KR20010018394A - Hollow-fiber filter apparatus - Google Patents

Abstract

PURPOSE: A hollow fiber filter is provided to prevent damage and breakage of hollow fiber, thereby improving durability, reliability and washing efficiency by making washing water flown in through a port of a connector permeated all through a hollow fiber uniformly as being flown along the length direction of a tube by a cutoff plate. CONSTITUTION: The filter consists of a connector (20) on which a port (24) connected with a bore (22) is radially formed, wherein the connector (20) is coupled to both sides of outer circumference of a tube (10); a hollow fiber (30) interposed in a bundle so that waste water in the tube (10) is filtered; a seal (40) sealing to inner circumference of the connector (20) and both ends of outer circumference of the hollow fiber (30) so that the waste water flown in the tube (10) passes through the hollow fiber (30); and a cutoff plate (60) formed on inner circumference of the connector (20) so that the washing water does not strike the hollow fiber (30) directly by changing a path of the washing water passing through the port (24), wherein the cutoff plate (60) is formed so that the path of the washing water is changed along the length direction from the port side toward center of the tube (10), and the cutoff plate (60) is formed in an annular form.

Description

Hollow fiber filtration device {HOLLOW-FIBER FILTER APPARATUS}

The present invention relates to a hollow fiber filtration device for purifying wastewater.

Water pollution caused by urban sewage, industrial wastewater, etc. in modern society not only destroys the ecosystem, but also causes serious depletion of industrial and agricultural water and drinking water.

Various physicochemical or biological treatment methods have been proposed and applied in various ways to purify and discharge wastewater to a level that does not pollute the environment. Among them, a hollow fiber filter is used as a method of filtering foreign substances and bacteria by filtration, and when looking at the hollow fiber filtration device, a port smaller than the diameter of a bore is radially formed on the outer periphery of the open pipe. They are each formed, and both ends of the outer circumference of the porous hollow yarn are sealed by hollow fiber in the bore of the tube. At both ends of the outer circumference of the pipe, pipes of another purification treatment facility forming a flow path by screwing caps are respectively piped.

Therefore, when the wastewater is introduced from one side of the pipe, the wastewater passes through the hollow fiber. At this time, the impurities in the wastewater do not penetrate the hollow fiber but are trapped in the hollow fiber or continue to circulate, and the purified water that has passed through the hollow fiber is discharged out of the pipe through the port.

On the other hand, as impurities are trapped in the hollow fiber, the hollow yarns are blocked, which has a problem of lowering the filtration efficiency. Therefore, clean washing water is introduced through the port of the pipe, and washing is performed periodically to remove and remove impurities trapped in the hollow fiber.

However, the hollow fiber filtration device as described above has a problem that the washing water passing through the port of the tube damages and breaks the hollow fiber. In other words, the washing water hits both ends of the hollow yarn at a high flow velocity while passing through a narrow diameter port, and the impact is broken, and both ends of the hollow yarn are broken by the impact. Since the wastewater passes through the broken portion of the hollow yarns, there is a problem that the filtration function of the hollow fiber filtration device is lost. Moreover, since the hollow fiber filtration device which lost its function has to be replaced with a new one, there is a problem in that the maintenance and management costs are increased. In particular, there has been a problem that the economic loss due to the shutdown of the purification treatment facility is increased.

The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a hollow fiber filtration device to improve the durability.

Another object of the present invention to provide a hollow fiber filtration device to improve the washing efficiency.

1 is a perspective view showing a hollow fiber filtration device according to the present invention,

2 is a cross-sectional view showing a hollow fiber filtration device according to the present invention,

3 is a cross-sectional view for explaining the washing of the hollow fiber filtration apparatus according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: tube 20: connector

24: port 30: hollow fiber

40: seal 60: blocking plate

A feature of the present invention for achieving the above object is a connector coupled to both outer periphery of the tube, the bore and the subsequent port is formed radially; A hollow fiber interposed in a bundle to filter the wastewater into the pipe; Seals sealed at both ends of the inner circumference of the connector and the outer circumference of the hollow yarn so that the wastewater flowing into the pipe through the connector passes through the hollow fiber; In the hollow fiber filtration device consisting of a blocking plate formed on the inner circumference of the connector so as not to hit the hollow fiber directly by changing the path of the wash water passing through the port.

In addition, the blocking plate is formed so as to change the path of the washing water in the longitudinal direction from the port toward the center of the tube, the blocking plate is formed in an annular shape.

Hereinafter, preferred embodiments of the hollow fiber filtration apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 is a view showing for explaining the hollow fiber filtration device according to the present invention.

First, referring to Figure 1, the hollow fiber filtration device of the present invention is installed at the rear end of the purification treatment facility is provided with a long and open tube 10, the length of the tube 10 is appropriately You can change it. The connectors 20 are respectively coupled to both outer circumferences of the tube 10, and the outer circumferences of the connector 20 are formed with radially formed bores 22 and the ports 24 leading to the diameters of the ports 24. It is formed smaller than the diameter of (22).

As shown in FIG. 2, a porous hollow fiber 30 capable of filtering wastewater in the inner circumference of the tube 10 is interposed along the length direction in one bundle, and both ends of the hollow fiber 30 are connected to the connector 20. Wastewater flowing into the inner circumference of the air is sealed by a seal 40 so as to pass through the inner hollow of the hollow fiber 30 as a flow path. On both outer circumferences of the connector 20, pipes 52 of still another purification treatment facility forming a flow path by screwing the cap 50 are respectively piped.

Referring to FIGS. 1 and 2, the blocking plate 60 is formed on the inner circumference of the connector 20 so as not to directly hit the hollow fiber 30 by changing the path of the washing water passing through the port 24.

In addition, the blocking plate 60 is formed spaced apart from the inner circumference of the connector 20 so as to change the path of the washing water in the longitudinal direction toward the center of the tube 10 toward the port 24. That is, one side of the blocking plate 60 is integrally formed at the edge of the port 24 facing both ends of the tube 10 to close the portion and the other side is formed to open toward the center of the tube 10. Then, the blocking plate 60 is formed in an annular shape so as to surround the outer circumference of the hollow fiber 30 located on the port 24 side.

The operation of the hollow fiber filtration device according to the present invention will now be described.

Referring back to FIG. 2, when the wastewater flows into the pipe 10 from one connector 20, the wastewater flowing into the connector 20 passes through the hollow fiber 30. At this time, impurities in the wastewater do not penetrate the hollow fiber 30, but are trapped in the hollow fiber 30 or discharged to the connector 20 opposite the pipe 10 to continue to circulate along the flow path of the purification treatment facility, hollow The purified water that has passed through the yarn 30 is discharged out of the pipe 10 through the port 24 of the connector 20.

As shown in FIG. 3, when the hollow fiber filtration device needs to be cleaned, for example, when the hollow fiber 30 is blocked by impurities, any of the connectors 20 coupled to both outer circumferences of the pipe 10 may be used. Clean wash water flows into one port (24). The washing water flowing through the port 24 flows in the longitudinal direction toward the center of the tube 10 by the blocking plate 60.

Therefore, while the washing water flowing through the port 24 is directly prevented from impacting the hollow fiber 30, the impact and damage of the hollow fiber 30 by the wash water is also prevented, so that the durability of the hollow fiber 30 This improves and the life is extended. As a result, not only the reliability of the hollow fiber filtration device can be improved, but also the replacement time can be delayed, thereby reducing maintenance and management costs. In particular, it is possible to reduce the economic loss due to the shutdown of the purification treatment plant.

In addition, the washing water flowing through the port 24 flows through a space formed between the inner circumference of the connector 20 and the blocking plate 60 and then flows along the lengthwise direction of the pipe 10 through the blocking plate 60. Therefore, the washing water flows uniformly through the tube (10).

Therefore, the washing water permeates the entire hollow fiber 30 uniformly, and the washing water passing through the hollow fiber 30 causes the impurities trapped in the hollow fiber 30 to be eliminated. In addition, the impurities dropped from the hollow fiber 30 are discharged out of the pipe 10 through the hollow fiber 30. In this way, since the washing water is transmitted through the entire hollow fiber 30 uniformly, the washing efficiency is improved.

On the other hand, the washing water is introduced at the same time through the port 24 of each of the connector 20 which is coupled to both the outer circumference of the tube 10 or closed either port 24 by a valve device (not shown) It may be introduced only through the other port 24.

The above embodiments have described preferred embodiments of the present invention, and the scope of application of the present invention is not limited to the above, but can be changed as appropriate within the scope of the same idea.

According to the hollow fiber filtration device according to the present invention as described above, since the washing water flowing through the port of the connector flows along the longitudinal direction of the tube by the blocking plate uniformly through the entire hollow fiber, damage and breakage of the hollow fiber This is prevented to improve durability and reliability, as well as to improve cleaning efficiency. As a result, maintenance and management costs and economic losses from downtime of purification treatment facilities can be reduced, and the product has a competitive advantage.

Claims (3)

A connector 20 coupled to both outer circumferences of the tube 10 and having a bore 22 and a port 24 connecting thereto radially; A hollow fiber 30 interposed with a bundle to allow wastewater to be filtered into the pipe 10; Seal 40 sealed at both ends of the inner circumference of the connector 20 and the outer circumference of the hollow fiber 30 so that the wastewater flowing into the pipe 10 through the connector 20 passes through the hollow fiber 30. )and; Hollow fiber filtration device, characterized in that consisting of a blocking plate 60 formed on the inner circumference of the connector 20 so as not to hit the hollow fiber 30 directly by changing the path of the wash water passing through the port 24 . The hollow fiber filtration device according to claim 1, wherein the blocking plate 60 is formed to change the path of the washing water along the length direction from the port 24 toward the center of the tube 10. . The hollow fiber filtration device according to claim 1 or 2, wherein the blocking plate (60) is formed in an annular shape.