JP5341395B2 - Filtration unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a filter unit that can be made compact and can make its maintenance easy. <P>SOLUTION: The filter unit 10 includes a filter module 30 comprised of a plurality of hollow fiber membranes 31 horizontally crossed and bundled together at both the ends and fixed to a pair of headers 32 facing each other, and a casing 20 wherein the filter module 30 is housed and raw water W1 is introduced, characterized in that each of the headers 32 is fluid-tightly inserted into each of a pair of through-holes 24 formed in a pair of sidewalls 23 of the casing 20, and a filtrate pipe 40 for discharging filtrate water W2 filtrated by the plurality of the hollow fiber membranes 31 from the raw water W1 is connected to each of the headers 32 from the outside of the casing 20. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a filtration unit in which a filtration module for filtering raw water with a hollow fiber membrane is housed in a casing into which raw water is introduced.

  As such a filtration unit, a membrane element in which a large number of hollow fiber membranes are bundled in a box-shaped casing having a rectangular parallelepiped shape whose upper and lower sides are opened, and a pair of ends opposite to each other in the longitudinal direction of the casing. For example, Non-Patent Document 1 proposes a hollow fiber membrane that is accommodated by being attached to a plate so as to be passed in the longitudinal direction.

An example of such a filtration unit is shown in FIG. The filtration unit 1 includes a filtration module 2 in which a plurality of hollow fiber membranes 3 passed in the horizontal direction are bundled at the ends and fixed to a pair of headers 4, and the filtration module 2 is accommodated and filtered. And the casing 5 into which the raw water W1 is introduced. The header 4 is connected to a filtered water pipe 6 that sucks the filtered water W2 filtered from the raw water W1 by the hollow fiber membrane 3 and discharges the filtered water W2 to the outside of the casing 5. A suction means (not shown) such as a pump is provided.
In the filtration unit 1, the hollow fiber membrane, the header, and the filtered water pipe are in communication with each other, and when the raw water is filtered, the suction means sucks the filtered water W <b> 2 in the filtered water pipe 6. Thus, the filtration of the raw water W1 by the hollow fiber membrane 3 is promoted, and the efficient filtration can be performed.
Kashimada, Nakayama, Yodogawa, Matsuda "Development of large-capacity membrane filtration system using submerged membrane (I)", 55th National Waterworks Research Conference Lecture, Japan Waterworks Association, May 10, 2004, p. 182-183

By the way, in the conventional filtration unit as described above, since the entire filtration module 2 is accommodated in the casing 5, the filtered water pipe 6 connected to the header 4 is piped to the outside through the inside of the casing 5. . Therefore, the casing 5 has to secure a volume corresponding to the area occupied by the filtered water pipe 6, which causes a problem that the filtration unit 1 becomes larger than necessary.
In this state, since the filtered water pipe 6 is housed in the casing 5 and immersed in the raw water W1, the filtered water pipe 6 must be pulled up from the raw water W1 together with the filtration module 2 for maintenance of the filtered water pipe 6. As a result, the maintenance of the filtered water pipe 6 requires time and labor.

  This invention is made | formed in view of such a subject, Comprising: It aims at providing the filtration unit which can achieve size reduction and can make a maintenance easy.

In order to solve the above problems, the present invention proposes the following means.
That is, the filtration unit according to the present invention includes a filtration module in which a plurality of hollow fiber membranes that are horizontally passed are bundled at their ends and fixed to a pair of headers facing each other, and the filtration module is housed in the filtration unit. And a casing into which raw water is introduced, wherein the casing has a bottomed box shape and is provided with a casing body that is installed with its bottom facing downward, and each of the headers has the casing body. A filtered water pipe that is liquid-tightly fitted into a through-hole formed in the mounting side wall of the first pipe and that discharges filtered water filtered from raw water by the hollow fiber membrane is connected to the header from the outside of the casing , The header includes a yarn membrane fixing portion to which the hollow fiber membrane is fixed, and a header lid portion that sandwiches the attachment side wall by the yarn membrane fixing portion. O-rings are interposed between the thread membrane fixing portion and the header lid portion and the mounting side wall, respectively, and the thread membrane fixing portion and the header lid portion are integrated, whereby the header is attached to the mounting side wall. It is characterized by being fixed .

  According to the filtration unit having such characteristics, a through hole is provided in the side wall of the casing, and the header of the filtration module is fitted into the through hole, so that the header penetrates the inside and outside of the casing. Exposed to. Therefore, since it is possible to pipe the filtrate water pipe connected to the header outside the casing, it is not necessary to provide a space for piping the filtrate water pipe in the casing, and the casing is used to introduce raw water. It can be kept to a suitable minimum size. Further, since the filtered water pipe is piped outside the casing without being immersed in the raw water, the filtered water pipe can be maintained without being pulled up from the raw water in the casing together with the filtration module.

Further, in the filtration unit according to the present invention, since the O-ring is interposed between the thread membrane fixing portion and the header lid portion and the attachment side wall to ensure liquid tightness, the raw water and the filtrate water leak out, respectively. There is no end to it.

Furthermore, according to the filtration unit of the present invention , the header is composed of the thread membrane fixing portion and the header lid portion, and when the members are fixed and integrated, the attachment side wall is sandwiched to firmly fix the filtration module in the casing body. Can be fitted.

  According to the filtration unit of the present invention, it is not necessary to provide a space for piping the filtration water pipe in the casing by fitting the header of the filtration module into the through hole in the side wall of the casing, so that the filtration unit itself can be made compact. In addition, since the filtered water pipe is piped outside the casing, the maintenance can be facilitated.

Hereinafter, a filtration unit according to an embodiment of the present invention will be described in detail with reference to the drawings.
1 is a transparent perspective view showing a schematic configuration of a filtration unit according to the first embodiment, FIG. 2 is a side sectional view showing a schematic configuration of the filtration unit according to the first embodiment, and FIG. 3 is a partially enlarged view of FIG. FIG.
As shown in FIGS. 1 and 2, the filtration unit 10 according to the present embodiment includes a casing 20 into which raw water W1 to be filtered is introduced, and the raw water W1 accommodated in the casing 20 and filtered into the filtered water W2. A filtration module 30 for filtering into a filter and a filtered water pipe 40 connected to the filtration module 30 are provided.

The casing 20 is made of a highly corrosion-resistant metal material such as stainless steel, has a rectangular bottomed box shape in plan view, and has a casing body 21 installed with the bottom facing downward, and the casing body 21 A casing lid portion 22 that covers the upper opening and is removable.
Of the four side walls of the casing body 21, two side walls along the short side of the rectangle that the casing body 21 is in plan view are the mounting side walls 23 into which the header 32 of the filtration module 30 is fitted. A through hole 24 for communicating the inside and outside of the casing 20 is opened in each of the side walls 23 so as to face each other in the lateral direction (left and right direction in FIGS. 1 and 2) along the long side of the rectangle.

  As shown in FIG. 1 and FIG. 2, the filtration module 30 includes a plurality of (multiple) hollow fiber membranes 31 that are passed in the lateral direction and are bundled at predetermined ends at each end. Each of them is fixed to a pair of headers 32 installed so as to face each other in the direction. In addition, as the hollow fiber membrane 31, for example, a hollow fiber MF membrane (pore diameter 0.1 μm) made of hydrophilic polyethylene can be used, but the hollow fiber membrane 31 is not limited. Further, the hollow fiber membrane 31 is illustrated with a small diameter and a large diameter for the sake of explanation.

  As shown in detail in FIG. 3, the header 32 includes a space into which filtered water W <b> 2 filtered from the raw water W <b> 1 is guided by the hollow fiber membrane 31, and includes a thread membrane fixing portion 33 and a header lid portion 35. It is comprised from two members.

The thread membrane fixing portion 33 has a hollow disk shape or a square flat plate shape as shown in FIG. 1, and one of the two circular surfaces or square surfaces is a thread membrane fixing surface 33a. Thus, the yarn film fixing portions 33 of the pair of headers 32 are arranged so as to face each other in the lateral direction. Then, the hollow fiber membrane 31 is passed between the opposing thread membrane fixing surfaces 33a, so that the hollow portion of the hollow fiber membrane 31 and the hollow portion of the yarn membrane fixing portion 33 are in communication with each other. The thread film 31 is fixed.
Further, in each thread film fixing portion 33, the other circular surface or square surface opposite to the thread film fixing surface 33a is a pressing surface that presses the mounting side wall 23 of the casing body 21 from the inside via an O-ring 38 described later. A cylindrical portion 34 fitted into the through hole 24 of the mounting side wall 23 is provided at the approximate center of the pressing surface 33b so as to communicate the inside and outside of the thread membrane fixing portion 33. The outer diameter of the cylindrical portion 34 is slightly smaller than the diameter of the through hole 24 in the mounting side wall 23 and can be fitted into the through hole 24, and a male screw is formed on the outer peripheral surface 34a. .

  The header lid portion 35 has a bottomed cylindrical shape having an outer diameter that is slightly larger than the outer diameter of the cylindrical portion 34, that is, an inscribed circle having the same diameter as the circular surface formed by the thread membrane fixing portion 33 or a square surface. A circular lid surface portion 36 having a substantially the same diameter and connected with a filtered water pipe 40 in the center thereof, and a cylinder having an inner peripheral surface 37a with a female screw that can be screwed into the male screw of the cylindrical portion 34. The edge portion 37 is integrally formed. The header lid 35 is fixed and integrated with the thread membrane fixing portion 33 by screwing the female screw of the edge portion 37 to the male screw of the cylindrical portion 34 of the thread membrane fixing portion 33, thereby hollowing inside. A header 32 having the above-described space is configured. The end surface of the edge portion 37 is a pressing end surface 37b that presses the mounting side wall 23 of the casing body 21 from the outside via an O-ring 38 described later.

  The filtered water pipe 40 is piped so as to extend downward from the casing 20 from a connection location to the substantially center of the lid surface portion 36 of the header lid portion 35. Accordingly, when the raw water W1 introduced into the casing main body 21 is immersed in the filtration module 30, the liquid of the raw water W1 introduced into the casing main body 21 is higher than the height of the connection portion to the lid surface portion 36 of the filtered water pipe 40. When the surface is at a high position, filtration by the head differential pressure becomes possible.

The filtration module 30 having such a configuration is accommodated and attached in the casing 20 as follows.
First, the hollow fiber membrane 31 and the yarn membrane fixing portion 33 in a state where the header lid portion 35 is separated from the filtration module 30 are accommodated in the casing main body 21, and the cylindrical portion 34 of the yarn membrane fixing portion 33 is attached to the casing main body 21. The through hole 24 of the side wall 23 is inserted. As a result, the cylindrical portion 34 passes through the through-hole 24 from the inside to the outside of the casing 20, and the tip of the cylindrical portion 34 is exposed to the outside of the casing 20.
In this state, from the outside of the casing 20, the female screw of the edge portion 37 of the header lid portion 35 is screwed into the male screw of the cylindrical portion 34 of the thread membrane fixing portion 33, so that the cylindrical portion 34 of the yarn membrane fixing portion 33 is engaged. The opening of the is closed.

  At this time, as shown in detail in FIG. 3, the attachment side wall 23 is pressed and sandwiched between the inside and outside of the casing body 21 by the pressing surface 33 b of the thread membrane fixing portion 33 and the pressing end surface 37 b of the header lid portion 35. That is, the thread film fixing portion 33 and the header lid portion 35 are integrated to form the header 32, and at the same time, the header 32 is firmly fixed to the attachment side wall 23. In the present embodiment, O-rings 38 are interposed between the pressing surface 33b and the mounting side wall 23, and between the mounting side wall 23 and the pressing end surface 37b, and are thereby introduced into the casing 20. Liquid tightness is maintained so that the raw water W1 and the filtered water W2 in the header 32 do not leak.

  In the filtration unit 10 of the present embodiment, an aeration device 25 is provided below the hollow fiber membrane 31 in the casing body 21 as shown in FIG. The aeration apparatus 25 is, for example, an air diffuser that is connected to an air supply pipe (not shown) and diffuses air. When cleaning the membrane, the air thus diffused becomes a bubble flow and moves upward to form a hollow fiber membrane. 31 is swung. Thereby, the turbidity in the raw water W1 adhering to the hollow fiber membrane 31 is peeled off and washed, and the filtration action of the hollow fiber membrane 31 is prevented from being lowered. In addition, the cleaning effect is great when back-flow cleaning is performed during aeration.

  When the raw water W1 is filtered by the filtration unit 10 having the above-described configuration, first, the raw water W1 is introduced into the casing main body 21 through a raw water introduction pipe (not shown) inserted through the casing lid portion 22 and filled. Then, the raw water W1 is filtered by the hollow fiber membrane 31 of the filtration module 30, and the clear filtered water W2 from which the turbid matter is removed reaches the hollow space in the header 32 through the hollow portion in the hollow fiber membrane 31, Further, the water is discharged out of the casing 20 by the filtered water pipe 40 connected to the header 32.

Here, according to the filtration unit 10 of this embodiment, the header 32 penetrates the inside and outside of the casing 20 by fitting the header 32 of the filtration module 30 in a liquid-tight manner in the through hole 24 formed in the attachment side wall 23 of the casing body 21. to way is exposed to the outside of the casing 20. Accordingly, since the filtered water pipe 40 connected to the header 32 can be piped outside the casing 20, it is not necessary to provide a space for piping the filtered water pipe 40 in the casing 20. Therefore, the casing 20 can be kept to the minimum necessary size suitable for introducing the raw water W1, and the filtration unit 10 itself can be made compact.

  Furthermore, since the filtered water pipe 40 is piped outside the casing 20 as described above, the filtered water pipe 40 is not immersed in the raw water W1 in the casing 20. Therefore, even when performing maintenance / inspection of the filtered water pipe 40, the work from the outside of the casing 20 can be completed, and there is no need to work by lifting the filtered water pipe 40 together with the filtration module 30 from the raw water W1. Maintenance of such a filtered water pipe 40 can be facilitated.

On the other hand, in the filtration unit 10 of the present embodiment, since the filtered water pipe 40 is piped so as to extend downward from the casing 20 from the connection location with the header 32, the raw water W1 is introduced into the casing 20 to When the liquid level exceeds the height of the filtered water pipe 40, a water head differential pressure corresponding to the height difference is generated between the liquid level of the raw water W1 and the filtered water pipe 40.
Accordingly, since the raw water W1 in the casing 20 can be filtered through the hollow fiber membrane 31 and guided to the filtered water pipe 40 by using this water head differential pressure, a suction means such as a pump is separately provided in the filtered water pipe 40. Even if not, filtration of the raw water W1 by the hollow fiber membrane 31 can be promoted. For this reason, it is possible to simplify the configuration of the filtration unit 10 itself while performing efficient filtration, thereby facilitating maintenance and reducing manufacturing costs.

  Further, the header 32 is composed of two members, a thread membrane fixing portion 33 and a header lid portion 35. When these members are fixed and integrated, the attachment side wall 23 is sandwiched so that the filtration module is firmly casing. Since it can be fitted into the main body 21 and the O-ring 38 is interposed between the thread membrane fixing portion 33 and the header lid portion 35 and the attachment side wall 23 to ensure liquid tightness, the raw water W1 and The filtered water W2 does not leak out.

As mentioned above, although embodiment of the filtration unit 10 which is this invention was described in detail, unless it deviates from the technical idea of this invention, it is not limited to these, A some design change etc. are possible.
For example, in the present embodiment, the filtered water pipe 40 has been described as being piped so as to extend downward from the connection location with the header 32, but the present invention is not limited to this, for example, as shown in FIG. The filtration unit 50 may be a modified example. In the filtration unit 50, the filtered water pipe 60 extends upward from the connection portion with the header 32, and by providing suction means such as a pump on the downstream side of the filtered water pipe 60, the raw water W <b> 1 by the hollow fiber membrane 31 is provided. Filtration is performed.
Also in this filtration unit 50, since the header 32 of the filtration module 30 is fitted in the casing main body 21 and the filtered water pipe 60 is piped outside the casing 20, like the filtration unit 10 of the embodiment, the filtration unit 50 itself It is possible to reduce the size and maintenance.

It is a permeation | transmission perspective view which shows schematic structure of the filtration unit which concerns on 1st Embodiment. It is a sectional side view which shows schematic structure of the filtration unit which concerns on 1st Embodiment. FIG. 3 is a partially enlarged view of FIG. 2. It is a sectional side view which shows schematic structure of the filtration unit of a modification. It is a sectional side view which shows schematic structure of the conventional filtration unit.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10, 50 Filtration unit 20 Casing 21 Casing main body 22 Casing lid part 23 Mounting side wall 24 Through-hole 25 Aeration apparatus 30 Filtration module 31 Hollow fiber membrane 32 Header 33 Yarn membrane fixing part 33a Yarn membrane fixing surface 33b Press surface 34 Cylindrical part 34a Outer periphery Surface 35 Header cover portion 36 Cover surface portion 37 Edge portion 37a Inner peripheral surface 37b Press end surface 38 O-ring 40, 60 Filtration water pipe W1 Raw water W2 Filtration water

Claims (1)

A filtration module in which a plurality of hollow fiber membranes passed in the horizontal direction are bundled at their ends and fixed to a pair of headers facing each other, and a casing in which the filtration module is housed and raw water is introduced In a filtration unit comprising
The casing has a bottomed box shape, and includes a casing body that is installed with the bottom portion facing downward,
Each of the headers is liquid-tightly fitted into a through-hole formed in the mounting side wall of the casing body,
A filtered water pipe for discharging filtered water filtered from raw water by the hollow fiber membrane is connected to the header from the outside of the casing ,
The header includes a yarn membrane fixing portion to which the hollow fiber membrane is fixed, and a header lid portion that sandwiches the attachment side wall by the yarn membrane fixing portion, and the yarn membrane fixing portion, the header lid portion, and the attachment side wall. The filtration unit is characterized in that an O-ring is interposed between each and the thread membrane fixing part and the header cover part are integrated to fix the header to the mounting side wall .

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