JPS63218222A - Filter device - Google Patents

Abstract

PURPOSE:To easily exchange indivisual ceramic filters and to easily reconstruct, by supporting end plates with stanchions to make into a frame, inserting ceramic filters into the through holes provided to the end plates, and sealing the ceramic pipes with packing. CONSTITUTION:Plural stanchions 2 are provided between two end plates 1 having plural through holes the diameter of which is larger than the outer diameter of pipe-shaped ceramic filter 5, and are fastened by hexagon nuts. Plural pipe-shaped ceramic filters 5 are inserted into the through holes provided to the two end plates 1, and the clearance between each through hole of the end plates 1 and each ceramic pipe 5 is sealed with packing 6. The ceramic filter modules consisting of above-mentioned structural members are housed in a cylindrical filter vessel 12. Thus, even when the ceramic filters are made into a module, the individual ceramic filters are easily exchanged and the reconstruction is easy, and the sealing is free from trouble even when heated.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a filtration device in which a ceramic filter is modularized.

[Conventional technology] Ceramic filters have excellent heat resistance, acid resistance, and abrasion resistance, and cross-flow filtration using tubular ceramic filters in particular provides high filtration efficiency, so they are expected to be applied to many filtration devices. ing. Increasing the capacity of these filtration devices will become a major issue in the future. Efforts are being made to increase capacity. However, since there is a limit to increasing the capacity of a single tubular ceramic filter, modularization of ceramic filters is being promoted. This modularization is achieved by connecting a plurality of tubular ceramic filters in parallel and in series.

Conventionally, parallelization of tubular ceramic filters involves sealing both ends of multiple tubular ceramic filters by integrally fixing them to end plates made of polyvinyl chloride, acrylic resin, phenolic resin, etc., and then placing the filters in a cylindrical filter container. This was done by accommodating people.

Furthermore, series connection is achieved by connecting a plurality of parallel ceramic filter modules as described above, joining their end plates to each other via, for example, an O-ring, and housing them in a cylindrical filter container. Ta. In this case, the filtrate was taken out of the filter container for each ceramic filter module.

[Problems to be Solved by the Invention] However, in a conventional filtration device in which both ends of a plurality of ceramic filters are integrally fixed to a resin end plate, for example, for repair, it is difficult to connect the ceramic filters and the end plates. It was difficult to replace or reassemble just one ceramic filter. In addition, sterilization (particularly steam sterilization) is essential for filtration equipment that handles bacterial cells, etc., but with conventional structures, when heat is applied, small gaps tend to form due to the difference in thermal expansion between resin and ceramics, resulting in poor sealing performance. Problems sometimes arose. Furthermore, the problem of 0 or more, which has the drawback that the resin easily deteriorates when subjected to heating/cooling cycles, becomes more pronounced in a filtration device in which parallel ceramic filter modules are further connected in series.

In addition, in a filtration device in which ceramic filters are connected in parallel or in series, when the filtrate is taken out of the filter container for each parallel ceramic filter module, the recovery rate of the filtrate may decrease. .

The present invention has been made to solve the above problems, and even if ceramic filters are made into modules, each ceramic filter can be easily replaced or reassembled, and even when heat is applied, there is a problem with sealing performance. It is an object of the present invention to provide a filtration device in which the recovery efficiency of filtrate does not decrease even when connected in series.

[Means for Solving the Problems] The filtration device of the present invention includes two end plates each having a plurality of through holes having a diameter larger than the outer diameter of a tubular ceramic filter;
A plurality of pillars sandwiched between the two end plates to support these end plates, a plurality of tubular ceramic filters inserted into through holes provided in the two end plates, and each of the end plates. The present invention is characterized by comprising a packing that seals between the through hole and each ceramic filter, and a cylindrical filter container that accommodates a ceramic filter module made up of the above-mentioned components.

In the present invention, it is desirable to use metal as the end plate.

The filtration device with the above-mentioned configuration has ceramic filters arranged in parallel, but in order to further connect them in series, multiple ceramic filter modules are connected in series via an O-ring and the filtrate flows through the joint. What is necessary is just to provide a hole and accommodate it in a cylindrical filter container.

In addition, the packing and O-ring are made of fluororesin,
Materials such as silicone resin, butyl rubber, natural rubber, and python are used. The above fluororesin has excellent heat resistance and acid resistance. Silicone resin has some excellent heat resistance, chemical resistance, and abrasion resistance. Butyl rubber in particular.

[Function] According to the above-mentioned filtration device, the end plate is supported by the pillars to form a frame, and the through holes of the end plate and the ceramic filter are individually sealed with packing, so that it can be easily repaired, for example. It is much easier to replace or reassemble only one ceramic filter than before. In addition, the packing used has rubber elasticity, so even when heat is applied, the sealing performance is far less adversely affected than before.In addition, the packing is made of an appropriate material depending on the properties of the stock solution. By using an O-ring or an O-ring, the above effects can be maintained for a long time.

Furthermore, if a filtrate flow hole is provided in the case of a direct connection, all the filtrate can be taken out from one place to the outside of the filter container, thereby improving the recovery rate of the filtrate.

[Example] Below, an example of the present invention will be explained with reference to the drawings.The filtration device of this example has a hexagonal column shape with 850 layers and a length that accommodates 18 stock solution distribution holes with a diameter of 4 mm. 19 alumina ceramic filters are arranged in parallel, and two of these modules are connected in series, one above the other, resulting in a total length of 2000mm and a diameter of 500mm.
It is housed in a stainless steel filter container (2).

In addition, Fig. 1 is a longitudinal cross-sectional view of this filtration device with some parts omitted (the cross section is not a plane, but has an angle with the center line as the boundary), and Fig. 2 is an enlarged view of the joints of the filtration device. FIG. 3(a) is an enlarged sectional view taken along line A-A' in FIG. 2, and FIG.
b) is an enlarged sectional view taken along line BB' in FIG. 2;

5S1 to 3, a plurality of support columns 2 are sandwiched between two stainless steel end plates 1 via O-rings 3, and are attached with hexagonal nuts 4. J: The end plate l is provided with 19 through holes 1a having a diameter larger than the outer diameter of a ceramic filter to be described later. 2 end plates 1
A ceramic filter 5 having 19 undiluted solution distribution holes 5a (in FIG. 2, the undiluted solution distribution holes 5a are omitted for ceramic filters 5 other than those placed in the center) is inserted into the through hole 1a of the packing. Through hole 1 by 6
A-ceramic filter 5 is sealed. A packing press plate 7 is attached to an O-ring 8 on the top and bottom of the two end plates 1.
and is attached by port 9.

The packing press plate 7 is provided with a stock solution flow hole 7a corresponding to the end face of the ceramic filter 5, and a plurality of filtrate flow holes 7b are provided on the peripheral edge. A ceramic filter module is constructed by parallelizing 18 trees. The ceramic filter module is attached by a port 13 by bringing the outermost edge of the packing presser plate 7 and the flange 12a of the filter container 12 into close contact with each other via an O-ring 13. In this state, two sets of ceramic filter modules are stacked one on top of the other between the packing press plate 7 via the O-ring 10 around the stock solution flow hole 7a and the O-ring 11 on the peripheral edge, and the upper and lower filter containers 12 are attached to the flange part 12a. It is installed by Porto Natsuto 15. Further, a stock solution supply port 16 and a stock solution discharge port (not shown) are provided at the lower and upper ends of the filter container 12, respectively. Note that the lower filter container 12 has a filtrate outlet 1.
7 and a drain 18 are provided.

In the filtration device configured as described above, the end plate l is supported by the pillar 2 to form a strong frame, and the space between the through hole 1a of the end plate l and the ceramic filter 5 is individually sealed by the packing 6. There is. Therefore, for example, it is much easier to replace only one ceramic filter 5 or to reassemble it at the time of repair than in the past. In addition, the packing 6 is made of rubber elastic material, so even if heat is applied, the sealing performance is far less likely to be adversely affected than in the past.
b are provided and connected in series, all the filtrate can be taken out from the filtrate outlet 17 to the outside of the filter container 12, thereby improving the recovery rate of the filtrate.

[Effects of the Invention] As detailed above, according to the present invention, when ceramic filters are modularized, each ceramic filter can be easily replaced or reassembled, and there is no problem with sealing performance even when heat is applied. Therefore, it is possible to provide a large-capacity filtration device in which the filtrate does not occur and the recovery efficiency of the filtrate does not decrease even when the filtrate is connected in series.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view partially omitted showing a filtration device in an embodiment of the present invention, FIG. 2 is an enlarged plan view showing a joint part of the filtration device, and FIG. FIG. 2B is an enlarged sectional view taken along line AA' in the figure, and FIG. 2B is an enlarged sectional view taken along line BB' in FIG. 1... End plate, 2... Support, 3... 0 ring, 4...
...Hexagonal nut, 5...Ceramic filter, 6...
・Packing, 7...Packing press plate, 8...O
Ring, 9...bolt, 10...0 ring, 11.
...O-ring, 12...filter container, 13...
0 ring, 14... Bolt, 15... Bolt/nut, 1B... Stock solution supply port, +7... Filtrate outlet, 18... Drain. Applicant's agent Patent attorney Takehiko Suzue Figure 2

Claims (3)

[Claims] (1) two end plates having a plurality of through holes with a diameter larger than the outer diameter of the tubular ceramic filter; a plurality of struts sandwiched between the two end plates to support these end plates; A plurality of tubular ceramic filters inserted into through holes provided in two end plates, a packing that seals between each through hole of the end plate and each ceramic filter, and a ceramic made of each of the above components. A filtration device comprising a cylindrical filter container that accommodates a filter module. (2) Connect multiple ceramic filter modules in series via O-rings and provide filtrate flow holes at the joints,
The filtration device according to claim 1, wherein the filtration device is housed in a cylindrical filter container. (3) The filtration device according to claim 1 or 2, wherein the packing and the O-ring are made of fluororesin, silicone resin, butyl rubber, natural rubber, or the like.