JPH11319827A - Reverse osmosis membrane type water purifying device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the reverse contamination of an activated carbon unit caused by the invasion of bacteria or the like from a faucet in a reverse osmosis membrane type water purifying device. SOLUTION: Purified water obtained in the reverse osmosis membrane unit 10 is stored in a storage tank 12 and passed through an activated carbon unit 14 by opening a faucet to be taken in. At this time, the reverse contamination is prevented from the faucet because a hollow fiber membrane 16 is provided between the activated carbon unit 14 and the faucet. An ultraviolet ray sterilization unit for irradiating UV rays at the time that the faucet is closed and not irradiating at the time that the faucet opened can be provided between the activated carbon unit 14 and the faucet.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a water purifier having a reverse osmosis membrane as water purifying means, temporarily storing purified water in a water storage tank, and taking water from a faucet through an activated carbon filter. The present invention relates to a reverse osmosis membrane type water purification device that can prevent reverse contamination of an activated carbon filter portion due to intrusion.

[0002]

2. Description of the Related Art Problems such as an unpleasant smell in tap water and a deterioration in taste are caused by the deterioration of water quality of a water source and the influence of a chlorine-based disinfectant used for sterilization. More recently, in addition to the contamination of tap water by trihalomethane and the like generated by chlorine-based disinfectants, new health hazards have been caused by parasitic protozoa such as cryptosporidium that cannot be killed by chlorine-based disinfectants. Problems have arisen. Therefore, in order to solve such a problem, a water purifier equipped with a reverse osmosis membrane having a higher purification capacity has begun to spread instead of the conventionally used activated carbon filter.

[0003]

In a reverse osmosis membrane type water purifier, purified water is temporarily stored in a water storage tank because the amount of water permeated through the reverse osmosis membrane is small, and the stored water is passed through an activated carbon filter when used. The water is taken from the faucet. In the case of this method, reverse contamination may occur due to bacteria and the like invading from the faucet multiplying in the activated carbon filter, and in such a case, problems such as deterioration of water quality and generation of unpleasant odor may occur. Therefore, conventionally, in order to prevent the occurrence of such a problem, an ultraviolet sterilizer is provided between the faucet and the water storage tank, and by constantly irradiating ultraviolet rays, reverse contamination by bacteria is prevented.

[0004] However, in the case of such a method for preventing reverse contamination by irradiation with ultraviolet rays, although reverse contamination by bacteria and the like can be prevented, there is a problem that purified water has a slight unpleasant odor.
In addition, since ultraviolet light is always radiated, there is also a problem that waste is increased and maintenance cost is increased.

SUMMARY OF THE INVENTION The present invention provides a reverse osmosis membrane type water purifier that prevents reverse contamination by bacteria and the like from a faucet, ensures the same water quality as immediately after reverse osmosis membrane treatment, and suppresses maintenance costs. It is an object of the present invention to provide a reverse osmosis membrane type water purification device that can be used.

[0006]

According to the present invention, at least a reverse osmosis membrane unit, an activated carbon unit and a water storage tank are provided between a water supply source and a faucet, and water purified by the reverse osmosis membrane unit is provided. Is stored in a water storage tank, and when used, a reverse osmosis membrane type water purification device of a type in which water is taken from the water tank through a faucet via an activated carbon unit, wherein a filtration unit is provided between the activated carbon unit and the faucet. Provide a reverse osmosis membrane type water purification device.

According to a fourth aspect of the present invention, at least a reverse osmosis membrane unit, an activated carbon unit and a water storage tank are provided between the water supply source and the faucet, and water purified by the reverse osmosis membrane unit is stored in the water storage tank. In a reverse osmosis membrane type water purifier that stores water and draws water from a water tank through a tap through an activated carbon unit when in use, ultraviolet light is applied between the activated carbon unit and the tap when the tap is closed, and the tap is opened. A reverse osmosis membrane type water purifier is provided, which is provided with an ultraviolet sterilization unit that does not sometimes perform ultraviolet irradiation.

Further, the present invention provides a reverse osmosis membrane type water purifier according to a fourth aspect, wherein a filtration unit is provided between the activated carbon unit and the ultraviolet sterilization unit. Provide a type water purification device.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a reverse osmosis membrane type water purification apparatus of the present invention will be described with reference to the drawings. FIG. 1 is a conceptual diagram showing one embodiment of a reverse osmosis membrane type water purification device corresponding to the invention of claims 1 to 3, and FIG. 2 is a reverse osmosis membrane corresponding to the invention of claim 4. It is a key map showing other embodiments of a type water purifier. Note that the solid line is for indicating the movement path of water, and the size of the interval between the elements shown by the solid line does not indicate the actual interval ratio of each element.

First, a first reverse osmosis membrane type water purifier, which is an embodiment corresponding to the first to third aspects of the present invention, will be described with reference to FIG.

The first reverse osmosis membrane type water purification apparatus includes a reverse osmosis membrane unit 10, a water storage tank 12, and an activated carbon unit 14 between a water supply source and a faucet.
Further, a filtration unit 16 is provided between the activated carbon unit 14 and the faucet.

The filtering unit 16 does not impair the smooth flow of purified water from the water storage tank 12 to the faucet via the activated carbon unit 14 and can prevent reverse contamination by bacteria and the like from the faucet. If there is, it is not particularly limited. In the present invention, the filtration unit 1
6, for example, a hollow fiber microfilter unit having a pore size of about 0.01 to 1.0 μm, and a molecular weight cut off of 1.0 or
It is preferable to use about 00 to 1,000,000 hollow fiber ultrafilter units.

The filtration unit 16 may be integrated with the activated carbon unit 14 as shown, or may be separated.

Next, the operation of the reverse osmosis membrane type water purification apparatus having such a filtration unit 16 will be described, and other components will also be described. In the present invention, the components other than the filtration unit 16 and the arrangement thereof are not particularly limited, and addition, deletion, change, etc. of each component commonly performed by those skilled in the art are also included in the present invention. Things.

Tap water supplied from a water source (water supply)
First, the first pre-filter 20 (for example, a pore diameter of about 5 μm)
Through a pre-carbon filter 24 and a second pre-filter 26 (for example, having a pore size of about 1) to remove chloride ions.
μm) to the reverse osmosis membrane unit 10. Here, in order to increase the amount of permeated water in the reverse osmosis membrane unit 10, the water pressure in the pressure pump 22 is increased as necessary. The degree of pressure is different depending on the pressure of the water supply, for the pressure of the normal water supply is about 2 kg / cm ^2, can be pressurized to about 5~6kg / cm ² on average. 30 is an electromagnetic valve.

The tap water supplied to the reverse osmosis membrane unit 10 is purified here. This reverse osmosis membrane unit 10
Is a product name of FLUID SYSTEMS, Inc.
SC2012ULP 300LPD "or the like can be used. In the purification process in the reverse osmosis membrane unit 10, in order to perform a smooth purification process, the pressure at the time of the purification process is appropriately adjusted in the pressure adjustment system 28 including a flow rate regulator and a flushing solenoid valve. Further, instead of such a reverse osmosis membrane, an NF (nanofilter) membrane unit having a large amount of permeation of mineral components such as calcium, sodium, potassium, and magnesium ions can be used. Examples of the NF membrane include NF-20, NF-55 and NF-7 manufactured by Dow Chemical Company.
0, NF-90, NF-200B and the like.

Tap water (purified water) purified by the reverse osmosis membrane unit 10 is sent to the water storage tank 12 via the solenoid valve 32 and stored therein. The purified water stored in the water storage tank 12 can be taken through the activated carbon unit 14 and the filtration unit 16 by opening the faucet. The water storage tank 12 may be provided with a pressurizing means as needed in order to smoothly take water from the faucet. Further, the activated carbon unit 14 can contain antibacterial components such as silver and iodine.

In the first reverse osmosis membrane type water purifier, when purified water is stored in the water storage tank 12 in a sufficient amount (this amount can be appropriately set), the electromagnetic valve 30 is closed. Then, the purification treatment of the tap water by the reverse osmosis membrane unit 10 is stopped. When the amount of water stored in the water storage tank 12 decreases (this amount can be set as appropriate), the solenoid valve 3
Since 0 is opened, the purification process of the tap water by the reverse osmosis membrane unit 10 is started, and accordingly, the purified water flows into the water storage tank 12.

In such a first reverse osmosis membrane type water purification apparatus, since the filtration unit 16 is provided between the tap and the activated carbon unit 14, reverse contamination from the tap causes
Deterioration of water quality and generation of unpleasant odor due to propagation of bacteria and the like in the activated carbon unit 14 are prevented. It should be noted that there is no problem with reverse contamination at the outlet of the filtration unit 16 and the water flow path from the faucet to the filtration unit 16 as long as the water is left for a few seconds in practical use.

Next, a second reverse osmosis membrane type water purification apparatus according to another embodiment corresponding to the invention described in claim 4 of the present application is described below.
A description will be given based on FIG. Note that the second reverse osmosis membrane type water purifier shown in FIG. 2 and the first reverse osmosis membrane type water purification device shown in FIG. 1 have the same basic configuration and operation, and the same numbers indicate the same elements. Therefore, only the differences between the configurations will be described.

This second reverse osmosis membrane type water purifier is provided with an ultraviolet sterilizing unit 18 between the activated carbon unit 14 and the faucet. This ultraviolet sterilization unit 18
Is for sterilizing by irradiation of ultraviolet rays to prevent reverse contamination of the activated carbon unit 14 from the faucet. And when this ultraviolet ray sterilization unit 18 closes a faucet,
That is, ultraviolet irradiation is performed when the purified water does not pass through the ultraviolet sterilization unit 18, and ultraviolet irradiation is not performed when the faucet is opened, that is, when the purified water passes through the ultraviolet sterilization unit 18. Such a setting detects, for example, the passage or non-passage of purified water or the opening or closing of a faucet, and accordingly, the ultraviolet sterilization unit 1
It is sufficient to provide an electrical means that can turn ON or OFF the switch 8.

In such a second reverse osmosis membrane type water purifier, an ultraviolet sterilizing unit 18 is provided between the faucet and the activated carbon unit 14, and when the faucet is closed, ultraviolet light is irradiated. As a result, the deterioration of water quality and the generation of unpleasant odor due to the propagation of bacteria and the like in the activated carbon unit 14 are prevented. When the faucet is open, the ultraviolet sterilizing unit 18
In this case, since no ultraviolet light is irradiated, it is possible to prevent the purified water from giving an unpleasant odor due to the ultraviolet light and to reduce the maintenance cost. The UV sterilizing unit 1
The reverse contamination at the outlet 8 and the water supply path from the faucet to the ultraviolet sterilizing unit 18 is not a problem if the water is left for a few seconds in practical use.

Next, a third reverse osmosis membrane type water purification apparatus according to another embodiment corresponding to the inventions of claims 5 to 7 of the present application will be described with reference to FIGS. The third reverse osmosis membrane water purifier is the same as the first reverse osmosis membrane water purifier and the second reverse osmosis membrane water purifier shown in FIGS. 1 and 2 described above. The other configuration is the first configuration shown in FIGS. 1 and 2.
And the second reverse osmosis membrane type water purifier.

This third reverse osmosis membrane type water purifier is provided between the activated carbon unit 14 and the faucet.
In order from the side, the filtration unit 16 and the ultraviolet sterilization unit 1
8 are provided. In such a third reverse osmosis membrane type water purification device, the filtering unit 16 and the ultraviolet sterilizing unit 18 perform the above-described operations, respectively, and thus the effect of preventing reverse contamination from the faucet can be further enhanced.

The first to third reverse osmosis membrane type water purifiers of the present invention can be used for kitchen facilities such as general household kitchens and restaurants, hospitals,
It can be applied to schools and other school lunch facilities, and can usually be installed and used under a sink.

[0026]

According to the reverse osmosis membrane type water purification apparatus of the present invention,
Reverse contamination of the activated carbon unit due to entry of bacteria or the like from the faucet can be prevented. Therefore, it is possible to always take purified water with stable water quality, and to give the user high reliability.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram illustrating an embodiment of a reverse osmosis membrane type water purification device of the present invention.

FIG. 2 is a conceptual diagram for explaining another embodiment of the reverse osmosis membrane type water purification device of the present invention.

[Explanation of symbols]

 Reference Signs List 10 reverse osmosis membrane unit 12 water storage tank 14 activated carbon unit 16 filtration unit 18 ultraviolet sterilization unit

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI C02F 1/32 C02F 1/32

Claims (7)

[Claims] 1. A water purifier comprising at least a reverse osmosis membrane unit, a water storage tank and an activated carbon unit between a water supply source and a faucet, wherein water purified by the reverse osmosis membrane unit is stored in a water storage tank. A reverse osmosis membrane type water purifier, wherein a filtration unit is provided between an activated carbon unit and a faucet, wherein a reverse osmosis type water purifier of a type in which water is taken from a faucet via a unit. 2. The reverse osmosis membrane type water purification apparatus according to claim 1, wherein the activated carbon unit and the filtration unit are integrated. 3. The reverse osmosis membrane type water purifier according to claim 1, wherein the filtration unit is a hollow fiber microfilter or a hollow fiber ultrafilter unit. 4. A system comprising at least a reverse osmosis membrane unit, a water storage tank and an activated carbon unit between a water supply source and a faucet, wherein water purified by the reverse osmosis membrane unit is stored in a water storage tank. In a reverse osmosis membrane type water purification device that takes water from a faucet via a unit, ultraviolet rays are irradiated between the activated carbon unit and the faucet when the faucet is closed and not irradiated when the faucet is opened. A reverse osmosis type water purifier comprising a sterilization unit. 5. The reverse osmosis membrane water purifier according to claim 4, further comprising a filtration unit between the activated carbon unit and the ultraviolet sterilization unit. 6. The reverse osmosis membrane type water purification apparatus according to claim 5, wherein the activated carbon unit and the filtration unit are integrated. 7. The reverse osmosis membrane type water purifier according to claim 5, wherein the filtration unit is a hollow fiber microfilter or a hollow fiber ultrafilter unit.