JPS6359723B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an in-line fluid separation device using hollow fibers.

(Prior Art) A fluid separation device is known that uses a hollow fiber cartridge in which the open ends of a large number of hollow fibers, one end of which is closed and the other end of which is open, are bundled and fixed with adhesive. 50-149587 etc.). however,
In such a fluid separation device, the inlet for the liquid to be treated and the outlet for the permeated liquid are provided in the housing and the lid, which has a header chamber. It is difficult to replace the thread cartridge. In order to eliminate the above-mentioned drawbacks, the present applicant proposed a hollow fiber cartridge in Utility Model Application No. 56-73501, in which one end of the hollow fiber is closed and the other end is open, and the open end is bundled and fixed with adhesive. We have proposed a fluid separation device that includes a housing having an inlet for a liquid to be treated and an outlet for a permeated liquid, and a lid having a header chamber. In such a device, the inlet for the liquid to be treated and the outlet for the permeate are both provided in the housing, so even after piping the device, if the lid with the header chamber is removed, the hollow fiber cartridge can be pulled out to the top of the housing. be able to.

(Problems to be Solved by the Invention) In the above-mentioned apparatus, in order to extract the hollow fiber cartridge to the upper part, it is necessary to provide a space in the upper part of the apparatus for extracting the cartridge. However, it is practically difficult to provide such a space in a narrow site. Further, when a cartridge with cake or the like attached thereto is removed, the permeate side is contaminated, and the vicinity of the apparatus is also contaminated.

(Means for Solving the Problems) The present inventors have arrived at the present invention as a result of intensive studies to provide a device that solves the above-mentioned problems. That is, the present invention is an in-line type fluid separation device using hollow fibers, in which a plurality of hollow fibers whose tips are sealed and the other ends of the hollow fibers are fixed together with adhesive so that each hollow fiber is open at the other end. A thread cartridge, a cylindrical casing in which the hollow fiber cartridge is housed and having a flange on the upper part that supports a convergence fixing part of the hollow fiber cartridge, and a to-be-treated liquid inlet and a permeated liquid outlet at symmetrical positions on the side wall. and a lid body provided with a first opening communicating with the permeated liquid outlet at the center of the bottom wall, and a second opening spaced apart from the first opening and communicating with the treated liquid inlet, The focusing fixing part of the hollow fiber cartridge is inserted into the first opening provided in the bottom wall of the lid, and the upper end opening of the housing is liquid-tightly attached to the lid. Fluid separation, characterized in that the focusing fixing part is engaged with a flange provided on the top of a cylindrical casing, and the focusing fixing part is fluid-tightly attached to a first opening provided in a lid body. It is a device.

(Function) In the present invention, the inlet of the liquid to be treated and the outlet of the permeated liquid are provided in the lid, and the inlet of the liquid to be treated and the permeated liquid outlet are provided in a symmetrical device (in-line). With this configuration, it is easy to attach the device to the line, and when replacing the hollow fiber cartridge, the housing and the hollow fiber cartridge are attached and detached in the same direction, so only a small amount of space is required when attaching and detaching, and the hollow fiber cartridge This has the excellent effect that the permeate side is less likely to be contaminated when replacing the cartridge. Furthermore, since the inlet of the liquid to be treated and the outlet of the permeated liquid are provided in a straight line (in-line), arrangement and piping of the apparatus are easy.

(Embodiment) Next, an embodiment of the fluid separation device of the present invention will be described with reference to the drawings. As shown in FIG. 1, the apparatus of the present invention comprises a hollow fiber cartridge 3, a casing 1 for housing the cartridge, and a lid 2 for attaching the casing.

Examples of the hollow fiber cartridge include, for example, a hollow fiber cartridge in which each hollow fiber 4 is bundled and fixed with an adhesive so that the upper end thereof is open, as shown in FIG. 4, and the lower end opening is closed with an adhesive, as shown in FIG. Hollow fiber 4
A hollow fiber cartridge whose lower end is formed into a loop shape, in this case, arranging the lower end loops in a ring shape has the advantage of creating a cavity inside the hollow fiber bundle and improving overefficiency. As shown in FIG. 6, the hollow fiber cartridge 4 with its lower end opening closed is housed in a self-supporting net-like or porous cylinder 6 made of plastic or metal, or as shown in FIG. 7, the lower end is opened. There is a hollow fiber cartridge in which a hollow fiber 4 with a closed hole is accommodated in a porous protection tube 8 made of ceramic or resin for primary passage. When sealing the hollow fiber cartridge 3 with an O-ring, it is necessary to form an annular groove (not shown) in which the O-ring is attached to the hollow fiber convergence fixing part 5. In order to ensure a reliable seal, it is preferable to provide a plurality of annular grooves, usually two. In the case of sealing with a flat packing, the above-mentioned annular groove is not necessary.

A cylindrical casing 1 having an opening at the top is provided with a flange 11 inside the top thereof to support the convergence fixing part 5 of the hollow fiber cartridge 3. The flange is provided with a plurality of holes or notches 12 through which the liquid to be treated passes. 4th in the above case
The hollow fiber cartridge shown in FIG. 5, FIG. 6, or FIG. 7 is accommodated, and its convergence fixing part 5 is supported by a flange 11 provided at the upper part of the housing.

On the other hand, a lid body 2 is attached to the opening of the housing 1 in a liquid-tight manner.
is provided with a first opening communicating with the permeate outlet 13 at the center of its bottom wall. Further, a second opening is provided spaced apart from the first opening and communicating with the liquid to be treated inlet 14 . The first and second openings communicating with the permeated liquid outlet 13 and the treated liquid inlet 14 are arranged in the same straight line (in-line) with the flow paths changed by 90 degrees inside the lid.
The pipes are open to the permeated liquid outlet pipe (not shown) and are connected to the to-be-treated liquid inlet pipe (not shown), respectively. A hollow fiber cartridge 3 is fluid-tightly attached to the first opening communicating with the permeate outlet 13 via a packing 15 so as to communicate with the inside of the hollow fiber 4 opening in the focusing fixing part 5. There is. A band coupling 17 connects the housing 1 and the housing 2 through a gasket 18 in a liquid-tight manner. These gaskets 15 and 18 make the treated liquid chamber 19 and the permeated liquid chamber 20 have a liquid-tight structure by separating the wall membrane of the hollow fibers. That is, the liquid to be treated enters the liquid to be treated chamber 19 outside the hollow fiber 3 from the liquid to be treated inlet 14 . The permeate that has permeated through the hollow fiber wall membrane passes through a passage inside the hollow fiber, is collected in a permeate chamber 20, and is taken out from a permeate outlet 13. On the other hand, components that do not pass through the hollow fiber membrane wall are appropriately taken out from the lower discharge port 21 of the housing 1.
When the hollow fibers deteriorate or become clogged, the liquid to be treated in the housing is first extracted from the discharge port 21, and then
The band coupling ring 17 is removed from the lid 2 to separate the lid 2 and the casing 1. Then, the hollow fiber cartridge 3 is removed from the housing. After that, a new hollow fiber cartridge is inserted into the first opening provided in the lid body 2, and then the housing 1 is attached to the lid body through the hollow fiber cartridge, so that the focusing fixing part of the hollow fiber cartridge is attached to the housing. The focusing fixing part can be fluid-tightly mounted in the first opening by engaging with a flange provided on the upper part of the focusing fixing part.

The above device is normally used with the lid placed on the top of the housing as shown in FIG. 1, but depending on where the device is installed, it may be used in an inverted or horizontal position. In this case, it is preferable to provide a discharge port for the liquid to be treated in the housing in the liquid to be treated pipe.

FIG. 2 shows an example of a cartridge in which a hollow fiber and a casing are integrated, and a hollow fiber convergence fixing part 5 is adhesively fixed to the upper part of the casing 1. The upper side wall of the housing 1 is provided with a plurality of openings 16 for allowing the liquid to be processed to flow into the housing from the second opening, and the lower part of the plurality of openings 16 is provided for attaching the housing to the lid. A flange 27 is provided. The liquid to be treated is introduced from the liquid to be treated inlet 14 provided in the lid body 2,
The second opening enters the housing through a plurality of openings 16 provided in the upper side wall of the housing 1. With this device, if the hollow fibers deteriorate or become clogged, the casing 1
Can be replaced entirely.

FIG. 3 shows another example of an integrated cartridge of hollow fibers 4 and a housing 1, in which a large number of hollow fibers 4 are bundled at the upper end of the housing 1 and fixed with an adhesive 5. In addition, the liquid to be treated inlet 1 provided on the bottom wall of the lid of the focusing fixing part 5
An opening 28 for introducing the liquid to be treated into the housing is provided at a position corresponding to the opening communicating with the opening 4 .

As the hollow fibers used in the device of the present invention, commonly known materials such as polysulfone fibers, polyacrylonitrile-based materials, cellulose-based materials such as cellulose acetate, polyamide-based materials, polycarbonate-based materials, and polyvinyl alcohol-based materials can be used. Since it has excellent chemical resistance such as acid resistance, alkali resistance, and oxidation resistance, it is preferably used because the membrane can be regenerated by chemical washing with oxidizing agents, acids, alkalis, etc.

Further, as the adhesive for converging and fixing the hollow fibers, a polyurethane-based adhesive, a silicone-based adhesive, an epoxy-based adhesive, or the like can be used. In particular, in applications requiring heat resistance and chemical resistance, imidazole-based cured epoxy resins are preferably used.

The housing and lid that house the above hollow fiber cartridge are usually made of acrylic, polycarbonate, hard PVC,
Resins such as polysulfone are used, but when processing high-temperature liquids using polysulfone hollow fibers, which have excellent heat and chemical resistance as hollow fiber cartridges, the housing and lid must be heat and chemical resistant. It is preferable to use polysulfone resin, which has excellent properties. Of course, metal such as stainless steel may be used.

(Effects of the Invention) According to the present invention, when it is desired to replace the hollow fiber cartridge, it can be easily replaced by removing the housing. Further, in this case, even if the separation device is fixed with a pipe, it is not necessary to remove the inlet pipe for the liquid to be treated and the outlet pipe for the permeated liquid, making it extremely easy to replace the hollow fiber cartridge.

[Brief explanation of the drawing]

1 to 3 are cross-sectional views of the device of the present invention,
4 to 7 are structural explanatory diagrams of the hollow fiber cartridge. 1... Housing, 2... Lid body, 3... Hollow fiber cartridge.

Claims (1)

[Claims] 1. An in-line type fluid separation device using hollow fibers, which includes a hollow fiber cartridge in which a plurality of hollow fibers whose tips are sealed and the other ends of the hollow fibers are bundled and fixed with an adhesive so that each hollow fiber is open; The hollow fiber cartridge is housed in a cylindrical casing having a flange on the upper part that supports the convergence fixing part of the hollow fiber cartridge, and a cylindrical casing having an inlet for the liquid to be treated and an outlet for the permeated liquid at symmetrical positions on the side wall; The hollow fiber cartridge is provided with a lid having a first opening in the center of the wall that communicates with the permeated liquid outlet, and a second opening that is spaced apart from the first opening and communicates with the to-be-treated liquid inlet. The focusing fixing part of the hollow fiber cartridge is inserted into the first opening provided in the bottom wall of the lid body, and the upper end opening of the housing is liquid-tightly attached to the lid body, and the focusing fixing part of the hollow fiber cartridge is The focusing fixing part is engaged with the flange provided on the upper part of the cylindrical housing, and the focusing fixing part is connected to the first part provided on the lid body.
A fluid separation device characterized by being fluid-tightly attached to an opening of a fluid.