JPH11244847A - Fresh water maker - Google Patents

Abstract

PROBLEM TO BE SOLVED: To inexpensively obtain a fresh water maker easy in the maintenance after used by providing a purifying means containing an activated carbon cartridge for purifying raw water sent from an intake means and a disinfecting means for disinfecting the purified water. SOLUTION: The fresh water maker suitable for dealing with the situation of the shortage of drinking water or domestic water due to an accident is constituted so as to be provided with the intake means 1 for pumping up the raw water, the purifying means 2 containing the activated carbon cartridge for purifying the pumped-up water and the disinfecting means 3 for disinfecting the purified water. The intake means 1 is provided with an engine pump 7 and a hand pump 8 and the pump 7, 8 are arranged in parallel. The purifying means 2 is constituted so as to successively connect a yarn-wound filter 4, an activated carbon vessel 5 housing the activated carbon cartridge and 2 hollow fiber membrane filters 6 in this order and a three way valve 9 is installed on the upstream side in the raw water flowing direction to enable to backwash one of the hollow fiber membrane filters 6 with the water treated by another one of the hollow fiber membrane filters 6.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a desalination machine suitable for coping with a shortage of drinking water or domestic water during a disaster.

[0002]

2. Description of the Related Art As a device for supplying drinking water and domestic water in the event of a disaster such as an earthquake, Japanese Patent Application Laid-Open Nos. 9-122654 and 9-220558 disclose a general-purpose water generator. ing. These are desalination machines for disaster countermeasures. In disaster prevention drills conducted by local governments, etc., operation training, inspections and performance checks are performed.

[0003] However, it is not preferable to store the filter medium such as a filter or activated carbon for several months in a wet state after fresh water because the risk of contamination of the filter medium by microorganisms is high.
It is necessary to return the filter medium to a dry state and store it, for example, once the fresh water is produced even in a short time, the filter medium is replaced or the filter medium is taken out and dried. However, it is costly to replace the filter medium each time training is carried out, and even when the filter is dried, there are problems in workability such as the surroundings being soiled by the removed activated carbon and the number of filters being large.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to provide a fresh water generator that can be easily maintained after use.

[0005]

In order to achieve the above object, the present invention provides a water intake means, a purification means including an activated carbon cartridge for purifying raw water sent from the water intake means,
The present invention is characterized by a water maker having a disinfecting means for disinfecting purified water.

Here, the purifying means includes a wound filter and a hollow fiber membrane filter, and an activated carbon cartridge is interposed between the wound filter and the hollow fiber membrane filter. The activated carbon is preferably stored in a bag made of a permeable material, and the activated carbon is preferably granular activated carbon having an average particle size in the range of 0.3 to 2.0 mm.

It is preferable that the water intake means includes an engine pump or a manual pump, and that the engine pump has a processing capacity of 10 to 100 liters / minute.

[0008] Further, a backwash comprising at least two hollow fiber membrane filters connected in parallel, and backwashing another hollow fiber membrane filter with treated water obtained from an arbitrary hollow fiber membrane filter. It is also preferable that a mechanism is provided, that the disinfecting means is for adding chlorine, and that the water intake means, the purifying means, and the disinfecting means are provided on a portable table.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A fresh water generator of the present invention shown in FIG. 1 has a water intake means 1 for pumping raw water and a purifying means 2 including an activated carbon cartridge for purifying the pumped raw water.
And disinfecting means 3 for disinfecting purified water.

As the water intake means 1, an engine pump 7 is provided. This engine pump 7 has 10 to 10
A wide flow rate range of 0 liter / min is preferred. In the conventional desalination machine, a pump suitable for a constant desalination amount is used. When the desalination amount is reduced, a knocking phenomenon occurs and smooth operation cannot be performed, but a wide flow rate range of 10 to 100 liters / min. By mounting the engine pump 7, a small amount of fresh water can be produced. The water intake means 1 may be a manual pump so that water can be produced manually in the event of a fuel shortage in a disaster or the like, and these pumps are arranged in parallel as shown in FIG. Is also preferred. In the case where the pumps are arranged in parallel, switching had to be performed by a valve each time one of the pumps was selected and used.However, backflow of water was prevented downstream of each pump in the raw water flow direction. By providing the check valve 15 for performing the operation, the user does not need to perform switching regardless of which pump is selected and used.

The purifying means 2 comprises a thread wound filter 4, an activated carbon tank 5 containing an activated carbon cartridge, and two hollow fiber membrane filters 6 connected in this order. The two hollow fiber membrane filters 6 are arranged in parallel, and one of the hollow fiber membrane filters 6 is located upstream of each raw water flow direction.
In order to backwash the other hollow fiber membrane filter 6 with the treated water of
A three-way valve 9 is provided. A discharge pipe for discharging the backwash water out of the system is connected to the three-way valve 9. A two-way valve 10 is provided downstream of the hollow fiber membrane filter 6 in the raw water flow direction.

The disinfecting means 3 is provided on the downstream side of the two-way valve 10 and is a chlorine adding device 3 for injecting a sodium hypochlorite solution into filtered water of a hollow fiber membrane filter by an ejector.

The thread-wound filter 4 is formed by arranging nine threads, each having a length of about 10 inches, in which threads are regularly wound around a plastic core having a hole, in a stainless steel tank. . This thread wound filter 4 has a performance capable of removing a filter having a diameter of 10 microns.

The activated carbon tank 5 is made of stainless steel and contains therein a cylindrical bag 11 shown in FIG. 2 filled with activated carbon. Two activated carbon tanks 5 are arranged,
The total activated carbon amount is 6 kg.

The finer the activated carbon, the higher the adsorption performance but the larger the pressure loss. Therefore, it is preferable to use granular activated carbon having an average particle size of 0.3 to 2.0 mm. The bag 11 is a knitted bag in which polyester fibers are sewn in a cylindrical shape, and a polyester fastener 1 for taking in and out activated carbon is provided on the upper surface of the bag.
2 are installed. This bag may be made of a water-permeable material such as a knitted fabric, a woven fabric, or a nonwoven fabric. Activated carbon is put in a bag and made into a cartridge type to be interposed in the activated carbon tank, thereby preventing the activated carbon from adhering to the inside of the tank and easily replacing the activated carbon without polluting the surroundings. Conventionally, it has been necessary to replace and dry the filter medium every time a disaster drill or the like has taken place, which has been costly and time-consuming. However, wet activated carbon can be taken out and dried in a bag.

The tank of the wound filter 4 and the activated carbon tank 5
Has a structure in which the opening and closing are fastened with a one-touch ferrule band so that the wound filter 4 and the activated carbon can be easily replaced.

As shown in FIG. 3, the hollow fiber membrane filter 6
It is composed of a cylindrical cartridge 13 using a hollow fiber membrane 14 as a filter medium and a connector. Four cartridges are arranged in parallel in two rows, and the upper and lower portions of the cartridge are connected by connectors. With two hollow fiber membrane filters, the number of cartridges is 16, and the effective filtration membrane area is 20 m ² .

In the present invention, it is preferable that the above-mentioned fresh water generator is installed on a portable platform because it can be easily moved in an emergency to produce fresh water.

In the above-mentioned fresh water generator, first, raw water is supplied to the purification means 2 by the water intake means 1. At this time, since the check valve 15 is provided regardless of which pump is used, it is possible to prevent the raw water from flowing into the unused flow path without switching the flow path using a valve or the like. Raw water supplied to the purification means 2 is removed with a thread filter 4 to remove coarse suspended matters, and then an activated carbon tank 5 is used to adsorb and remove harmful substances. Then, the hollow fiber membrane filter 6 removes bacteria and particulate components in the treated water. The treated water obtained by filtration by the purification means 2 is supplied as purified water after disinfecting by injecting chlorine in the chlorine addition device 3.

Here, when the hollow fiber membrane is contaminated, upstream of each of the two hollow fiber membrane filters 6 is provided so that the treated water from the activated carbon tank flows into only one of the hollow fiber membrane filters 6. One connected three-way valve 9 is set so that the discharge pipe is closed,
The other three-way valve 9 is set so that the upstream side is closed.
The two-way valve 10 provided on the downstream side of the hollow fiber membrane filter 6 is closed. By doing so, the filtered water of one hollow fiber membrane filter 6 can be used as the backwash water of the other hollow fiber membrane filter 6.
Since the three-way valve 9 provided on the upstream side of the other hollow fiber membrane filter 6 is open to the discharge pipe, the water used for the backwash can be discharged out of the system therefrom.

With this fresh water generator, when pool water is used as raw water, 400 m ³ or more can be continuously produced without replacing the filter medium. At the time of training or the like, since the time is short and the amount of fresh water is small, an impermeable dummy may be used if necessary to reduce the actual number of filters and the amount of activated carbon. In that case, there is no problem with the quality of the purified water. In particular, even if the number of hollow fiber membrane cartridges requiring high replacement costs and requiring a long number of days for drying is reduced to two, it is 10 to 100
Since the engine pump 7 having a wide flow rate range of 1 liter / minute is mounted, fresh water production of 30 liter / minute can be performed without any trouble.

[0022]

According to the present invention, the activated carbon cartridge is interposed in the activated carbon tank to prevent the activated carbon from adhering to the inside of the tank. Also,
Since the wet activated carbon can be taken out and dried in the bag, labor and cost can be reduced.

When a wound filter and a hollow fiber membrane filter are provided, and an activated carbon cartridge is interposed between them, it is possible to sequentially remove fine particles such as bacteria from large suspended matter. It is a target. Also, when using granular activated carbon having an average particle size of 0.3 to 2.0 mm,
High adsorption performance can be obtained while suppressing pressure loss.

As a water intake means, 10 to 100 liters /
If you use an engine pump with a capacity of
A smooth operation can be performed without causing a knocking phenomenon over a wide flow rate range, and a small amount of fresh water can be produced. In addition, when a manual pump is used, fresh water can be produced manually when fuel is insufficient.

Further, the two hollow fiber membrane filters and the three-way and two-way valves connected to the respective upstream sides can use the filtered water of the other hollow fiber membrane filter as backwash water. When these are installed on a portable table, they can be easily moved in an emergency to produce fresh water.

[Brief description of the drawings]

FIG. 1 is a schematic flow chart of a fresh water generator according to one embodiment of the present invention.

FIG. 2 is a schematic view showing a bag of activated carbon in FIG.

FIG. 3 is a schematic view of the hollow fiber membrane filter in FIG.

[Explanation of Signs] 1: Water intake means 2: Purification means 3: Disinfection means 4: Thread filter 5: Activated carbon tank 6: Hollow fiber membrane filter 7: Engine pump 8: Manual pump 9: Three-way valve 10: Two-way valve 11 : Bag 12: Fastener 13: Cartridge 14: Hollow fiber membrane 15: Check valve

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FI C02F 1/50 531 C02F 1/50 531N 540 540A 550 550C 560 560B 560E 560Z

Claims (9)

[Claims] 1. A production system comprising: a water intake means; a purification means including an activated carbon cartridge for purifying raw water sent from the water intake means; and a disinfection means for disinfecting purified water. Water machine. 2. The purifying means comprises a wound filter and a hollow fiber membrane filter, and an activated carbon cartridge is interposed between the wound filter and the hollow fiber membrane filter.
A desalination machine according to claim 1. 3. The fresh water generator according to claim 1, wherein the activated carbon cartridge contains activated carbon in a bag made of a water-permeable material. 4. The activated carbon has an average particle size of 0.3 to 2.0 mm.
The fresh water generator according to any one of claims 1 to 3, wherein the activated carbon is a granular activated carbon in the range of. 5. The fresh water generator according to claim 1, wherein the water intake means includes an engine pump or a manual pump. 6. The engine pump is 10 to 100 liters / liter.
The fresh water generator according to claim 5, which has a processing capacity of one minute. 7. A backwash comprising at least two hollow fiber membrane filters connected in parallel, and backwashing another hollow fiber membrane filter with treated water obtained from an arbitrary hollow fiber membrane filter. The fresh water generator according to any one of claims 2 to 6, further comprising a mechanism. 8. The fresh water generator according to claim 1, wherein the disinfecting means adds chlorine. 9. The fresh water generator according to claim 1, wherein the water intake means, the purification means, and the disinfection means are provided on a portable table.