JP5838814B2 - Hollow fiber membrane module unit - Google Patents

Description

The present invention relates to a hollow fiber membrane module unit that includes a hollow fiber membrane module and is used for solid-liquid separation operations such as water treatment.
This application claims priority on September 7, 2010 based on Japanese Patent Application No. 2010-200018 for which it applied to Japan, and uses the content for it here.

  The hollow fiber membrane module is used as a filter medium in many applications such as production of aseptic water, drinking water, and highly pure water, and purification of air. As the hollow fiber membrane module, those having various forms such as a form in which the hollow fiber membranes are bundled and a form in which the hollow fiber membranes are laminated in a sheet form are manufactured (see Patent Document 1).

  The hollow fiber membrane module in which the hollow fiber membranes are laminated is also called a flat hollow fiber membrane module, and is obtained by fixing a plurality of laminated hollow fiber membranes with a housing (see Patent Document 2). Inside the housing, at least one end of a plurality of hollow fiber membranes is accommodated. In addition, the housing and the hollow fiber membrane are sealed with potting resin, and the assembly in which the hollow fiber membrane is formed into a sheet shape is supported and fixed in the housing.

By the way, these flat hollow fiber membrane modules are often used in the form of a hollow fiber membrane module unit in which a plurality of flat hollow fiber membrane modules are combined. Since the hollow fiber membrane module unit includes a plurality of hollow fiber membrane modules, the treatment amount of sewage and the like can be improved, which is particularly suitable for a large-scale water treatment apparatus.
In general, the hollow fiber membrane module unit is arranged such that the surfaces of the sheet-like hollow fiber membranes of the flat hollow fiber membrane module face each other. At this time, the flat hollow fiber membrane module is fixed by fixing the housing to the frame. Specifically, both ends in the longitudinal direction of the housing are fixed to the frame by using fixing members, for example, fastening members such as bolts and nuts.

JP-A-4-310219 JP 2009-195844 A US Pat. No. 6,899,811

However, the flat hollow fiber membrane module housing is long in order to secure the filtration area as much as possible. Therefore, when the hollow fiber membrane module unit is assembled, disassembled, or maintained, the fixed portion of the housing is used by the operator. It may be difficult to reach. In such a case, there is a problem that it is difficult to attach and detach the flat hollow fiber membrane module.
Since the hollow fiber membrane module unit is required to save space, especially in the case of a hollow fiber membrane module unit in which a plurality of flat hollow fiber membrane modules are arranged in parallel, it is difficult to access the housing fixing portion. It took a lot of time to attach and remove the hollow fiber membrane module.
In addition, a structure is disclosed in which the hollow fiber membrane module is fixed to the frame by connecting the permeate water intake of the hollow fiber membrane module and the collecting pipe, but it is difficult to achieve both confidentiality and durability of the permeate. (See Patent Document 3).

  The present invention has been made in consideration of such circumstances, and its purpose is to easily attach and remove the hollow fiber membrane module during maintenance and the like, and has both confidentiality and durability. The object is to provide a hollow fiber membrane module unit.

  As a means for solving the above problems, in the hollow fiber membrane module unit of the present invention, both ends of the hollow fiber membrane bundle are housed in two separately provided housings, and at least one end of the hollow fiber membrane bundle. A hollow fiber membrane module that is housed in a state where the end portion of the hollow fiber membrane is kept open by a fixing resin and is fixed to the housing; and a frame that fixes the hollow fiber membrane module. The at least one housing constituting the hollow fiber membrane module is provided with a first housing side insertion portion and a water intake, and the first housing side insertion portion of the housing is provided on the frame. The frame is inserted into and fixed to a frame-side insertion portion corresponding to the first housing-side insertion portion, and the other end side of each housing is fixed to the frame by a fixing member. Characterized in that it is fixed.

It is preferable that the first housing side insertion portion is provided on one end side of the housing, and the water intake is provided on the other end side.

  One of the first housing side insertion portion and the frame side insertion portion has a convex shape at the front end, and the other has a concave shape corresponding thereto, and a cross section at the front end of the convex insertion portion. Is a non-circular shape, and the concave insertion portion is preferably a concave portion corresponding to the shape of the convex insertion portion.

It is preferable that at least one of the concave insertion portions is provided with a mounting length adjusting mechanism, and the distance between the two housings can be changed.
It is preferable that an annular buffer member is interposed between the first housing side insertion portion and the frame side insertion portion.

The other end side of the housing is further provided with a second housing side insertion portion, and by a fixing member via an attachment member provided with a hole corresponding to the second housing side insertion portion. It is preferable to be fixed to the frame.

The mounting member is preferably a member in which holes corresponding to the second housing side insertion portion and the water intake port are provided in parallel.

It is preferable that a buffer member is interposed between the second housing side insertion portion and the attachment member side insertion portion.

  According to the present invention, in order to fix the hollow fiber membrane module to the frame, the housing side insertion portion on one end side of the housing is inserted into the frame side insertion portion of the frame, and the other end side of the housing is fixed to the frame by the fixing member. When removing the hollow fiber membrane module for maintenance or the like, the hollow fiber membrane module can be removed from the frame by removing the fixing member and then pulling out the housing side insertion portion from the frame side insertion portion. Therefore, it becomes easy to attach and remove the hollow fiber membrane module.

The first housing side insertion portion is provided on one end side of the housing, and the water intake is provided on the other end side, so that the insertion portion side can be fixed only by insertion work, and fastened to the other end side. By consolidating the connection of the water intake and the intake port, the work can be performed in a limited space, so that the attachment and removal of the hollow fiber membrane module can be facilitated.

  One of the insertion portions is a convex convex shape with a non-circular cross-section, and the other insertion portion is a corresponding concave portion, so that the housing cannot rotate around the axis along the longitudinal direction of the housing. Therefore, it is possible to prevent the force in the rotational direction acting around the longitudinal direction of the housing from acting as a tensile force on the hollow fiber membrane due to vibrations generated during operation, and the hollow fiber membrane module is configured. Inadvertent damage to the hollow fiber membrane can be prevented.

The relaxation rate of the hollow fiber membrane can be adjusted by changing the distance between the two housings. Specifically, the relaxation rate can be adjusted to 0% to 2%.
A gap between the first housing side insertion portion and the frame side insertion portion by interposing an annular buffer member between the first housing side insertion portion and the frame side insertion portion. Can be allowed and absorbed, and the requirement for dimensional accuracy can be relaxed.

Since the other end side of the housing is fixed to the frame by the fixing member via the mounting member, the structural design having the durability of the mounting member is facilitated. Even if the mounting member is damaged by a fixed load, the hollow fiber membrane module can be used as it is by replacing only the mounting member without replacing the hollow fiber membrane module.

Since the holes corresponding to each of the second housing side insertion portion and the water intake are provided in parallel, in the housing having the water intake, the attachment member can be attached without applying a fixed load to the water intake. it can.

A buffer member is interposed between the second housing side insertion portion and the attachment member side insertion portion, so that the space between the second housing side insertion portion and the fixing plate (fixing hole) is reduced. The clearance can be allowed and absorbed, and the requirement for dimensional accuracy can be relaxed.

It is a side view of the flat type hollow fiber membrane module of the embodiment of the present invention. It is a side view of the flat type hollow fiber membrane module seen from the A direction of FIG. It is a side view of the flat type hollow fiber membrane module seen from the B direction of FIG. It is the schematic of the hollow fiber membrane module unit of embodiment of this invention. It is a top view of a hollow fiber membrane module unit. It is an enlarged view which shows a mode that the housing side insertion part is inserted in the frame side insertion part. It is a figure which shows the detail of an attachment length adjustment mechanism. It is an enlarged view which shows the fixing member of the other end side of a 1st housing.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a side view of a flat hollow fiber membrane module according to an embodiment of the present invention. FIG. 2 is a side view of the flat hollow fiber membrane module viewed from the direction A in FIG. FIG. 3 is a side view of the flat hollow fiber membrane module as seen from the direction B in FIG.

As shown in FIG. 1, the flat hollow fiber membrane module 10 (hollow fiber membrane module) of this embodiment includes a hollow fiber membrane sheet-like assembly 3 composed of a plurality of hollow fiber membranes 2 and a hollow fiber membrane sheet-like assembly. It is comprised from the 1st housing 11 (housing) and the 2nd housing 12 (housing) in which the edge part of the body 3 is inserted.
The hollow fiber membrane sheet-like assembly 3 is formed by bundling a plurality of hollow fiber membranes 2 so as to have an elongated rectangular cross section. The end of the hollow fiber membrane sheet assembly 3 is fixed with a potting resin, which seals the insertion port of the first housing 11 and the insertion port of the second housing 12, It is maintained in a hollow state.

On the one end 12a side of the second housing 12, there is formed a third housing side insertion portion 21 having a convex shape that protrudes in a direction along the longitudinal direction of the second housing. As shown in FIG. 3, the third housing side insertion portion 21 has an elliptical cross section.
Further, a groove 22 is formed in the vicinity of the end of the third housing side insertion portion 21 so as to make one round in the circumferential direction in order to mount an annular buffer member. A fixing part 23 is formed on the other end 12 b side of the second housing 12. The fixing part 23 is a flat plate-like member having a thickness in the longitudinal direction of the hollow fiber membrane 2, and an attachment hole 24 is formed in the central part thereof.

On the one end 11 a side of the first housing 11, a first housing side insertion portion 14 is formed so as to protrude in a direction along the longitudinal direction of the first housing 11. The housing-side insertion portion 14 has an elliptical cross section similar to the third housing-side insertion portion 21 of the second housing 12, and a groove is provided in the vicinity of the end portion for mounting an annular buffer member. 15 is formed.
A water intake 13 is provided on the other end 11 b side of the first housing 11, and the liquid to be treated that has flowed into the water collecting portion inside the first housing 11 through the hollow fiber membrane 2 is the water intake 13. Sucked up via. Two grooves for attaching an annular buffer member are formed in the vicinity of the end of the water intake 13.

  In addition, a second housing side insertion portion (fixed protrusion) 16 is formed on the other end 11b side of the first housing. As shown in the side view of FIG. 2, the second housing side insertion portion 16 has an elliptical cross section, and a groove 17 is provided in the vicinity of the end portion for mounting an annular cushioning member. Is formed.

  The 1st housing 11 and the 2nd housing 12 are formed so that the dimension (width dimension) along the longitudinal direction of the main-body parts 11A and 12A may become the same. Further, the distance between the end surface 14a of the first housing side insertion portion 14 and the end surface 11a of the main body portion 11A and the distance between the end surface 21a of the third housing side insertion portion 21 and the end surface 12a of the main body 12A are the same. It is formed to become.

  Next, the hollow fiber membrane module unit 1 in which the flat hollow fiber membrane module 10 of this embodiment is incorporated will be described. FIG. 4 is a schematic view of a hollow fiber membrane module unit according to an embodiment of the present invention. FIG. 5 is a top view of the hollow fiber membrane module unit.

  The hollow fiber membrane module unit 1 includes a frame 4 configured to allow each component to be installed, an air diffuser 5 for membrane cleaning, three flat hollow fiber membrane modules 10, and each flat hollow fiber membrane module. The merging pipe 6 connected to 10 and the suction pump 7 are provided as main components. The suction pump 7 is connected to the junction pipe 6, and a blower (not shown) is connected to the air diffuser 5.

  The three flat hollow fiber membrane modules 10 are arranged such that the surfaces constituting the hollow fiber membrane sheet-like assembly 3 face each other on the frame 4 and the longitudinal directions of the housings 11 and 12 are aligned. . A U-shaped connecting pipe 32 is connected to each water intake port 13 of each first housing 11, and each connecting pipe 32 is connected to the junction pipe 6.

The frame 4 is a combination of a plurality of frame members in a rectangular parallelepiped shape, and components such as the flat hollow fiber membrane module 10 are fixed therein.
Specifically, the frame 4 is combined so as to form a rectangular parallelepiped by connecting four vertical frame bodies 41 extending in the vertical direction of the frame 4 with a plurality of horizontal frame bodies 42. Although not shown, the horizontal frame 42 is provided not only at the upper and lower ends of the vertical frame 41 but also at several locations in the vertical direction in order to reinforce the frame 4 and support an auxiliary frame 43 described later. ing.

Further, a plurality of support frame bodies 43, 44, 45 for supporting the components are fixed in the frame 4.
Three first support frames 43 are arranged and fixed below the frame 4 so as to support the second housings 12 of the three flat hollow fiber membrane modules 10. A fixing hole 43 a for fixing the second housing 12 is formed in the first support frame body 43. Further, a notch 43b for avoiding interference with the second housing 12 is formed.

  The second support frame 44 is disposed and fixed above the frame 4 in order to support the junction tube 6. Further, the third support frame body 45 is fixed to the second support frame body 44 so as to be orthogonal to the second support frame body 44.

  A module support plate 50 is disposed on one surface orthogonal to the first support frame 43. The module support plate 50 is formed with a plurality of frame-side insertion portions 51 for inserting the housing-side insertion portions 14 and 21 formed in the housings 11 and 12. The frame-side insertion part 51 has a concave shape corresponding to the housing-side insertion parts 14, 21 having a convex shape at the tip, and the cross-sectional shape of the frame-side insertion part 51 corresponds to the housing-side insertion parts 14, 21. The size is formed so as to be slightly larger than the housing side insertion portions 14 and 21.

The vertical space between the frame side insertion portions 51 is determined according to the dimensions of the flat hollow fiber membrane module 10. As shown in FIG. 7, the lower frame side insertion portion 51b into which the third housing side insertion portion 21 of the second housing 12 is inserted is moved to the movable plate 52 configured to be fixed by moving in the vertical direction. Is formed. The movable plate 52 includes a plate thickness portion 52a having a sufficient thickness for inserting the third housing side insertion portion 21, and a plate-like plate-like portion 52b formed sufficiently thin with respect to the plate thickness portion 52a. Consists of.
The movable plate 52 is attached to an adjustment slot 54 formed in the module support plate 50 by a fastening member made of a bolt and a nut so as to be movable.

Next, arrangement | positioning of the component of the hollow fiber membrane module unit 1 is demonstrated.
The air diffuser 5 is fixed to the lowermost stage of the frame 4.
The second housing 12 of the flat hollow fiber membrane module 10 is fixed to the upper surface of the first support frame 43 above the air diffuser 5. The third housing side insertion portion 21 of the second housing 12 is inserted into the frame side insertion portion 51b, and the fixing portion 23 is attached to the upper surface of the first support frame body 43 by a fastening member 33 made of a bolt and a nut. It is fixed.

On the other hand, the first housing side insertion portion 14 of the first housing 11 is inserted into the frame side insertion portion 51a. As shown in FIG. 6, an annular buffer member 9 is attached to the groove 15 of the first housing side insertion portion 14, and the first housing side insertion portion 14 is attached to the frame side insertion portion 51 a. When inserted, the buffer member 9 is configured to be interposed between the first housing side insertion portion 14 and the frame side insertion portion 51a. The buffer member 9 is made of an elastic body and has a diameter that is slightly larger than the depth of the groove 15.
Similarly, the buffer member 9 is also attached to the groove 22 of the third housing side insertion portion 21 of the second housing 12, and between the third housing side insertion portion 21 and the frame side insertion portion 51b. The buffer member 9 is interposed.

  On the other end 11 b side of the first housing 11, an attachment member, for example, an attachment plate 31 is attached together with a connection pipe 32 that connects the junction pipe 6 and the water intake port 13, and this attachment plate 31 is a third support. It is attached to the frame body 45. Specifically, as shown in FIG. 8, the attachment plate 31 has a through hole 31 a for allowing the water intake 13 to pass therethrough, and an attachment member side insertion portion (for inserting the second housing side insertion portion 16). (Fixing hole) 31b is formed. The second housing side insertion portion 16 of the first housing 11 is inserted into the attachment member side insertion portion 31b of the attachment plate 31 via the buffer member 9b, and the connection pipe 32 is inserted into the through hole 31a. The mounting plate 31 is fixed to the first housing 11. The mounting plate 31 is formed with a mounting hole 31c, and the mounting plate 31 is fixed to the third support frame 45 using a fastening member 33 such as a bolt and a nut.

  The material of the housings 11 and 12 may be any material having mechanical strength and durability. For example, polycarbonate, polysulfone, polyolefin (polyethylene, polypropylene, etc.), PVC (polyvinyl chloride), acrylic resin, ABS resin A resin material such as modified PPE (polyphenylene ether), a stainless steel such as SUS304, or a metal material such as an aluminum material can be used.

  As the hollow fiber membrane 2, for example, cellulose-based, polyolefin-based, polyvinyl alcohol-based, polymethyl methacrylate-based, polysulfone-based, polyvinylidene fluoride-based, polyfluorinated ethylene-based, polyacrylonitrile-based, ceramic-based hollow fiber membranes or the like are used. Can be used. Further, the hollow fiber membrane 2 can be selected by appropriately selecting the hole diameter, porosity, film thickness, outer diameter and the like of the hollow fiber membrane 2 according to the purpose of use of the flat hollow fiber membrane module.

  As the material of the buffer member 9, rubber or elastomer such as silicon rubber, fluorine rubber, acrylonitrile butadiene rubber (NBR) or the like can be selected and used depending on the liquid to be treated because it has a repulsive force against pressing.

Next, a method for fixing the flat hollow fiber membrane module 10 will be described.
First, the attachment plate 31 is attached to the other end 11 b side of the first housing 11. At this time, the buffer member 9 b is attached to the second housing side insertion portion 16 of the first housing 11. The material of the buffer member 9b is the same as that of the buffer member 9.
Next, the first housing side insertion portion 14 of the first housing 11 is inserted into the frame side insertion portion 51 a of the frame 4. Next, the position of the mounting plate 31 is aligned with the third support frame body 45, and the mounting plate 31 is fixed to the third support frame body 45 using a fastening member 33 made of a bolt and a nut.
The first housing 11 is fixed to the frame 4 through the above steps.

Next, the third housing side insertion portion 21 of the second housing 12 is inserted into the frame side insertion portion 51 b of the frame 4. Next, the fixing portion 23 of the second housing 12 is fixed to the first support frame body 43 by using a fastening member 33 made of bolts and nuts. In addition, it is preferable to fix the fixing | fixed part 23 via the packing for buffering.
The mounting position of the second housing 12 can be changed by moving the movable plate 52 in the vertical direction. At this time, a spacer (not shown) is interposed between the fixing portion 23 of the second housing 12 and the first support frame body 43 in correspondence with the position of the frame side insertion portion 51 b formed on the movable plate 52. Thus, the parallel relationship between the first housing 11 and the second housing 12 is maintained. In the present embodiment, a mechanism for adjusting the position of the frame side insertion portion 51b by the movable plate 52 and the adjustment long hole 54 is referred to as an attachment length adjustment mechanism.

Thus, the hollow fiber membrane sheet-like assembly 3 can be relaxed by changing the mounting position of the second housing 12. That is, the relaxation rate of the hollow fiber membrane sheet-like assembly 3 can be changed. This relaxation rate is obtained by the following formula, where L1 is the length of the hollow fiber membrane 2 before relaxation (the length due to its own weight of the hollow fiber membrane 2 in a water-containing state) and L2 is the length of the hollow fiber membrane 2 after relaxation. Can do.
Relaxation rate (%) = (L1-L2) / L1 × 100
Through the above steps, the second housing 12 is fixed to the frame 4, and the flat hollow fiber membrane module 10 is fixed to the frame 4.

  According to the present embodiment, when the flat hollow fiber membrane module 10 is fixed to the frame 4, the housing side insertion portions 14, 21 are connected to the frame side difference of the frame 4 on the ends 11 a, 12 a side of the housings 11, 12. It is only necessary to insert it into the insertion portion 51, and only the other ends 11b and 12b of the housings 11 and 12 are fixed by fastening members such as bolts and nuts. Thereby, since it becomes unnecessary to perform a fastening operation | work regarding the one ends 11a and 12a side of the housings 11 and 12, attachment of the flat type hollow fiber membrane module 10 becomes easy. Regarding the removal, the ends 11a and 12a of the housings 11 and 12 can be removed by simply pulling them out, which facilitates the work.

  Moreover, the cross-sectional shape of the housing side insertion parts 14 and 21 is an ellipse (non-circular shape), and these housing side insertion parts 14 and 21 are inserted in the frame side insertion part 51 of a corresponding shape. As a result, the housings 11 and 12 cannot rotate about the axis along the longitudinal direction of the housings 11 and 12, and therefore, the rotation that acts on the longitudinal direction of the housings 11 and 12 as an axis due to vibrations generated during operation. The direction force can be prevented from acting as a tensile force on the hollow fiber membrane 2, and the hollow fiber membrane 2 constituting the flat hollow fiber membrane module 10 can be prevented from being carelessly damaged.

Moreover, the attachment length adjustment mechanism which consists of the movable plate 52, the adjustment long hole 54 grade | etc., Is provided, and the relaxation rate of the hollow fiber membrane 2 can be adjusted by changing the distance of the 1st housing 11 and the 2nd housing 12. FIG. .
Further, the annular cushioning member 9 is interposed between the housing side insertion portions 14 and 21 and the frame side insertion portion 51, so that the housing side insertion portions 14 and 21 and the frame side insertion portion 51 It is possible to allow and absorb the gaps between them, and to relax the demand for dimensional accuracy.
Furthermore, it is possible to prevent vibration from being transmitted to the hollow fiber membrane 2 by making the vibration of the frame 4 difficult to be transmitted to the housings 11 and 12 by the buffer member 9.

  The fixing method on the other end 11b, 12b side of the housing 11, 12 is not limited to the fixing method shown in the present embodiment. For example, if the housings 11, 12 can be securely fixed, for example, a binding band A method of fixing the frame 4 to the frame 4 may be used.

  Further, the shape of the housing side insertion portions 14 and 21 and the shape of the frame side insertion portion 51 corresponding to this are not particularly limited, but the shape can prevent the rotation of the housings 11 and 12 in the inserted state. It is preferable. The shape that can prevent such rotation is not limited to the elliptical shape as shown in the present embodiment. If the housing 11 and 12 can be prevented from rotating in the inserted state, for example, an oval shape is used. (Round-round rectangle), polygonal shape such as a rectangle, a triangle may be used, but by using an elliptical shape, it is easy to use a commercially available product such as an O-ring as a cushioning material, and the load applied to the cushioning material An elliptical shape is more preferable because it can be dispersed almost uniformly.

  According to the present invention, in order to fix the hollow fiber membrane module to the frame, the first housing side insertion portion on one end side of the housing is inserted into the frame side insertion portion of the frame, and the other end side of the housing is fixed. The hollow fiber membrane module may be fixed to the frame by a member, and when removing the hollow fiber membrane module for maintenance or the like, it is possible to remove the fixing member and then pull out the housing side insertion portion from the frame side insertion portion to remove the hollow fiber membrane module from the frame. it can. Therefore, it becomes easy to attach and remove the hollow fiber membrane module. In addition to the intake port that extracts permeate from the hollow fiber membrane module, by providing a fixing part, there is no need to apply a fixed load to the intake port that requires confidentiality and water flow passage securing. It is easy to attach and remove the hollow fiber membrane module without impairing the durability and confidentiality of the hollow fiber membrane module.

DESCRIPTION OF SYMBOLS 1 Hollow fiber membrane module unit 2 Hollow fiber membrane 3 Hollow fiber membrane sheet-like aggregate 4 Frame 9 Buffer member 10 Flat type hollow fiber membrane module (hollow fiber membrane module)
11 First housing (housing)
11a One end 11b The other end 12 Second housing (housing)
13 Water intake 14 First housing side insertion portion 16 Second housing side insertion portion 21 Third housing side insertion portion 23 Fixing portion 33 Fastening member (fixing member)
51 Frame side insertion part 52 Movable plate

Claims (6)

Both ends of the hollow fiber membrane bundle are housed in two separate housings, and at least one end of the hollow fiber membrane bundle is kept open by the fixing resin. A hollow fiber membrane module that is housed and fixed to the housing;
A frame to which the hollow fiber membrane module is fixed,
At least one housing constituting the hollow fiber membrane module is provided with a first housing side insertion portion and a water intake port,
The first housing side insertion portion is fixed by being inserted into a frame side insertion portion corresponding to the first housing side insertion portion provided in the frame,
The other end side of each housing is fixed to the frame by a fixing member ,
Of the first housing side insertion portion and the frame side insertion portion, one has a tip convex shape and the other has a concave shape corresponding thereto,
The tip cross-section of the convex shaped insertion part is non-circular,
The concave-shaped insertion part is a concave part corresponding to the shape of the convex-shaped insertion part,
A hollow fiber membrane module unit in which an attachment length adjusting mechanism is provided in at least one of the recessed insertion portions, and the distance between the two housings can be changed .   The hollow fiber membrane module unit according to claim 1, wherein the first housing side insertion portion is provided on one end side of the housing, and the water intake is provided on the other end side. The hollow fiber membrane module unit according to claim 1 or 2 , wherein an annular buffer member is interposed between the first housing side insertion portion and the frame side insertion portion. The other end side of the housing is further provided with a second housing side insertion portion, and by a fixing member via an attachment member provided with a hole corresponding to the second housing side insertion portion. The hollow fiber membrane module unit of any one of Claims 1-3 currently fixed to the said flame | frame. The mounting member, the hollow fiber membrane module unit according to claim 4, before Symbol second housing-side insertion portion and the holes corresponding to the respective intake ports consists of one of the members provided in parallel. The hollow fiber membrane module unit according to claim 4 or 5 , wherein a buffer member is interposed between the second housing side insertion portion and the attachment member side insertion portion.

Images