JP2019051465A - Water purification apparatus - Google Patents

Abstract

To provide a water purification apparatus capable of always keeping the water in the storage tank sterile.SOLUTION: It is a water purification apparatus provided with a first water storage tank 18a, and a silver ion-containing porous body 22 infiltrated with silver ions is accommodated in the first water storage tank 18a, and the water stored in the first water storage tank 18a since silver ions are released from the silver ion-containing porous body 22, the water in the water storage tank can always be kept sterile. In addition, while silver ions exhibit extremely strong bactericidal activity, they have little adverse effect on the human body, so the water stored in the first water storage tank 18a can be used safely as drinking water.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a water purifier.

The thing of patent document 1 is known as an example of the water purifier provided with the filter apparatus which removes a foreign material from water.
The water purifier includes a water storage tank that stores water that has passed through the filter device on a downstream side of the filter device, and a water intake unit that takes water in the water storage tank. A UV germicidal lamp for UV sterilizing the water is provided.

In such a water purifier, most foreign matters mixed in the water are removed by the filter device, the water is temporarily stored in a water storage tank, and water is taken from the water intake unit, so that the water can be easily consumed. Can be used as
In addition, when water is stored in the water storage tank, the propagation of bacteria in the water storage tank can be prevented by UV sterilization using a UV sterilization lamp, so that water can be stored with peace of mind.

JP 2014-223589 A

  By the way, in the said conventional water purifier, although the UV germicidal lamp is provided in order to prevent the proliferation of bacteria in the water storage tank, the UV germicidal lamp requires a power source, so a power failure, long absence, moving, etc. When the power is turned off by this, there is a problem that bacteria may propagate in the water storage tank. Since the water in the water storage tank is used as drinking water, it is necessary to keep the water in the water storage tank sterile so that harmful bacteria do not always propagate.

  This invention is made | formed in view of the said situation, and it aims at providing the water purifier which can always keep the water in a water storage tank in a sterile state.

In order to achieve the object, the water purifier of the present invention is a water purifier provided with a first water storage tank,
A silver ion-containing porous body infiltrated with silver ions is accommodated in the first water storage tank,
Silver ions are released from the silver ion-containing porous body into the water stored in the first water storage tank.

  Here, while adjusting the quantity of the silver ion containing porous body accommodated in a 1st water storage tank so that the density | concentration of the silver ion with respect to the water in a 1st water storage tank may be 0.02 ppm or more, a silver ion containing porous material is adjusted. The body is replaced with a new one at regular intervals.

In the present invention, since silver ions are released from the silver ion-containing porous body into the water stored in the first water storage tank, the water is always sterilized by the silver ions. Therefore, the water in the first water storage tank can always be kept in a sterile state.
Moreover, since silver ion shows very strong sterilization power, but has almost no adverse effect on the human body, the water stored in the first water storage tank can be safely used as drinking water.
Furthermore, since silver is difficult to ionize, even if silver itself is put into the water in the first water storage tank, it is hardly converted into silver ions, and the bactericidal action is poor, but the silver ion-containing porous body infiltrates the porous body with silver ions. Therefore, silver ions are easily released into water. For this reason, the water in the first water storage tank can be easily maintained in a sterile state.

In the configuration of the present invention, a UV germicidal lamp for UV-sterilizing water is provided in the first water storage tank, and a circulation path for circulating water is connected to the first water storage tank,
An ozone sterilizer for sterilizing water may be connected to the circulation path.

According to such a configuration, since the water in the first water storage tank can be sterilized with the UV sterilization lamp in addition to the sterilization with silver ions, the sterilization can be performed more reliably. In addition, since the water flowing through the circulation path can be sterilized by the ozone sterilization apparatus, the propagation of bacteria in the water flowing through the circulation path can be prevented by both silver ions and ozone.
Furthermore, since the water flowing into the first water storage tank from the circulation path is sterilized by the ozone sterilizer, the water in the first water storage tank can be more reliably maintained in a sterile state.

Further, in the above configuration of the present invention, a water intake device for taking water from the atmosphere is provided,
The water intake device includes a second water storage tank for storing the taken-in water, and a UV germicidal lamp provided in the second water storage tank,
The second water storage tank contains a silver ion-containing porous body infiltrated with silver ions,
The circulation path may be connected to the second water storage tank.

  According to such a configuration, the water taken from the atmosphere by the water intake device and stored in the second water storage tank is sterilized by the UV sterilization lamp and discharged from the silver ion-containing porous material and sterilized by the silver ions. . And since this sterilized water flows into a 1st water storage tank from a 2nd water storage tank through a circulation path, the water in a 1st water storage tank can be kept more aseptically more reliably.

  In the configuration of the present invention, the UV sterilization lamp and the ozone sterilizer may operate at predetermined time intervals.

  According to such a configuration, the water in the first water storage tank and the second water storage tank is constantly sterilized by the silver ions released from the silver ion-containing porous body, so that the UV sterilization lamp and the ozone sterilization apparatus are kept at a predetermined time. By operating at intervals, electricity consumption can be reduced while preventing bacterial growth.

  According to the present invention, since silver ions are released from the silver ion-containing porous body into the water stored in the first water storage tank, the water is always sterilized by the silver ions. Can always be kept sterile.

The water purifier of 1st Embodiment is shown and it is a figure which shows the schematic structure. The schematic structure of a water purifier is shown, (a) is a right side view, and (b) is a left side view. It is a figure which shows schematic structure of the piping of a water purifier. The water purifier of 2nd Embodiment is shown and it is a front view which shows the schematic structure.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
1 shows a schematic configuration of a water purifier for obtaining drinking water, FIG. 2 shows a schematic configuration of the water purifier, (a) is a right side view, (b) is a left side view, FIG. These are figures which show schematic structure of piping of the water purifier.

  As shown in FIG. 1, the water purifier includes a water intake device S for taking out moisture in the taken-in air. The water intake device S cools the atmospheric humidity converter 1, the sirocco fan 2 that is an atmospheric intake device for taking in a large amount of air into the atmospheric humidity converter 1, and the air taken into the atmospheric humidity converter 1. A cooling mechanism 3 for feeding refrigerant and a filter device 4 for removing foreign substances from water obtained by the atmospheric humidity converter 1 are provided. The atmospheric humidity converter 1 and the cooling mechanism 3 constitute a heat exchanger 20.

  The sirocco fan 2 is provided with a heating device 2a for raising the temperature of the air taken in. The heating device 2a has a built-in heater composed of a heating wire or the like, and is controlled so that the atmosphere becomes a certain temperature or higher while monitoring the heating state of the atmosphere with a temperature sensor (not shown). The temperature control in this case is performed by the control device C. Heating is performed by heating the atmosphere to 20 to 50 ° C., more preferably 40 to 50 ° C., when the atmosphere is close to 0 ° C. in a cold season such as winter, for example. ) To enable efficient water intake regardless of the season. Therefore, by providing this heating device 2a, the water purifier of this embodiment can be used efficiently even in cold regions. Moreover, since the air that is taken in is heated, the water intake efficiency is extremely high compared to the conventional water purifier. The heating device 2a may be configured as an infrared radiation heater.

As shown in FIG. 1, in order to alleviate the harmful effects caused by sending a large amount of air sucked by the sirocco fan 2 at a time, the sucked air is sent to the air volume adjuster 5 that branches into 2 to 4, Here, the air is branched as a plurality of atmospheric flows, and is rectified somewhat and the air having a small fluctuation width is supplied to the next filter 6. That is, although not shown in the figure, a damper that opens and closes the air volume so as to adjust the air volume is mounted inside the air volume adjuster 5, and in each branch pipe fed to the next filter 6 according to the instruction of the control device C. The opening / closing amount of the damper is controlled so that the air volume is uniform.
The air volume adjuster 5 is not necessarily required, but is preferably provided in order to stably supply a large amount of air and improve water intake efficiency. The number branched by the air flow adjuster 5, the size of the branch pipe, and the like can be appropriately selected.

As shown in FIGS. 1 and 2, an air filter 7 is provided on the upstream side of the sirocco fan 2 at the intake port 16 a that takes air into the casing K of the water purifier.
The air filter 7 can remove foreign substances such as bacteria, viruses, and dust from the atmosphere taken in by the sirocco fan 2.
As the air filter 7, for example, a board (biosol board) in which charcoal, bamboo charcoal, and rice husk charcoal are accumulated can be used. In this biosol board, there are nano-micron-sized particles called “biosol”. These particles catch not only dust such as dust but also bacteria and viruses and inactivate them (inhibiting virus propagation). And infectivity can be neutralized).
In addition, the biosol board can maintain its effect only by washing. For example, it can be recovered by simply putting it in hot water at about 60 ° C. for about 30 minutes and washing it in a well-ventilated place avoiding direct sunlight.

  As shown in FIG. 1, the air from which foreign matters such as dust, bacteria, and viruses have been removed by the filter 6 and the air filter 7 is atmospheric pressure in order to efficiently extract moisture from a large amount of air taken from the sirocco fan 2. Is supplied to the porous ventilation body 8 which is an atmospheric pressure reduction mechanism for reducing the pressure. Various types of porous ventilators 8 can be adopted, but since the atmosphere is heated and warm air is used, ventilators (50-120 mesh) made of polyurethane foam or polypropylene foam are used. It is preferable to do.

The atmospheric humidity converter 1 includes a porous ventilation body 8 and a cooling unit 9 that cools the air taken in from the sirocco fan 2 and extracts moisture.
The cooling unit 9 is connected to the cooling mechanism 3. For the cooling mechanism 3, a commonly used cooling device can be used as it is. For example, a compressor (compressor) 11 for compressing a refrigerant, a condenser 12 having a fan 14, and a pressure reducing mechanism (not shown). ) And a heat storage tank (not shown) for storing cold heat, etc., and a refrigerant having cold heat (a variety of refrigerants such as ammonia, freon, and water can be used) Via the cooling unit 9 of the atmospheric humidity converter 1.
The cooling unit 9 is provided with a condenser 10 having a large number of fins, and the air cooled by the cooling unit 9 is condensed by the condenser 10 into water. This effectively condenses the large amount of air that is taken in to obtain water.
Note that the atmosphere (air) from which water has been taken is discharged to the outside from the air discharge port 16b. Since the foreign matter such as dust, bacteria, and viruses is removed from the air discharged from the air discharge port 16b by the filter 6 and the air filter 7, the water purifier can also be used as an air purifier.

  The water thus obtained is further sent to the sterilizer 15 for use in beverages. As shown in FIG. 2, the sterilizer 15 includes a water storage tank (second water storage tank) 15a for storing the water, and a UV sterilization lamp 15b for UV sterilizing the water in the water storage tank 15a. The water storage tank 15 a is provided on the upstream side of the filter device 4 and immediately below the condenser 10. Therefore, the water condensed by the heat exchanger 20 having the condenser 10 falls downward, is collected in the fresh water receiving tray 15c, is stored in the water storage tank 15a, and is UV sterilized by the UV sterilization lamp 15b. Is done. In addition, the fresh water receiving tray 15c is provided in the upper part of the water storage tank 15a.

The UV sterilized water is sent to the filter device 4 by the pump 17 and passes through the filter device 4.
As shown in FIG. 3, the filter device 4 includes a first filter 4a, a second filter 4b, a third filter 4c, a fourth filter 4d, and a fifth filter 4e. In the present embodiment, these filters 4a to 4e are arranged in this order from the upstream side, but the order of the filters 4a to 4e may be changed as appropriate. However, the fifth filter 4e is arranged on the most downstream side.
Further, the filters 4a to 4e are all in the form of replaceable cartridges, so that replacement and repair are easy.

The first filter 4a is for removing solid precipitates in water. Specifically, a filter capable of removing solid precipitates having a size of 5 μm or more in water is preferable. For example, polypropylene (PP) fiber is used. The used PP filter is preferably used.
The second filter 4b is for removing bacteria, organic chemicals, compound substances, etc. in the water, but an activated carbon filter using activated carbon is preferably used.
Although the 3rd filter 4c removes the bad smell in water, the CTO filter which can remove chlorine (Chlorine), a taste (Test), and an odor (Odor) is used suitably.
The fourth filter 4d has a reverse osmosis membrane and can remove viruses and the like. The reverse osmosis membrane has a pore size of about 2 nanometers, and even the smallest picornavirus and parvovirus currently used in viruses are about 20 nanometers, so that almost all pathogenic bacteria and viruses can be removed.

The fifth filter 4e is a ceramic filter composed of a porous body, specifically, ceramic.
The first ceramic can activate water. Water molecules form a group of molecules (clusters) by hydrogen bonding between water molecules, forming a community like a bunch of straw. Generally, clean water clusters are smaller, and dirty water is more clustered. Is said to be enlarged. In order to reduce the water cluster and activate the water, for example, by bringing the water into contact with the ceramic material, and effectively increasing the contact between the far-infrared rays emitted from the ceramic and the water, the coupled water molecules Can be split into small clusters. Thus, by activating water, it becomes vital water which can be absorbed into the body without difficulty.

The 2nd ceramic is comprised with the antibacterial ceramic which can suppress propagation of miscellaneous bacteria, and can be used as safe water.
The third ceramic is composed of an oxide ceramic that makes it difficult to break down important nutrients such as vitamin C.
The fourth ceramic is made of natural stone ceramic and adjusts various natural minerals to make the water gentle to the body.
The fifth ceramic is composed of a calcium phosphate ceramic and stabilizes the pH by adding calcium and various minerals.
The sixth ceramic is made of a ceramic that stabilizes the pH to be weakly alkaline.

  The water that has passed through the filter device 4 has solid precipitates in water removed by the first filter 4a, and bacteria, organic chemicals, compound substances, etc. in the water have been removed by the second filter 4b, and the third filter 4c. Is used to remove off-flavors and the fourth filter 4d removes viruses and the like. Thus, after removing most foreign matters mixed in the water with the first to fourth filters, the fifth filter 4e activates the water and adjusts the mineral content and pH of the water. In addition, since it is possible to obtain water that is gentle to the body, it is more preferable as drinking water.

  As shown in FIGS. 2 and 3, such water is stored in a tank 18 provided in the upper part inside the water purifier. The tank 18 includes a cold water tank (first water storage tank) 18a and a hot water tank 18b. The cold water tank 18a is equipped with a cooling function and can store cold water at about 5 ° C to 12 ° C. Further, a UV germicidal lamp 21 is provided in the cold water tank 18a. The hot water tank 18a has an automatic boiling function and can store hot water of about 80 ° C. to 90 ° C.

The cold water tank 18a and the hot water tank 18b are provided with intake cocks 19a and 19b as intake ports, respectively, so that cold water and hot water can be taken from the intake cocks 19a and 19b.
Further, an operation panel 32 is provided on the upper portion of the casing K so that the temperature of water in the cold water tank 18a and the hot water tank 18b can be controlled, the power can be turned on / off, and the like.

The first water storage tank (cold water tank) 18a and the second water storage tank 15a contain a silver ion-containing porous body 22 infiltrated with silver ions, respectively, and the first water storage tank 18a and the second water storage tank. Silver ions are released from the silver ion-containing porous body 22 into the water stored in the tank 15a. The water stored in the first water storage tank 18a and the second water storage tank 15a is sterilized by the released silver ions.
The porous body constituting the silver ion-containing porous body 22 is formed of a porous ceramic, and is formed from, for example, natural diatomaceous earth and PVC (vinyl chloride).
Moreover, the silver ion containing porous each accommodated in the 1st water storage tank 18a and the 2nd water storage tank 15a so that the density | concentration of the silver ion with respect to the water in the 1st water storage tank 18a and the 2nd water storage tank 15a may be 0.02 ppm or more. While the amount of the material 22 is adjusted, the silver ion-containing porous material 22 is replaced with a new one every certain period.

Further, as shown in FIG. 3, a circulation path 23 for circulating water is connected to the first water storage tank 18a and the second water storage tank 15a. The circulation path 23 is constituted by pipes 23a to 23d. The pipe 23a connects the second water storage tank 15a and the first filter 4a, the pipe 23b connects the first filter 4a to the fifth filter 4e in a permutation, and the pipe 23c connects the fifth filter 4e and the first water storage tank 18a. The pipe 23d connects the first water storage tank 18a and the second water storage tank 15a.
Water taken from the atmosphere is stored in the second water storage tank 15a, and water flows from the second water storage tank 15a in the order of the pipes 23a to 23d and circulates.
In addition, an ozone sterilizer 24 is connected to the pipe 23d of the circulation path 23, and water flowing through the pipe 23d is sterilized by the ozone by the ozone sterilizer 24. The ozone sterilizer 24 may be connected to any position in the circulation path 23.

Further, the cold water tank (first water storage tank) 18 a and the hot water tank 18 b are connected by a pipe 25. One end of the pipe 25 is connected to the lower part of the cold water tank 18a, and the lower end is connected to the upper part of the hot water tank 18b. One end of a branch pipe 25a is connected to the pipe 25, and the other end of the branch pipe 25a is connected to the upper part of the hot water tank 18b. Accordingly, water flows into the hot water tank 18b from both the upper and lower parts of the hot water tank 18b from the cold water tank 18a. Thereby, the temperature difference inside the hot water tank 18b is managed.
The cold water tank 18a and the hot water tank 18b are also connected by another pipe 26. One end of the pipe 26 is connected to the upper part of the cold water tank 18a, and the other end is connected to the upper part of the hot water tank 18b. As a result, it is possible to release pressure when the hot water in the hot water tank 18b boils, that is, the pipe 26 plays a role of a safety valve.
Further, one end of a drain pipe 33 is connected to the lower part of the hot water tank 18b, and a drain valve 33a is provided at the other end of the drain pipe 33.

One end of the pipe 27 is connected to the lower part of the cold water tank 18a, and the other end is connected to a cold water intake cock 19a. One end of the pipe 28 is connected to the lower part of the hot water tank 18b, and the other end is connected to the intake cock 19b for hot water.
Furthermore, one end of the pipe 29 is connected to the lower part of the hot water tank 18 b and the other end is connected to the pipe 23 d of the circulation path 23. The piping 29 is provided with an electromagnetic valve 29a. Normally, the electromagnetic valve 29a is closed, but is opened when ozone sterilization is performed by the ozone sterilizer 24.
Further, one end of the pipe 30 is connected to the fourth filter 4d, and the other end is connected to the second water storage tank 15a. As a result, water that cannot pass through the RO membrane (reverse osmosis membrane) of the fourth filter 4d (since the RO membrane can only pass a certain amount of water, water that cannot pass easily occurs) is once returned to the second water storage tank 15a. Thus, water is released so that excessive pressure does not act on the pipe 23b.

  In the water purifier having such a piping facility, water taken from the atmosphere by the water intake device S is stored in the second water storage tank 15a, and then UV sterilized by the UV sterilization lamp 15b and silver ion-containing porous Since silver ions are released from the material 22 into the water, they are sterilized by the silver ions. The water sterilized in this way passes through the filter device 4 to remove most foreign matters mixed in the water, and then activates the water with the fifth filter 4e, The pH is adjusted, water is stored in the cold water tank (first water storage tank) 18a, and water can be taken from the water intake cock 19a. A part of the water stored in the cold water tank 18a flows into the hot water tank 18b, is heated to a predetermined temperature by the hot water tank 18b, is stored in the hot water tank 18b, and can be taken from the intake cock 19b.

  Further, the UV sterilizing lamps 15b and 21, the ozone sterilizing device 24 and the electromagnetic valve 29a are connected to a control panel 31 (see FIG. 2). Operates at predetermined time intervals, for example, for a certain time per day. When the ozone sterilizer 24 starts and stops, the electromagnetic valve 29a opens and closes. When the solenoid valve 29a is opened and the ozone sterilizer 24 is operated to circulate water, all the water in the first water storage tank 18a, the second water storage tank 15a, the circulation path 23, and the pipes 25 to 30 is sterilized with ozone. I can.

As described above, according to the present embodiment, since silver ions are released from the silver ion-containing porous body 22 into the water stored in the first water storage tank 18a, the water is always sterilized by the silver ions. . Therefore, the water in the first water storage tank 18a can always be kept in a sterile state.
Moreover, since silver ion shows very strong bactericidal power, but has almost no adverse effect on the human body, the water stored in the first water storage tank 18a can be safely used as drinking water.
Furthermore, since silver is difficult to ionize, even if silver itself is put into the water of the first water storage tank 18a, it is hardly converted into silver ions and has a poor bactericidal action. However, the silver ion-containing porous body 22 contains silver ions in the porous body. Therefore, silver ions are easily released into water. For this reason, the water in the first water storage tank 18a can be easily maintained in a sterile state.

In addition, a UV sterilization lamp 21 for UV sterilizing water is provided in the first water storage tank 18a, a circulation path 23 for circulating water is connected to the first water storage tank 18a, and water is supplied to the pipe 23d of the circulation path 23. Since the ozone sterilization device 24 for sterilization is connected, the water in the first water storage tank 18a can be sterilized by the UV sterilization lamp 21 in addition to sterilization by silver ions, and can be sterilized more reliably. Moreover, since the water which flows through the circulation path 23 can be sterilized by the ozone sterilizer 24, the propagation of bacteria of the water flowing through the circulation path 23 can be prevented by both silver ions and ozone.
Furthermore, since the water flowing into the first water storage tank 18a from the circulation path 23 is sterilized by the ozone sterilizer 24, the water in the first water storage tank 18a can be more reliably maintained in a sterile state.

The water purifier also includes a second water storage tank 15a for storing water taken from the atmosphere, and a UV germicidal lamp 15b provided in the second water storage tank 15a, and silver ions are supplied to the second water storage tank 15a. Since the infiltrated silver ion-containing porous body 22 is accommodated and the circulation path 23 is connected to the second water storage tank 15a, the water stored in the second water storage tank 15a is UV sterilized by the UV sterilization lamp 15b. At the same time, it is released from the silver ion-containing porous body 22 and sterilized by silver ions. And since this sterilized water flows into the 1st water storage tank 18a from the 2nd water storage tank 15a through the circulation path 23, the water in the 1st water storage tank 18a can be kept more aseptically more reliably.
In addition, since the water in the first water storage tank 18a and the second water storage tank 15a is constantly sterilized by silver ions released from the silver ion-containing porous body 22, the UV sterilization lamps 15b and 21 and the ozone sterilization device 24 are provided. By operating at predetermined time intervals, electricity consumption can be suppressed while preventing bacterial growth.

(Second Embodiment)
FIG. 4 shows a second embodiment of the water purifier, and is a front view showing a schematic configuration of the water purifier. In this Embodiment, the water purifier is comprised by the large sized water intake apparatus S1 and the water purifier main body 40. FIG. Since the water purifier of this embodiment has the same components and functions as those of the water purifier of the first embodiment, common portions are denoted by the same reference numerals, and description thereof is omitted or simplified.
Moreover, in FIG. 4, although the state which connected the one water purifier main body 40 to the large sized water intake apparatus S1 is illustrated, you may connect multiple water purifier main bodies 40. FIG.

The water intake device S1 includes a casing K1, a second water storage tank 15a is provided in the casing K1, and a heat exchanger 20 is provided above the second water storage tank 15a. An air filter 7 is provided at the front opening of the casing K1, and a sirocco fan 2 is provided on the back side of the heat exchanger 20. A compressor 11 is provided below the heat exchanger 20.
In the present embodiment, the second water storage tank 15a, the heat exchanger 20, the air filter 7 and the sirocco fan 2 are the same as the second water storage tank 15a, the heat exchanger 20, the air filter 7 and the sirocco in the first embodiment. Each fan is larger than fan 2.

  The second water storage tank 15a is provided with a UV germicidal lamp 15b and a silver ion-containing porous body 22. The water sterilized by the UV sterilization lamp 15 b and sterilized by silver ions is discharged by the pipe 41 and the pump 42. The pump 42, the UV germicidal lamp 15 b, the heat exchanger 20 and the sirocco fan 2 are controlled by a control unit (control board) 43.

The water purifier main body 40 includes a casing K2, and a cold water tank (first water storage tank) 18a and a hot water tank 18b are provided in an upper portion of the casing K2. A silver ion-containing porous body 22 is accommodated in the cold water tank 18a. Further, a UV germicidal lamp 21 is provided in the cold water tank 18a.
Moreover, the filter apparatus 4 provided with the 1st filter 4a, the 2nd filter 4b, the 3rd filter 4c, the 4th filter 4, and the 5th filter 4e is provided in the lower part in the casing K2. A connection member 45 that connects the first filter 4a, the second filter 4b, the third filter 4c, the fourth filter 4 and the fifth filter 4e in a permutation is provided on the upper portion of the filter device 4.
One end of the connecting member 45 and the other end of the pipe 41 are connected by a connecting pipe 46. Moreover, when there are two or more water purifier main bodies 40, you may connect the one end part of the connection member 45 of each water purifier main body 40, and the other end part of the pipe | tube 41 of the water intake apparatus S1 with the some connection piping 46. FIG. Then, the connecting pipe 46 may be branched into a plurality, and one end of the connection member 45 of each water purifier main body 40 and the other end of the pipe 41 of the water intake device S1 may be connected by this branch pipe.

The other end of the connection member 45 and the cold water tank (first water storage tank) 18a are connected by a pipe 23c, and water is supplied to the cold water tank 18a by the pump 50. Further, a drain pipe 55 is connected to the pipe 23c.
Further, the cold water tank 18a and the hot water tank 18b are connected by a pipe (not shown) in the same manner as the pipes 25 and 26 shown in FIG. Further, the cold water tank 18a and the intake cock 19a, and the hot water tank 18b and the intake cock 19b are connected by pipes (not shown) in the same manner as the pipes 27 and 28 shown in FIG.

  Moreover, you may connect the cold water tank (1st water storage tank) 18a and the 2nd water storage tank 15a by the piping 47-49. By piping in this way, a circulation path 53 for circulating water between the first water storage tank 18a and the second water storage tank 15a can be formed. The circulation path 53 includes pipes 41 and 46, a connection member 45, a pipe 23c, and pipes 47 to 49. Further, the hot water tank 18 b and the pipe 47 may be connected by the pipe 51. Further, the ozone sterilizer 24 may be connected to the pipe 47.

  An operation panel 32 is provided at the upper front of the casing K2, so that the temperature of the water in the cold water tank 18a and the hot water tank 18b can be controlled, the power can be turned on / off, and the like.

  According to the present embodiment, the effect can be obtained in the same manner as in the first embodiment, and the water purification device is configured by the large water intake device S1 and one or a plurality of water purification device main bodies 40. The water purifier main body 40 can be installed at a desired position in a large facility such as a store or a factory.

  In addition, although the 1st and 2nd embodiment demonstrated the case where this invention was applied to the water purifier which has the water intake apparatus S and S1, this invention is not limited to this, The water purifier which is not provided with the water intake apparatus You may apply to. That is, you may accommodate the silver ion containing porous body which silver ion was made to infiltrate in the water storage tank of a water purifier.

S, S1 Water intake device 15a Second water storage tank 15b, 21 UV sterilization lamp 18a First water storage tank 22 Silver ion-containing porous body 23, 53 Circulation path 24 Ozone sterilization device

Claims (4)

  A water purifier having a first water storage tank, wherein a silver ion-containing porous body infiltrated with silver ions is accommodated in the first water storage tank, and the silver stored in the water stored in the first water storage tank A water purifier characterized in that silver ions are released from an ion-containing porous material. An ozone sterilization device for sterilizing water in the first water storage tank is provided with a UV sterilization lamp for UV sterilizing water, and a circulation path for circulating water is connected to the first water storage tank. Is connected, The water purifier of Claim 1 characterized by the above-mentioned. A water intake device for taking water from the atmosphere, the water intake device comprising a second water storage tank for storing the water taken in, and a UV germicidal lamp provided in the second water storage tank; The water purifier according to claim 2, wherein a silver ion-containing porous body infiltrated with silver ions is accommodated, and the circulation path is connected to the second water storage tank.   The water purifier according to claim 2 or 3, wherein the UV sterilization lamp and the ozone sterilizer operate at predetermined time intervals.

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