JPH0725212Y2 - Immersion type membrane module - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Industrial Field of the Invention The present invention relates to a submerged membrane module.

2. Description of the Related Art Immersion type membrane modules are equipped with a tubular ceramic membrane and are provided, for example, inside sludge treatment tanks and are used for filtering and removing only clear liquid from sludge to be treated. .

FIG. 3 and FIG. 4 show an example of this type of conventional immersion type membrane module, which will be described below with reference to the drawings. In the figure, the submerged membrane module has a plurality of tube-shaped ceramic membranes 1, and both ends of the ceramic membranes 1 are supported by headers 2 and 3 so that they are arranged in parallel at intervals. ing. One header 2 has a suction chamber 4 and a face plate 5, and one end of each ceramic film 1 penetrates the face plate 5 and opens inside the suction chamber 4. These ceramic films 1 are fixed to the header 2 with an adhesive 6. Further, the header 2 is provided with a suction port 7 for communicating the suction chamber 4 with the outside. The other header 3 has a recess 8 inside and is formed in a U-shaped cross section. The other end of the ceramic film 1 is located in the recess 8 and its open end is closed by the header 3. Has been. The concave portion 8 is filled with an adhesive 9, and the ceramic film 1 is fixed to the header 3 by the adhesive 9. In addition, both headers 2,3
In order to protect the ceramic film 1 and to rectify it,
A pair of plastic guide plates 10 facing each other are passed over. The guide plate 10 and the headers 2 and 3 are fixed to each other with an adhesive or the like.

The submerged membrane module having the above configuration is immersed in the sludge to be treated inside the sludge treatment tank, for example. Then, as shown in FIG. 4, the sludge 11 flows, is rectified by the guide plate 10 and passes between the ceramic membranes 1. At this time, suction port 7
When negative suction pressure is applied to the sludge, the sludge 11 is filtered by the ceramic membrane 1 and the clear water generated by the filtration is sucked into the suction chamber 4
And it is discharged to the outside through the suction port 7.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention However, in the submerged membrane module having the above configuration, when the ceramic membrane 1 is used by being immersed in the sludge to be treated inside the sludge treatment tank, the headers 2 on both ends of each ceramic membrane 1 are used. There was a problem that bending moment was generated by water flow between 3 and 3, and it was broken.

The present invention solves such a problem, and an object thereof is to prevent breakage of a ceramic film due to a bending moment.

Means for Solving the Problem In order to solve this problem, the present invention is an external pressure type membrane module that is disposed by being immersed in a treatment tank and utilizes suction pressure, and is provided on both ends of a plurality of tubular ceramic membranes. A header is provided, a pair of opposing guide plates are provided across both headers, one header is provided with a face plate that supports one end of each ceramic membrane, and a suction chamber is defined by the face plate. The header has a suction port that communicates the suction chamber with the outside, the other header closes the other end opening of each ceramic film, and it is passed between the pair of guide plates at appropriate intervals in the longitudinal direction of the ceramic film. A plurality of reinforcing plates are provided at the positions, a plurality of holes are provided in each reinforcing plate, and each ceramic film is arranged so as to be inserted into each hole.

Action With this configuration, even if a bending moment due to a water flow acts on the tubular membrane, the tubular membrane is reinforced by the reinforcing plates at positions at appropriate intervals in the longitudinal direction, so that the tubular membrane is prevented from being broken. be able to.

Embodiment One embodiment of the present invention will be described below with reference to FIGS. 1 and 2. In the drawings, the same reference numerals as those in the conventional example indicate the same members, and detailed description thereof will be omitted.

In the figure, a reinforcing plate 12 made of plastic or rubber is provided between a pair of opposed plastic guide plates 10 and 10 at appropriate intervals in the longitudinal direction of the tubular ceramic membrane 1 in parallel with the liquid flow direction. Has been. Specifically, the reinforcing plate 12 is formed with a plurality of holes 13 through which the plurality of ceramic membranes 1 are inserted. The ceramic film 1 is inserted through each of the holes 13, and the end of the reinforcing plate 12 is bonded to the guide plate 10. It is fixed with an agent. The hole
The inner diameter of 13 is slightly larger than the outer diameter of the ceramic membrane 1, and the holes 13
A gap 14 is formed between the inner surface of the ceramic film 1 and the outer surface of the ceramic film 1.

Since other configurations are the same as those of the conventional example, the details thereof will be omitted.

When the immersion type membrane module having the above-mentioned configuration is immersed in a liquid to be treated and used, a bending moment due to a water flow acts on each ceramic membrane 1, but each ceramic membrane 1 is reinforced at positions at appropriate intervals in the longitudinal direction. The ceramic membrane 1 is inserted into the hole 13 of the plate 12, and even if a bending moment acts, the outer surface of the ceramic film 1 abuts against and is supported by the inner surface of the hole 13 to prevent deformation. Thereby, breakage of the ceramic film 1 due to the bending moment can be prevented.

As described above, according to the present invention, since the tubular membrane is reinforced by the reinforcing plate at appropriate intervals in the longitudinal direction even when the bending moment due to the water flow acts on the tubular membrane, It is possible to prevent breakage of the tubular membrane.

[Brief description of drawings]

FIG. 1 is a sectional view of an immersion type membrane module according to an embodiment of the present invention, FIG. 2 is an enlarged view of an essential part of FIG. 1, FIG. 3 is a sectional view of a conventional immersion type membrane module, and FIG. X- in FIG.
It is an X sectional view. 1 ... Ceramic membrane, 2, 3 ... Header, 10 ... Guide plate, 12 ... Reinforcing plate, 13 ... Hole, 14 ... Gap.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Yoshihisa Narukami Inventor Yoshihisa Narukami 1-2-47 Shikizu East, Naniwa-ku, Osaka City, Kubota Iron Works Co., Ltd. (72) Masatsugu Yamagata Shiketsu, Naniwa-ku, Osaka City, Osaka Prefecture Higashi 1-Chome 2-47 Kubota Iron Works Co., Ltd. (56) Bibliography SHO 56-121402 (JP, U) SHO 54-8110 (JP, Y2)

Claims (1)

[Scope of utility model registration request] 1. An external pressure type membrane module which is placed by dipping in a treatment tank and utilizes suction pressure, wherein headers are arranged at both ends of a plurality of tubular ceramic membranes and passed between both headers. Providing a pair of guide plates facing each other,
One header is provided with a face plate that supports one end of each ceramic membrane, and the face plate defines a suction chamber, one header is provided with a suction port that communicates the suction chamber with the outside, and the other header is used to form each ceramic membrane. Close the other end opening of
A plurality of reinforcing plates are provided between the pair of guide plates at appropriate intervals in the longitudinal direction of the ceramic film, a plurality of holes are provided in each reinforcing plate, and each ceramic film is placed through each hole. The immersion type membrane module characterized by the above.