JP2010094570A - Membrane module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a membrane module which allows adjustment of the direction of a liquid inlet/outlet nozzle. <P>SOLUTION: A case housing 11 is connected to a cap 20 by screw-fitting. An O-ring 25 and a flat ring-like packing 27 are superposedly disposed in the thickness direction at a contact part of an annular end surface of the case housing 11 with the annular end surface of the cap 20. Change of the thickness of the packing 27 allows adjustment of the direction of the liquid inlet/outlet nozzle 22. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a membrane module used for various water treatment applications and an assembling method thereof.

  A separation membrane module is generally used in which a separation membrane such as a hollow fiber membrane is accommodated in a cylindrical case housing, and both ends of the case housing are closed with caps having liquid entry / exit nozzles.

  The liquid inlet / outlet nozzle provided on the cap includes a nozzle protruding in a direction perpendicular to the axial direction of the case housing, in addition to a nozzle protruding in the axial direction of the case housing. When installing a membrane module of a type in which nozzles are projected in a direction perpendicular to the axial direction of the case housing, it may be preferable that the projection directions of both nozzles are different depending on the installation situation.

However, conventionally, there has been no method for adjusting the direction of the lateral nozzle in the screw-type module.
US 6,183,639 US2003 / 150807

  This invention makes it a subject to provide the membrane module which can adjust the protrusion direction of the liquid in / out nozzle which the cap covered on the case housing has, and its assembling method.

As a means for solving the problems, the present invention
A filtration membrane is accommodated in a cylindrical case housing, and a cap having a liquid inlet / outlet nozzle protruding in a lateral direction with respect to the axial direction of the case housing is covered on one end side of the cylindrical case housing,
The outer peripheral wall surface on one end side of the case housing has a screw portion, and the cap has a screw portion on the inner peripheral surface on the opening portion side,
With the o-ring interposed between the annular end surface of the case housing and the annular end surface of the cap, the connection portion is maintained in a watertight state by connecting the case housing and the cap by being screwed together. A membrane module comprising:
Between the two annular end faces, in addition to the o-ring, a flat ring-shaped packing is arranged in a state of being stacked in the thickness direction, and the cap is changed by changing the thickness of the packing. There are provided a membrane module and an assembling method thereof capable of adjusting the direction of a liquid inlet / outlet.

The present invention provides other means for solving the problems,
A filtration membrane is accommodated in a cylindrical case housing, and a cap having a liquid inlet / outlet nozzle protruding laterally with respect to the axial direction of the case housing is put on both ends of the cylindrical case housing,
The outer peripheral wall surfaces on both ends of the case housing have screw portions, and the caps on both ends have screw portions on the inner peripheral surface on the opening side,
In a state where an o-ring is interposed between the annular end surface on both end sides of the case housing and the annular end surface of the cap, the case housing and the cap are screwed together to connect the connection portion to be watertight A membrane module maintained in
At least between the two annular end faces on one end side, in addition to the o-ring, a flat plate ring-shaped packing is further stacked in the thickness direction, and by changing the thickness of the packing Provided are a membrane module and an assembling method thereof, which can adjust the direction of a liquid inlet / outlet of a cap on at least one end side.

  The membrane module of the present invention can adjust the direction of the liquid entry / exit nozzle of the cap. For this reason, by adjusting the direction of the liquid entry / exit nozzle according to the installation status of the water treatment system including the membrane module, the arrangement of each device constituting the system can be changed, and the installation space can be changed. Effective use can be achieved.

<Membrane module>
The method of adjusting the direction of the liquid inlet / outlet nozzle of the membrane module and the membrane module of the present invention will be described with reference to FIGS.

  1 is a front view of a membrane module 10 of the present invention, FIG. 2 is a partial sectional view in the axial direction of a conventional membrane module 10 ′, and FIG. 3 is a partial sectional view in the axial direction of the membrane module 10 in FIG. 4A and 4B are plan views of the membrane module 10 of the present invention as viewed from both sides. The membrane module 10 ′ in FIG. 2 and the membrane module 10 in FIG. 3 have the flat ring-shaped packing in the membrane module 10 in FIG. 3, and the membrane module 10 ′ in FIG. 2 has the packing. The membrane module 10 ′ shown in FIG. 2 can also be employed as a part of the structure of the membrane module of the present invention, except that it is not.

  As shown in FIG. 1, the membrane module 10 has caps 20 and 21 connected to both ends of a cylindrical case housing 11.

  The cap 20 has a concentrate nozzle 22 protruding in a direction transverse to the axial direction of the membrane module 10 (that is, including a vertical direction, a diagonally upward direction, or a diagonally downward direction with respect to the axial direction). Similarly, the cap 21 has a stock solution nozzle 23 protruding in the lateral direction with respect to the axial direction of the membrane module 10.

  As shown in FIGS. 2 and 3, a required number of hollow fiber membranes 12 are accommodated in the case housing 11, and a water collection pipe 13 having a plurality of water collection holes is disposed at the center. Both ends of the hollow fiber membrane 12 are integrated together with the water collecting pipe 13 and the inner wall surface of the case housing 11 by a sealing resin 15. A filtrate nozzle 24 is connected to the water collecting pipe 13. Note that which nozzle is used as the concentrate nozzle, the stock solution nozzle, and the filtrate nozzle can be appropriately set according to the installation status of the membrane module 10 and the like.

  A screw portion (male screw portion or female screw portion) 16 is formed on the outer peripheral wall surface of the case housing 11. The cap 20 is formed with a screw portion (female screw portion or male screw portion) 17 that can be screwed with the screw portion 16 on the inner peripheral surface on the opening side. In addition, the cap 21 side also has the same screw part as the cap 20 side.

  In the membrane module 10 ′ of FIG. 2, an annular groove 26 is formed on the annular end surface of the cap 20 that contacts the annular end surface 11 a of the case housing 11, and an o-ring 25 is fitted in the annular groove 26. The screw portion 16 of the case housing 11 and the screw portion 17 of the cap 20 are tightly screwed together until the end (that is, until they no longer turn), so that a high pressure is applied in the case housing 11 during the filtration operation. Even in this case, the connection between the case housing 11 and the cap 20 is connected so that a watertight state (a state in which water does not leak) can be maintained.

  In the membrane module 10 of FIG. 3, an annular groove 26 is formed on the annular end surface of the cap 20 that contacts the annular end surface 11 a of the case housing 11, and an o-ring 25 is fitted in the annular groove 26. Further, a flat ring-shaped packing 27 is disposed on the lower side of the o-ring 25 in the thickness direction. Even when a high pressure is applied to the case housing 11 during the filtration operation, the screw portion 16 of the case housing 11 and the screw portion 17 of the cap 20 are tightly aligned until the end (that is, no longer turns). The connection between the case housing 11 and the cap 20 is connected so that the watertight state can be maintained.

  The o-ring 25 and the flat ring-shaped packing 27 may be made of silicone rubber, fluorine rubber, neoprene rubber, or ethylene propylene rubber. The flat ring-shaped packing 27 can be selected from a range of 0.3 to 5 mm in thickness, but it may be the thickness range with only one packing, or a combination of a plurality of packings. The thickness may be within the above range.

  Although not shown in FIG. 3, the connection portion between the case housing 11 and the cap 21 on the cap 21 side may have a structure in which only an o-ring is arranged as shown in FIG. 2, or an o-ring and a flat plate as shown in FIG. A structure in which ring-shaped packing is used in combination may also be used.

The membrane module 10 of the present invention is
(Embodiment 1) On the cap 20 side only, as shown in FIG. 3, the o-ring 25 and the flat ring-shaped packing 27 are arranged together, and on the cap 21 side, only the o-ring 25 is arranged as in FIG. The membrane module 10 (or the reverse arrangement of the cap 20 and the cap 21),
(Mode 2) On both the cap 20 side and the cap 21 side, as shown in FIG. 3, the o-ring and the flat ring-shaped packing are disposed together, and the thickness of the flat ring-shaped packing 27 used in the cap 20 and the cap 21 Membrane module 10 with different thickness of flat ring packing used in
It can be in any form.

  By adopting such forms 1 and 2, when the screw part 16 of the case housing 11 and the screw part 17 of the cap 20 are screwed together to the end, as shown in FIGS. The direction of 22 and the stock solution nozzle 23 can be made different.

As described above, the membrane module 10 can vary the angle (α) formed by the protruding direction of the concentrate nozzle 22 (X _{1 in} FIG. 4) and the protruding direction of the stock solution nozzle 23 (X _{2 in} FIG. 4). Therefore, the concentrate nozzle 22 can be protruded in the direction close to the concentrate tank, and the stock solution nozzle 23 can be protruded in the direction close to the concentrate tank. For this reason, for example, it becomes possible to connect the concentrate nozzle 22 and the concentration tank in the shortest time, and it is possible to effectively use the space according to the installation state and save the pipe.

  The connection state between the case housing 11 and the caps 20 and 21 in the membrane module 10 can also be applied to a case in which the cap is provided only on one end side of the case housing 11. Such a membrane module is suitable, for example, when the case housing itself is fixed, or when the mass of the case housing is large and cannot be moved easily, and the orientation of the liquid inlet / outlet nozzle is to be adjusted.

<Assembly method of membrane module>
Next, an assembly method of the membrane module 10 of the present invention will be described with reference to FIGS.

  The water collecting pipe 13 and the hollow fiber membrane 12 are accommodated in the case housing 11, and both ends are sealed and fixed with a sealing resin 15. Thereafter, both ends are cut to open the hollow fiber membrane 12. Up to this point, it is the same as the known assembly method.

Next, in FIG. 1, an o-ring 25 is fitted into a groove 26 between one end side of the case housing 11 and the cap 20, and a flat ring-shaped packing 27 is disposed below the o-ring 25. In this state, the combined tightly screw the threaded portion 17 of threaded portion 16 and the cap 20 of the case housing 11 to end, as shown in FIG. 4 (a), so that the concentrate nozzle 22 is projected to the x ₁ axial direction To. In this step, it is possible to use only the o-ring 25 without using the flat ring-shaped packing 27.

Next, in FIG. 1, an o-ring is fitted into a groove between the other end of the case housing 11 and the cap 21, and a flat ring packing (however, a flat ring packing 27 is used on the cap 20 side). If so, a packing with a different thickness is disposed. In this state, the combined tightly screw the screw portion of the screw portion and the cap 21 of the case housing 11 to end, as shown in FIG. 4 (b), the stock solution nozzle 23 is to be projected in the x ₂ axial direction.

  The assembly method of the present invention can also be applied to a case having a cap only on one end side of the case housing 11, for example, when the case housing itself is fixed or the case housing has a large mass, Even when it cannot be moved easily, the direction of the liquid entry / exit nozzle can be easily adjusted.

  Further, the assembly method of the present invention can adjust the direction of the liquid entry / exit nozzle if the membrane module has a structure in which the case housing and the cap are screwed together. It can also be applied as a method of adjusting.

Example 1
The membrane module 10 shown in FIGS. 1 and 3 was assembled. The details of each part are as follows.

  Case housing 11: made of ABS resin, having an inner diameter of 262 mm, an outer diameter of 277 mm, and a height of 1100 mm. The pitch of the screws 16 is 12 m / m.

  Caps 20 and 21: made of ABS resin, having a maximum inner diameter of 278 mm, a maximum outer diameter of 300 mm, and a maximum height of 175 mm. The pitch of the screws 17 is 12 m / m.

  o-ring: made of EPDM rubber, with a cross-sectional diameter of 3.53 mm.

  Flat ring-shaped packing: made of silicone rubber and having a thickness of 3.0 mm.

  As shown in FIG. 2, only the o-ring is arranged on the cap 20 side, and the o-ring and the flat ring packing are arranged together on the cap 21 side as shown in FIG. The threaded part of the cap and the caps 20 and 21 were screwed together to make the connection part watertight. Table 1 shows changes in the angle α (FIG. 4B) when the thickness of the flat ring-shaped packing used in the cap 21 is changed.

  The packing thickness of 0 mm indicates the case where only the o-ring is used in both the caps 20 and 21. The displacement amount (mm) of the cap outer diameter is the rotation distance of the nozzle when the cap is tightened to the case housing.

  As apparent from Table 1, the nozzle direction (particularly, the angle between the nozzles at both ends) can be changed by changing the thickness of the flat ring-shaped packing.

The front view of the membrane module of this invention. The partial expanded sectional view in the axial direction of the conventional membrane module. The partial expanded sectional view in the axial direction of the membrane module of FIG. The top view from both sides for demonstrating the assembly method of the membrane module of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Membrane module 11 Case housing 12 Hollow fiber membrane 13 Water collecting pipe 15 Sealing resin 20, 21 Cap 22 Concentrated liquid nozzle 23 Stock solution nozzle 25 O-ring 27 Flat ring packing

Claims (5)

A filtration membrane is accommodated in a cylindrical case housing, and a cap having a liquid inlet / outlet nozzle protruding in a lateral direction with respect to the axial direction of the case housing is covered on one end side of the cylindrical case housing,
The outer peripheral wall surface on one end side of the case housing has a screw portion, and the cap has a screw portion on the inner peripheral surface on the opening portion side,
With the o-ring interposed between the annular end surface of the case housing and the annular end surface of the cap, the connection portion is maintained in a watertight state by connecting the case housing and the cap by being screwed together. A membrane module comprising:
Between the two annular end faces, in addition to the o-ring, a flat ring-shaped packing is arranged in a state of being stacked in the thickness direction, and the cap is changed by changing the thickness of the packing. A membrane module that can adjust the direction of the liquid inlet / outlet. A filtration membrane is accommodated in a cylindrical case housing, and a cap having a liquid inlet / outlet nozzle protruding laterally with respect to the axial direction of the case housing is put on both ends of the cylindrical case housing,
The outer peripheral wall surfaces on both ends of the case housing have screw portions, and the caps on both ends have screw portions on the inner peripheral surface on the opening side,
In a state where an o-ring is interposed between the annular end surface on both end sides of the case housing and the annular end surface of the cap, the case housing and the cap are screwed together to connect the connection portion to be watertight A membrane module maintained in
At least between the two annular end faces on one end side, in addition to the o-ring, a flat plate ring-shaped packing is further stacked in the thickness direction, and by changing the thickness of the packing A membrane module capable of adjusting the direction of the liquid inlet / outlet of the cap on at least one end side.   The membrane module according to claim 1 or 2, wherein a thickness of the flat ring-shaped packing is selected from a range of 0.3 to 5 mm. A method for assembling a membrane module according to claim 1 or 2,
At least between the two annular end faces on one end side, in addition to the o-ring, when further arranging a flat ring-shaped packing in the thickness direction, by changing the thickness of the packing, A method for assembling a membrane module, wherein the direction of the liquid inlet / outlet of the cap is adjusted.   The method for assembling a membrane module according to claim 4, wherein the thickness of the flat ring-shaped packing is changed within a range of 0.3 to 5 mm.

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