JP3050619B2 - Water purification cartridge - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purification cartridge which is exchangeably mounted on a water purifier used for filtering and purifying an aqueous liquid such as tap water.

[0002]

2. Description of the Related Art In purifying an aqueous liquid such as tap water with a water purifier, water is passed through a water purification cartridge mounted in the water purifier and filtered. Various water purification cartridges have been provided, and those using a porous hollow fiber as a filter material have been conventionally provided.

FIGS. 3 (a) and 3 (b) show an example of each of them, and as shown in FIG.
It is bent in the shape of a letter and both ends are embedded and fixed in the partition plate 2, and both open ends of the porous hollow fiber 1 are exposed on one surface of the partition plate 2, or as shown in FIG. One end of the hollow fiber 1 is embedded and fixed in the partition plate 2 to expose the opening of this end of the porous hollow fiber 1 to one surface of the partition plate 2 and the other end of the porous hollow fiber 1 And a partition plate 2 provided with the porous hollow fiber 1 is mounted in a cartridge tube 3 so that the filtration chamber 4 on the side of the porous hollow fiber 1 and the side where the open end of the porous hollow fiber 1 is exposed. Outflow chamber 5
And a water purification cartridge is formed. And in this water purification cartridge,
The water flowing into the filtration chamber 4 from the inlet 10 is the porous hollow fiber 1
And enters the porous hollow fiber 1 through the porous membrane, flows from the open end of the porous hollow fiber 1 to the outflow chamber 5, and has the outlet 1
Emitted from 1.

[0004] As described above, water can be purified by a filtering action when passing through the porous hollow fiber 1. The porous hollow fiber 1 is formed to be hydrophilic so that water can pass through. However, when the porous hollow fiber 1 is formed to be hydrophilic in this way, when air is mixed into the water in the filtration chamber 4, the air will flow at a normal pressure of about 1 kg / cm ^2. Therefore, there is a problem that air cannot be passed through the membrane, and air is accumulated in the filtration chamber 4 so that the contact area between the porous hollow fiber 1 and water is reduced, and as a result, the amount of purified water is reduced. Was. Therefore, FIGS. 3 (a) and 3 (b)
As shown in (1), a hydrophobic membrane 1a is formed on a part of the hydrophilic porous hollow fiber 1 (the hydrophobic membrane 1a is shown in black in FIG. 3). The air is passed from the filtration chamber 4 to the outflow chamber 5 by passing the air.

[0005]

When air is allowed to pass through the formation of the hydrophobic membrane 1a on the porous hollow fiber 1 as described above, the air passage resistance is limited by the hydrophobicity of the porous hollow fiber 1. The thickness is governed by the wall thickness of the conductive film 1a, and the wall thickness is formed thin in order to allow air to pass therethrough. However, since the porous hollow fiber 1 is a plastic tube in its form, it is easily broken by an external pressure, and a rise in water pressure in the filtration chamber 4 causes the hydrophobic membrane 1a of the porous hollow fiber 1 to be broken and closed. May be done. When the portion of the hydrophobic membrane 1a of the porous hollow fiber 1 is crushed and closed as described above, air is not allowed to pass, and further, the passage of water in the porous hollow fiber 1 is hindered. As a result, the efficiency of the filtration is reduced. In addition, when the efficiency of filtration is reduced in this way, the water pressure in the filtration chamber 4 is increased to cause a vicious circulation, and the membrane once crushed is easily crushed again, and this phenomenon often occurs. .

The present invention has been made in view of the above points, and is a water purification cartridge capable of discharging air from a filtration chamber through an outflow chamber without forming a hydrophobic membrane on a porous hollow fiber. The purpose is to provide.

[0007]

According to the present invention, an end portion of a hydrophilic porous hollow fiber 1 is embedded and fixed in a partition plate 2 with its open end exposed on one surface. Hollow fiber 1
The partition plate 2 provided with the filter is mounted in the cartridge tube 3 and the cartridge tube 3 is partitioned into a filtration chamber 4 on the porous hollow fiber 1 side and an outflow chamber 5 on the side where the open end of the porous hollow fiber 1 is exposed. In the water purification cartridge to be formed, a sealing material 6 made of a hydrophobic porous body is provided between the partition plate 2 and the cartridge tube 3, and air is passed from the filtration chamber 4 to the outflow chamber 5 via the sealing material 6. It is characterized by the following.

In the present invention, the partition plate 2 is made of a hydrophobic porous material instead of or in combination with the sealing material 6 made of such a hydrophobic porous material. Alternatively, air may be passed from the filtration chamber 4 to the outflow chamber 5 via the partition plate 2.

[0009]

A seal member made of a hydrophobic porous body is provided between the partition plate and the cartridge tube so that air can pass from the filtration chamber to the outflow chamber through the seal member. Or because the partition plate 2 is made of a hydrophobic porous body and air is passed from the filtration chamber 4 to the outflow chamber 5 through the partition plate 2. Can be discharged through the hydrophobic porous sealing material 6 or the hydrophobic porous partition plate 2, eliminating the need to form a hydrophobic membrane for passing air through the porous hollow fiber 1. .

[0010]

The present invention will be described below in detail with reference to examples. The porous hollow fiber 1 is formed of a resin hollow fiber having a hydrophilic communicating porous membrane. Therefore, the membrane of the porous hollow fiber 1 allows water to easily pass through, but does not allow air to pass easily. It has become. The porous hollow fiber 1 is bent into a U-shape, and both ends are potted and fixed in a resin partition plate 2 formed by potting, and both open ends of the porous hollow fiber 1 are connected to one side of the partition plate 2. And at least one open end is kept open. In this way, a bundle of a plurality of porous hollow fibers 1 is attached to the partition plate 2. One end of the porous hollow fiber 1 is embedded and fixed in the partition plate 2 to form the porous hollow fiber 1.
The opening at this end may be exposed to one surface of the partition plate 2 and the opening at the other end of the porous hollow fiber 1 may be sealed so as to be attached to the partition plate 2.

FIG. 1 shows an embodiment of the present invention. The partition plate 2 provided with the porous hollow fibers 1 as described above is attached to the inner periphery of one opening edge of a cylindrical inner cylinder 12. is there. The inside of the inner cylinder 12 in which the porous hollow fiber 1 is accommodated is the filtration chamber 4
A slit-shaped through hole 18 is provided near the partition plate 2 of the inner cylinder 12. The filtration chamber 4 in the inner cylinder 12 accommodates the activated carbon 13 and the like in addition to the porous hollow fiber 1 as described above.
A net frame 15 provided by welding or the like is attached to the open end opposite to
Are prevented from coming out of the inner cylinder 12. The water purification cartridge can be assembled by mounting the inner cylinder 12 in the cartridge cylinder 3 serving as a cartridge case. As shown in FIG. 1, the cartridge tube 3 is formed by a main body tube 16 and a lower lid 17. An outlet 11 is provided on the upper surface of the main body tube 16, and an inlet 10 is provided on the lower surface of the lower cover 17. A ring-shaped spacer 23 protrudes from the main body tube 6 of the cartridge tube 3, and the partition plate 2 is brought into contact with the spacer 23 to flow out between the inner surface of the main body tube 16 and the partition plate 2. A chamber 5 is formed. The communication hole 19 is partially opened in the spacer 23. Further, a sealing material 6 is provided over the entire circumference between the outer periphery of the inner cylinder 12 and the inner periphery of the main body cylinder 16 above the through hole 18. The sealing material 6 is made of a hydrophobic and porous resin, so that the sealing material 6 easily passes air but hardly water. Further, by providing the sealing material 6 in this manner, a passage gap 20 is formed between the outer periphery of the inner cylinder 12 and the main body cylinder 16.

The water purification cartridge prepared as described above is used for purifying an aqueous liquid such as tap water by being set exchangeably in a water purifier attached to a water tap or the like. The water enters the filtration chamber 4 from the inlet 10 through the hole of the net frame 15 as shown by the solid arrow in FIG. The water that has entered the filtration chamber 4 passes through the micropores of the membrane of the hydrophilic porous hollow fiber 1 and enters the porous hollow fiber 1. At this time, the water is filtered to remove turbidity and the like, and the water from which dirt and the like have been separated flows through the porous hollow fiber 1, flows out of the open end thereof into the outflow chamber 5, and is discharged from the outlet 11. . At this time, the air that has entered the filtration chamber 4 together with the water to be treated, as shown by the dashed arrow in FIG. , And enters the outflow chamber 5 through the communication hole 19 and is discharged from the outlet 11. Therefore, it is possible to prevent the air from accumulating in the filtration chamber 4 and reduce the contact area between the porous hollow fiber 1 and water, and to prevent the water purification ability from being reduced by filtration and separation by the porous hollow fiber 1. It is. In addition, as a result of exhausting the air in the filtration chamber 4 by using the sealing material 6 as described above, it is not necessary to provide a hydrophobic membrane in the porous hollow fiber 1, and the water pressure in the filtration chamber 4 increases. Also, no collapse occurs in the porous hollow fiber 1, and water can be purified with a stable water purification capacity.

FIG. 2 shows another embodiment of the present invention. In this embodiment, the partition plate 2 is made of a hydrophobic and porous resin, and the partition plate 2 easily passes air. However, water is difficult to pass through. In this embodiment, the partition plate 2 is directly attached to the inner periphery of the cartridge tube 3 serving as a cartridge case. The cartridge tube 3 is provided with a main body tube 16, an upper lid 21 provided with an outlet 11, and an inlet 10. And the lower lid 22
A net 14 is provided at the inlet 10 to prevent the activated carbon 13 and the like from coming out of the filtration chamber 4. In the water purification cartridge thus formed, water can be purified by filtering through the porous hollow fiber 1 in the same manner as in the embodiment of FIG. The air that has entered the filtration chamber 4 together with the water passes through the hydrophobic porous partition plate 2, exits from the filtration chamber 4 to the outflow chamber 5, and is exhausted from the outlet 11, as indicated by the dashed arrow in FIG. You. Note that the hydrophobic porous sealing material 6 shown in FIG. 1 can be used in combination with the embodiment shown in FIG.

[0014]

As described above, according to the present invention, an end of a hydrophilic porous hollow fiber is embedded and fixed in a partition plate with its open end exposed on one surface, and the porous hollow fiber is A water purification cartridge formed by attaching the partition plate provided with the filter cylinder inside the cartridge cylinder and partitioning the cartridge cylinder into a filtration chamber on the porous hollow fiber side and an outflow chamber on the side where the open end of the porous hollow fiber is exposed, A sealing material made of a hydrophobic porous body is provided between the partition plate and the cartridge cylinder to allow air to pass from the filtration chamber to the outflow chamber via the sealing material. Since air is passed from the filtration chamber to the outflow chamber through the partition plate through the partition plate, the air in the filtration chamber is formed by a hydrophobic porous sealing material or a hydrophobic porous partition plate. Eject through It is not necessary to form a hydrophobic membrane for allowing air to pass through the porous hollow fiber, and the porous hollow fiber can purify water stably without being crushed by water pressure. Things.

[Brief description of the drawings]

FIG. 1 is a sectional view of one embodiment of the present invention.

FIG. 2 is a sectional view of another embodiment of the present invention.

FIG. 3 is a cross-sectional view of a conventional example, where (a) and (b) show respective aspects.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Porous hollow fiber 2 Partition plate 3 Cartridge cylinder 4 Filtration chamber 5 Outflow chamber 6 Sealing material

──────────────────────────────────────────────────続 き Continuation of the front page (56) References Japanese Utility Model Sho 62-109702 (JP, U) Japanese Utility Model Sho 64-48105 (JP, U) Japanese Utility Model Hei 1-170492 (JP, U) (58) Survey Field (Int.Cl. ⁷ , DB name) C02F 1/44 B01D 63/00 500 B01D 63/02

Claims (2)

(57) [Claims] 1. An end portion of a hydrophilic porous hollow fiber is embedded and fixed in a partition plate with its open end exposed on one surface, and the partition plate provided with the porous hollow fiber is inserted into a cartridge tube. A water purification cartridge formed by partitioning the inside of the cartridge cylinder into a filtration chamber on the side of the porous hollow fiber and an outflow chamber on the side where the open end of the porous hollow fiber is exposed, between the partition plate and the cartridge cylinder. A water-purifying cartridge, wherein a sealing material made of a hydrophobic porous body is provided on the filter, and air is passed from the filtration chamber to the outflow chamber via the sealing material. 2. An end portion of a hydrophilic porous hollow fiber is embedded and fixed in a partition plate with its open end exposed on one surface, and the partition plate provided with the porous hollow fiber is inserted into a cartridge tube. The water purification cartridge is formed by partitioning the inside of the cartridge cylinder into a filtration chamber on the porous hollow fiber side and an outflow chamber on the side where the open end of the porous hollow fiber is exposed. A water purification cartridge which is made of a body and allows air to pass from a filtration chamber to an outflow chamber via a partition plate.