invention as described above, since the space for the negative pressure is divided, the pressure difference according to the negative pressure portion of the filtration membrane and the channel is minimized, so that the pressure is uniform, and thus the efficiency and durability of the filtration membrane module can be improved. It works.

1 is a perspective view showing a filtration membrane module according to the present invention.
Figure 2 is an exploded perspective view showing a filtration membrane module according to the present invention.
Figure 3 is a front view showing a frame of the filtration membrane module according to the present invention.
4 is a cross-sectional view showing a frame of the filtration membrane module according to the present invention, taken along line IV-IV of FIG.
5 is a cross-sectional view showing a frame of the filtration membrane module according to the present invention, taken along the line VV of FIG.
Figure 6 is a front view showing a frame of the filter membrane module according to the present invention, it shows a portion where the frame and the filter membrane is coupled.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the filtration membrane module 1 according to the present invention will be described in detail.

1 is a perspective view showing a filtration membrane module 1 according to the present invention. As shown in FIG. 1, the filtration membrane module 1 according to the present invention has a flat membrane-shaped filtration membrane 21 and a plate member 22 attached to a surface of the frame 10 having a flat plate shape.

A handle 5 is installed at the center of the upper portion of the frame 10 shown in FIG. 1. The handle 5 is for allowing the installer to lift the frame 10 by hand so that the filter membrane module 1 can be easily mounted when the filter membrane module 1 is mounted on the support of the water treatment apparatus.

On both sides of the handle (5) is provided with one suction collecting port (3) on the outer side of the frame (10). It is a passage through which the treated water filtered through the filtration membrane 21 is discharged to the outside through the suction water collecting port 3.

2 is an exploded perspective view showing the frame 10, the filtration membrane 21 and the plate member 22 of the filtration membrane module 1 according to the present invention. As shown in FIG. 2, the filtration membrane 21 and the plate member 22 are installed on both outer surfaces of the frame 10, and the plate member 22 is interposed between the filter membrane 21 and the frame 10.

The filtration membrane 21 filters the contaminants contained in the contaminated water and passes only the treated clean water to the frame 10 side. At this time, the clean water is passed through the plate member (22).

3 is a front view showing a frame 10 of the filtration membrane module 1 according to the present invention, and FIGS. 4 and 5 are sectional views showing the frame 10 of the filtration membrane module 1 according to the present invention.

3 to 5, the flow paths 17 for inducing the treated water passing through the filtration membrane 21 to the suction collection port 3 are formed on the surface of the frame 10 of the filtration membrane module 1 according to the present invention. , 14a, 14b, 19, 4) are formed.

The outermost portion 13 of the frame 10 is formed. The edge portion 13 has a shape of a substantially hollow rectangle. The filtration membrane 21 and the plate member 22 are attached to the edge portion 13, which will be described later with reference to FIG. 6.

Inward of the rim 13 are several slit-shaped channels 17 arranged vertically. As shown in FIG. 4, the channel 17 is a portion recessed inwardly of the frame 10 so as to have a step with the edge portion 13. The channel 17 is disposed so as to occupy most of the center portion of the frame 10 so as to correspond to the entire portion of the filtration membrane 21.

Since the channel 17 is not formed and protrudes relatively convexly, the convex portion 15 is formed as a convex portion 15. The convex portion 15 is also vertically formed to correspond to the shape of the channel 17. The channel 17 is also formed on the opposite surface of the frame 10 of the convex portion 15 protruding in this way, so that the water treatment can be simultaneously performed from the filtration membrane 21 provided on both sides of the frame 10.

In the state shown in FIG. 3, the uppermost part of the several channels 17 formed vertically is formed with confluence channels 14a and 14b through which the treated waters flowing through the channels 17 join. The joining flow passages 14a and 14b are formed to be horizontally long and communicate with the plurality of water channels 17. These joining flow passages 14a and 14b are also formed on the opposite surface of the frame 10 like the channel 17.

On the other hand, the convex part 15a which is located in the center among several convex parts 15 arranged in parallel extends to the edge part 13 upward in the state shown in FIG. Accordingly, the confluence portions 15a and the confluence passages 14a and 14b disposed perpendicular to the channel 17 are divided into confluence passages 14a on the left side and the confluence passage 14b on the right side.

A collecting passage 19 is formed above both of the joining passages 14a and 14b. The water channel 17 and the joining flow passages 14a and 14b are formed on both sides of the frame 10, respectively, and the treated water flowing from both sides of the frame 10 meets in the water collecting passage 19. The collecting passage 19 is formed as a hole in the surface of the frame 10 so that the treated water flowing from both sides of the frame 10 can meet at one point. The collecting passages 19 are formed at the lower side of the suction collecting port 3, one on each side of the frame 10.

As shown in FIGS. 3 and 5, after the treated water on both sides of the frame 10 joins in the water collecting passage 19, the water flows to the water collecting hole 4 so that the water can be discharged to the outside through the suction water collecting port 3. Goes. The collecting hole 4 is a flow path formed inside the suction collecting port 3 and connected to the collecting flow path 19 to distribute the treated water to the outside.

In the flat frame 10 having such a flow path structure, the filtration membrane 21 and the plate member 22 are provided on both surfaces thereof, and at this time, the filtration membrane 21 and the plate member 22 are provided. 6 is shown in the fixed part.

In FIG. 6, the scribed portion 21 and the plate-like member 22 have a frame (i.e., the surface of the edge portion 13 and the convex portion 15a positioned at the center thereof) on the same plane without a step. 10) is a fixed part. For fixing, a heat fusion method using a hot melt or the like may be adopted.

The fixing portions 13a and 13b of the edge portion 13 are formed in double. That is, the fixing parts 13a and 13b to which the filtration membrane 21 is fixed to the frame 10 are slightly smaller in size, and have a larger size than that of the inner fixing part 13a forming a rectangular band and larger than the inner fixing part 13a. It is divided into an outer fixing part 13b located at the outer side and fixed in a double. Therefore, between the inner fixing part 13a and the outer fixing part 13b, 13c is that the filtration membrane 21 remains in contact with the frame 10 without being fused and fixed, and the inner fixing part 13a ) And the outer fixing part 13b are fusion-fixed by the filtration membrane 21 and the frame 10 by thermal fusion.

As the fusion fixing is doubled, the cost of fusion fixing is also reduced, and fusion can be more firm. At this time, the width of the inner fixing part 13a and the outer fixing part 13b and the width of the space 13c between the inner fixing part 13a and the outer fixing part 13b are 3: 3: 5. It's good to have a ratio. More specifically, when the width of the inner fixing part 13a is 3mm, the width of the outer fixing part 13b is 3mm, and the width of the interspace 13c is 5mm, the filtration membrane 21 and the frame 10 are more robust. ) Can be fixed.

In addition, the fixing parts 15b and 15c of the convex part 15a also consist of two fixing parts 15b and 15c having a predetermined interval. That is, in the state shown in FIG. 6, the first fixing part 15b positioned on the left side and the second fixing portion 15c positioned on the right side are formed of two pieces. The widths of the first fixing section 15b and the second fixing section 15c are 3 mm as the widths of the inner fixing section 13a and the outer fixing section 13b, and the first fixing section 15b and the second fixing section 15c. The space between the gaps is also 5mm. Both ends of the first fixing part 15b and the second fixing part 15c extend to the upper and lower ends of the inner fixing part 13a, respectively.

Thus, when the rim side of the filtration membrane 21 is fixed to the rim 13 and the center side to the convex portion 15a, the space where the negative pressure generated through the suction water collecting port 3 acts is left and right as shown in FIG. Are bisected into

Accordingly, in the state shown in FIG. 6, the suction suction port 3 on the left side covers the space on the left side of the divided space, and the suction suction port 3 on the right side covers the space on the right side of the divided space.

When the space in which the negative pressure acts is divided into two parts, the pressure is acted independently, so the space itself in which the pressure difference can be generated is divided in half. Therefore, since the space becomes smaller, the possibility of pressure nonuniformity is also reduced. In addition, it is also possible to prevent the upper portion of the filtration membrane 21 from being deformed or folded under pressure.

10 frames 17 channels
15 Convex 13 Border
21 Membrane 3 Suction catch
19 Collection Euro 4 Collection

Claims (9)

A slit-shaped channel formed on the surface thereof, and a suction collecting port for receiving negative pressure to supply the treated water introduced into the channel to the outside, and having a convex portion formed between the channels; And
And a filtration membrane configured to be fusion-fixed to a fixing portion formed at any one convex portion dividing a space in which the negative pressure is applied among the edge-side fixing portion and the convex portions of the frame to filter contaminants.
The frame-side fixing part and the fixing part of the convex part of the frame are each formed of two fixing parts which are fused with the filtration membrane at regular intervals from each other,
The suction catcher is installed on each corner of the frame, respectively, the space for receiving the negative pressure divided by the portion of the filter membrane is fixed to the frame, the filter membrane module, characterized in that arranged to correspond to the suction catcher, respectively. delete delete delete The method of claim 1,
At one end of the channels on the surface of the frame is formed a confluence flow channel disposed at right angles with the channels to communicate with the treated water flowing through the channels. The method of claim 5, wherein
One of the convex portions to which the filtration membrane is fixed extends toward the edge so that the confluence flow path is bisected. delete The method of claim 1,
The channels are formed on both sides of the frame,
In the frame,
A filtration membrane module, characterized in that the collecting flow channel is formed to collect the treated water flowing in each of the two channels of the water in one place and to distribute it to the suction collection port. The method of claim 1,
The channels extend vertically along the surface of the frame, so that the convex portion also extends vertically along the surface of the frame,
The filtration membrane and the portion where the rim is fixed are formed in a rectangular band shape so that the channel and the convex part are located inside the rectangular band shape.
The portion to which one of the filtration membrane and the convex portion is fixed is formed to cross the inner space of the fixing portion formed in the rectangular band shape, and bisects the inner space of the fixing portion formed in the rectangular band shape. Filtration membrane module.

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