JPH04126799U - water purifier - Google Patents

Abstract

(57) [Summary] [Purpose] To prevent damage to hollow fibers, improve the workability of assembling hollow fiber membrane modules, and improve water purification performance by suppressing the proliferation of microorganisms on hollow fiber membranes. To provide a water purifier which exhibits the following properties and further enables protection of a hollow fiber membrane module with a simple structure. [Structure] A cartridge body 6 is disposed in a container 5 having an inlet 1 for raw water and an outlet 2 for purified water. An activated carbon layer 23 such as granular activated carbon is housed in the cartridge body 6. A hollow fiber membrane module 8 is disposed inside 23 (on the outflow side of the activated carbon layer). This hollow fiber membrane module 8 consists of hollow fibers 9 that have numerous micropores formed on their side surfaces.
The opening at the end is fixed with a potting agent 10 such as resin, and the mounting tube 11 is fixed at the end position of the potting agent 10. Furthermore, a reticulated net 12 having elasticity is attached to the mounting tube 11.
The activated carbon layer 23 is fixed to the inner periphery of the hollow fiber membrane module 8, and the outer periphery of the hollow fiber membrane module 8 is covered with the reticulated net 12, and the activated carbon layer 23 is disposed through the reticulated net 12.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to a water purifier that uses hollow fiber membrane modules to filter drinking water, etc. It is something.

0002

[Conventional technology]

A hollow fiber membrane module is constructed by bundling hollow fibers with countless micropores. Compared to flat membranes, there is no need for a support, so the membrane per unit volume is Since it has the advantage of taking up a large area, it can be used in the semiconductor manufacturing field, chemical industry field, or food industry. It is widely used in industrial fields such as fields. A specific example of a conventional hollow fiber membrane module will be explained according to FIGS. 4 and 5. In Fig. 4, 31 is a hollow fiber with numerous micropores formed on its side surface. A large number of hollow fibers 31 are bundled and bent into a U-shape, and the end opening of the hollow fibers is filled with a pot of resin or the like. The hollow fiber membrane module 33 is fixed by the tensile agent 32, and this module 33 An outer cylinder 34 made of a rigid material is fixed to the outer periphery of the potting agent 32 to form a hollow fiber membrane. It serves as a protector that protects the outer periphery of the module 33. In addition, in FIG. 5, a large number of hollow fibers 35 are bundled and the openings at both ends are filled with resin or the like. The potting agent 36 is used to fix the hollow fiber membrane module 37. An outer cylinder 38 formed of a rigid material is fixed to the outer peripheral position of 36, 36, and the side of this outer cylinder 38 is fixed. A large number of communication holes 39 are formed on the surface.

0003

[Problem that the idea aims to solve]

However, the conventional hollow fiber membrane module described above uses a rigid outer cylinder as a protector. Therefore, it occupies a large volume, which imposes restrictions on the overall configuration. Furthermore, the fluid flowing in from the opening of the outer cylinder is the cause of the fluid pressure, etc. There have also been cases where hollow fiber membrane modules have been damaged. In addition, hollow fiber membrane modi The module itself is separated from the activated carbon layer by the outer cylinder, so the activated carbon Although residual chlorine for sterilization is removed, microorganisms may adhere to the surface of the hollow fiber membrane module. In this case, many of the decomposed substances that are metabolites of microorganisms are chemical substances such as hydrogen sulfide. This causes strange and foul odors, leading to a decline in the product value as a water purifier. there was.

0004 This invention was developed to solve the above problems, and it prevents damage to hollow fibers. In order to improve the ease of assembling hollow fiber membrane modules, we also aim to prevent It suppresses the proliferation of microorganisms in the water, improves water purification ability, and has a simple structure. The purpose of the present invention is to provide a water purifier that can protect a hollow fiber membrane module.

[0005]

[Means to solve the problem]

To achieve the above purpose, the present invention has a raw water inlet and a purified water outlet. In water purifiers with a built-in hollow fiber membrane module inside the container, this hollow fiber membrane module The outer periphery of the cell is covered with a porous cylindrical member having elasticity, and the porous cylindrical member is This is a water purifier equipped with an activated carbon layer.

[0006] This porous cylindrical member is made of materials such as polymers, metals, or fibers and is formed into a net shape that expands and contracts. In addition, it is preferable to configure the porous cylindrical member to have antibacterial properties. Yes. In this case, all or part of the porous cylindrical member is coated with silver or a silver compound. It can be made to have antibacterial properties by being mixed with or mixed with other substances. The opening is 0.1mm to 5cm. It is preferable to have one.

[0007]

[Effect]

As mentioned above, the present invention uses a porous cylindrical shape with elasticity to form the outer periphery of the hollow fiber membrane module. Because it is covered with a material, many bundled hollow fibers will not be damaged when assembling the hollow fiber membrane module. There is no chance of damage to the module as it will not get caught. In this case, the raw water flowing in from the inlet is contained by the activated carbon layer inside the container. Residual chlorine for disinfection is removed. After that, the hollow fiber membrane module's function Microorganisms adhere to the surface of the membrane, and only purified water flows out from the outlet. This hollow fiber membrane module Odors caused by microorganisms attached to the surface of the tube can be removed through a porous cylindrical member. Since it is adsorbed by the activated carbon layer, there is no strange odor, so it is suitable for water quality conditions. It is possible to supply sufficient drinking water etc.

[0008] This porous cylindrical member is made of materials such as polymers, metals, or fibers and is formed into a net shape that expands and contracts. In addition, all or part of the porous cylindrical member is coated with silver or a silver compound. Furthermore, if it is configured to have antibacterial properties by being mixed with It can suppress the growth of bacteria and microorganisms and enhance its function as a water purifier. Can be done.

[0009]

【Example】

An example in which the present invention is applied to a water purifier for drinking water will be explained below in detail according to the drawings. I will clarify. Housing head 3 and housing having a raw water inlet 1 and a purified water outlet 2 The container 5 is constructed by combining the holding bodies 4 by screwing means or the like. This container 5 A cartridge body 6 is disposed inside, and a The purified water passage section 7 is screwed to the inner wall of the outlet 2.

0010 Inside the cartridge body 6, an activated carbon layer 23 such as granular activated carbon is stored. A hollow fiber membrane module 8 is arranged inside this activated carbon layer 23 (on the outflow side of the activated carbon layer). ing. In FIGS. 1 and 2, this hollow fiber membrane module 8 has numerous A large number of hollow fibers 9 with micropores formed therein are bundled and bent into a U-shape. The opening of the end is fixed with a potting agent 10 such as resin, and the end of the potting agent 10 is fixed. At the same time, fix the mounting tube 11 in the position of the It is fixed to the inner periphery of the attached tube 11, and the outer periphery of the hollow fiber membrane module 8 is attached to this porous cylindrical part. material 12, and an activated carbon layer 23 is disposed through this porous cylindrical member 12. It is composed of sea urchins. In addition, the threaded portion 13 formed on the mounting tube 11 is attached to the cartridge body. It is screwed onto the female thread 14 of the purified water flow path section 7 of No. 6.

[0011] This porous cylindrical member 12 is formed into a net shape using a material such as polymer, metal, or fiber. It has elasticity. Furthermore, all or part of the porous cylindrical member 12 is coated with silver or silver. The surface of the hollow fiber membrane module 8 is coated or mixed with a compound to give it antibacterial properties. Suppresses bacterial growth on surfaces. The porous cylindrical member 12 in this example is made of polyester. Made of ethylene, it is formed into a net with an opening of 0.1 mm to 5 cm. , it may be cylindrical or may be formed into a bag shape with one end closed.

0012 Another example of the hollow fiber membrane module 15 will be described with reference to FIG. A hollow fiber membrane module is created by bundling several bundles and fixing the openings at both ends with a potting agent 16 such as resin. The outer cylinder 18 is fixed to the outer peripheral position of the potting agents 16, 16. , a large number of communication holes 19 are formed in the side surface of this outer cylinder 18. Furthermore, this hollow fiber membrane The outer peripheral surface of the module 15 is coated with a porous cylindrical member 12 similar to the above embodiment. This prevents the hollow fibers from being damaged when fluid flows in from the communication hole 19.

[0013] In addition, a bottom plate 20 and a presser plate 21 provided in the lower bottom opening of the cartridge main body 6 are connected to each other. A pre-filter 22 is provided between them, and communication holes 20 are provided in the bottom plate 20 and the presser plate 21, respectively. a, 21a are provided.

[0014] Next, the operation of the above embodiment will be explained. As shown in FIG. 2, the outer periphery of the hollow fiber membrane module 8 is made of stretchable polyethylene. Since it is covered with a reticulated net 12 made of Since the bundled hollow fibers 9 will not be caught carelessly, the hollow fiber membrane module, which is easy to break, can be This simplifies assembly work without damaging the module. When in use, raw water flowing in from the inlet 1 flows into the cartridge body in the container 5. 6 flows into the activated carbon layer 23 through the pre-filter 2 provided at the bottom of the activated carbon layer 23. 23, residual chlorine for disinfection contained in the raw water is removed. Then, the hollow fiber membrane Microorganisms, etc. are filtered by the function of module 8, and these microorganisms, etc. are deposited on the surface of the hollow fiber membrane. adheres to the water, and only purified water flows out from the outlet 2. The surface of this hollow fiber membrane module 8 Odors caused by microorganisms attached to Since it is adsorbed by the coal seam 23, there is no strange odor, so the so-called It can provide delicious water.

[0015] Furthermore, all or part of this reticular net 12 is coated with silver or a silver compound. Alternatively, if it is mixed with antibacterial properties, bacteria and microorganisms on the hollow fiber membrane can be prevented. Breeding can be suppressed and the function as a water purifier can be enhanced.

[0016]

[Effect of the idea]

As is clear from the above explanation, according to the present invention, the hollow fiber can be prevented from being damaged. This improves workability when assembling the hollow fiber membrane module. It is especially useful for home water purifiers because it can suppress the growth of microorganisms on the membrane. can increase value. Furthermore, the present invention has a simple structure and can be used as a hollow fiber membrane module. It is possible to provide a water purifier that can protect the water.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view showing an embodiment in which the present invention is applied to a water purifier.

FIG. 2 is an enlarged perspective view of the hollow fiber membrane module of the water purifier shown in FIG. 1.

FIG. 3 is an enlarged perspective view showing another example of a hollow fiber membrane module in a water purifier.

FIG. 4 is a sectional view showing a hollow fiber membrane module of a conventional water purifier.

FIG. 5 is a sectional view showing a hollow fiber membrane module of a conventional water purifier.

[Explanation of symbols]

1 Inlet 2 Outlet 5 Container 6 Cartridge body 8 Hollow fiber membrane module 9 Hollow fiber 11 Mounting tube 12 Porous cylindrical member 15 Hollow fiber membrane module 19 Communication hole

Continuation of front page (51) Int.Cl. ⁵ Identification code Internal reference number FI Technical display location C02F 9/00 Z 6647-4D

Claims (5)

[Scope of utility model registration request] [Claim 1] A water purifier in which a hollow fiber membrane module is built in a container having an inlet for raw water and an outlet for purified water,
A water purifier characterized in that the outer periphery of the hollow fiber membrane module is covered with a porous cylindrical member having elasticity, and an activated carbon layer is provided through the porous cylindrical member. [Claim 2] Claim 1, wherein the porous cylindrical member is made of a material such as a polymer, metal, or fiber and formed into a net shape to have elasticity.
Water purifier mentioned. 3. The water purifier according to claim 1, wherein the porous cylindrical member has antibacterial properties. 4. The water purifier according to claim 1, wherein all or part of the porous cylindrical member is surface-coated with or mixed with silver or a silver compound to impart antibacterial properties. [Claim 5] The porous cylindrical member has an opening of 0.1 mm.
5. The water purifier according to claim 1, wherein the water purifier has a diameter of 5 cm.