JP2019100158A - Drinking water generator - Google Patents

Abstract

To provide a drinking water generator capable of continuously disinfecting product water stored in storage means even in the event of a fault in the supply of electric power such as a power failure.SOLUTION: A drinking water generator comprises: water generation means 3 which obtains product water by condensating moisture in the air; storage means 4 which stores the product water; a lead-out passage 5 which introduces outside the product water stored in the storage means 4 to be taken out; ozone generation means 9 which generates ozone; a lead-in passage 11 which introduces the ozone generated by the ozone generation means 9 to the storage means 4; and a pump 10 for the ozone which delivers the ozone generated by the ozone generation means 9 through the lead-in passage 11 to the storage means 4. The drinking water generator also includes a portable power source 15 which generates or stores electric power so as to supply power to the ozone generation means 9 and the pump 10 for the ozone to introduce the ozone to the product water in the storage means 4.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a potable water generating apparatus for obtaining product water in an apparatus by cooling air and condensing moisture in the air, and purifying the product water to generate potable water, in particular electric power. The present invention relates to a drinking water generating device capable of continuously sterilizing the generated drinking water even when there is a problem in supply.

  In the past, a drinking water generator has been proposed which cools air and condenses moisture in the air to obtain generated water and purifies the generated water to generate drinking water. According to the drinking water generating apparatus, after the outside air is taken in and water (generated water) is generated by the water generating means, the generated water can be purified by the purifying means such as a filter to generate the drinking water. Therefore, it is possible to easily provide drinking water at various places without having to replace a tank or the like containing the drinking water. Since such prior art does not relate to a document known invention, there is no prior art document information to be described.

  However, in the above-mentioned prior art, the drinking water producing apparatus is equipped with a storage unit capable of storing a predetermined amount of water generated by the water generation unit, and the generated water in the storage unit is appropriately discharged as needed It was necessary to purify and produce drinking water. For this reason, when it is not used over a long period of time, there has been a possibility that bacteria and the like may be generated and propagated in the produced water contained in the containing means.

  Therefore, the present applicant has come to consider that ozone is jetted to the generated water contained in the containing means to suppress the reproduction of bacteria and the like. In this case, even if there is a problem in the power supply such as a power failure and it is not possible to generate drinking water, the water generated so far is contained in the storage means, so that the power failure etc. For example, provision of generated water can be performed immediately. However, in the event of a power failure etc. ozone can not be ejected to the generated water stored in the storage means as well as the production of drinking water, and the growth of various bacteria etc. can not be suppressed, so that the blackout is eliminated However, there is a problem that sanitary water can not be provided immediately.

  The present invention has been made in view of such circumstances, and it is possible to continuously sterilize the generated water stored in the storage means even when there is a problem with the power supply such as a power failure. To provide a water generator.

  The invention according to claim 1 is a water generating means for obtaining generated water by cooling air and condensing moisture in the air, and a containing means capable of containing a predetermined amount of generated water obtained by the water generating means. And a lead-out flow passage through which the produced water housed in the housing unit can be led to the outside and taken out, ozone generation unit capable of generating ozone, and ozone generated by the ozone generation unit to the housing unit. A drinking water generating apparatus comprising: an introduction flow path which can be introduced; and an ozone pump capable of feeding ozone generated by the ozone generation means to the storage means via the introduction flow path A portable power source is provided, and the portable power source can supply electric power to at least the ozone generation means and the pump for ozone to introduce ozone into the generated water in the storage means. That.

  According to a second aspect of the present invention, in the drinking water generating apparatus according to the first aspect, a connection terminal selectively connectable to the portable power source or the AC power source is provided, and the AC power source is connected to the connection terminal. In this case, the AC power supply can supply power to at least the water generation unit to generate generated water, and the portable power supply can be connected to the connection terminal instead of the AC power supply. In addition to the ozone generation means and the pump for ozone by a portable power source, electric power is supplied to at least the water generation means to generate generated water.

  The invention according to claim 3 is the drinking water generating apparatus according to claim 1 or 2, wherein the portable power source comprises a solar power generation means capable of generating solar light or a wind power generation means capable of generating electric power by wind power. It is characterized by

  The invention according to claim 4 is characterized in that, in the drinking water producing apparatus according to claim 1 or claim 2, the portable power source comprises a secondary battery capable of storing and discharging.

  According to the invention of claim 1, the portable power source capable of generating or storing electricity is provided, and the portable power source supplies electric power to at least the ozone generating means and the pump for ozone to introduce ozone into the generated water in the containing means. Since this has been made possible, even when there is a problem with the power supply such as a power failure, it is possible to continuously sterilize the generated water stored in the storage means.

  According to the second aspect of the present invention, the portable power supply or the AC power supply is provided with the connection terminal selectively connectable to the AC power supply, and when the AC power supply is connected to the connection terminal, at least the water generating means is operated by the AC power supply. When the portable power source is connected to the connection terminal in place of the AC power source to supply power to generate the generated water, in addition to the ozone generation means and the pump for ozone by the portable power source, at least the water Since power can be supplied to the generation means to generate generated water, the power source can be optionally selected according to the power situation.

  In particular, if a portable power source is connected to the connection terminal, an external power source such as an AC power source can be dispensed with, so that the potable water generating device can be easily installed in areas with poor power conditions or in vehicles. .

  According to the invention of claim 3, the portable power source comprises a solar power generation means capable of generating power by solar light or a wind power generation means capable of generating power by wind power, so that charging or the like is required compared to the secondary battery. Without, it can be made to sterilize generated drinking water well.

  According to the invention of claim 4, since the portable power source is composed of a rechargeable and dischargeable secondary battery, it can be easily installed in a place where there is almost no sunlight or wind, such as indoors or in a vehicle. .

The whole schematic diagram which shows the state which connected the alternating current power supply to the connection terminal of the drinking water production | generation apparatus which concerns on the 1st Embodiment of this invention. The whole schematic diagram which shows the state to which the portable power supply was connected to the connection terminal of the drinking water generating apparatus. A schematic view showing the housing means and the ejection form of ozone in the drinking water generating apparatus The housing means in the drinking water production | generation apparatus, and the schematic diagram which shows the other injection form of ozone The whole schematic diagram which shows the state which connected the alternating current power supply to the connection terminal of the drinking water production | generation apparatus which concerns on the 2nd Embodiment of this invention. The whole schematic diagram which shows the state to which the portable power supply was connected to the connection terminal of the drinking water generating apparatus. The whole schematic diagram which shows the drinking water production | generation apparatus which concerns on other embodiment of this invention The whole schematic diagram which shows the drinking water production | generation apparatus which concerns on other embodiment of this invention

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
The drinking water producing apparatus according to the present embodiment is for producing produced water in the apparatus by cooling air and condensing moisture in the air, and purifying the produced water to produce drinking water. As shown in FIGS. 1 and 2, the apparatus main body 1, the water generation means 3, the storage means 4, the lead-out flow path 5, the purification means 7, the ozone generation means 9, and the introduction flow path 11; It mainly comprises a pump 10 for ozone, a check valve 12, a portable power source 15, a connection terminal 16, and a converter 17.

  The apparatus main body 1 constitutes the casing of the present drinking water generating apparatus, and various means (water generating means 3, purification means 7, ozone generating means 9, etc.), parts and pipes (ozone pump 10, lead-out etc.) inside The flow path 5 etc. is disposed. A fan 2 for forcibly introducing outside air into the inside of the apparatus is formed at a predetermined position of the apparatus main body 1, and the fan 2 is configured to be able to cool the outside air while supplying the water generating means 3 with the outside air. It is preferable to dispose a filter or the like capable of capturing and removing foreign substances contained in the outside air (air) introduced by the fan 2.

  The water generation means 3 can obtain the generated water by condensing moisture in the air in the apparatus main body 1, and it is possible to use, for example, a metal part having fins 3a formed on the back side. it can. That is, air is introduced to the water generation means 3 by the fan 2 and the air is cooled by the air flow of the fan 2 and the cooling action of the fins 3a, so that water contained in the air is condensed to be efficiently generated. You can get water. In addition, as long as it can cool the air and condense the moisture in the air to obtain the generated water, the water generation means 3 may be another form.

  The generated water produced by the water producing means 3 is supplied to the containing means 4 disposed below. The storage means 4 comprises a tank or the like capable of storing a predetermined amount of generated water obtained by the water generation means 3. In the present embodiment, the detection means 13 capable of detecting the liquid level of the stored generated water is used. It is attached. The detection means 13 is, for example, a mechanical type or a sensor that utilizes floating buoyancy (a type that detects liquid level by irradiating light or sound wave to generated water and detecting light or sound wave reflected or transmitted, etc.) It may be in any form, such as one using.

  Further, at the bottom surface of the housing means 4, a lead-out flow passage 5 composed of a pipe, a tube or the like is connected. The outlet channel 5 allows the product water stored in the storage means 4 to be drained to the outside and can be taken out, and the drinking water can be discharged from the discharge port 5a at the tip, and the middle of the channel In the above, the lead-out pump 6, the purification means 7 and the solenoid valve 8 are respectively disposed. However, at normal times, the lead-out pump 6 is in the stop state, and the solenoid valve 8 is in the closed state (the lead-out flow path 5 is blocked).

  Then, when the operating means 14 including, for example, an operation button and a lever attached to the front or side of the apparatus body 1 is operated, the solenoid valve 8 is opened (in a state where the outlet channel 5 is released) Since the pump 6 is driven, the generated water stored in the storage means 4 flows through the outlet channel 5 and is discharged from the discharge port 5a. It should be noted that the discharge pump 6 may not be provided, and when the solenoid valve 8 is in the open state, the drinking water may be discharged from the discharge port 5a by its own weight or the solenoid valve 8 is not provided and it is not driven It is also possible to use a lead-out pump 6 that can block the flow path and allow generated water to flow by driving.

  The purification means 7 is for purifying the generated water led out in the outlet channel 5 to generate drinking water, and in the present embodiment, a plurality of purification means such as an activated carbon filter and an RO membrane are connected. ing. Thus, the generated water stored in the storage means 4 is configured to pass through the purification means 7 in the process of flowing through the outlet channel 5 and be purified to be drinking water and discharged from the discharge port 5a. . In addition, you may use what can neutralize the ozone (for example, the effect | action which decomposes | disassembles ozone and returns it to oxygen etc.) as the purification means 7, for example.

The ozone generation means 9 is capable of generating ozone (O ₃ ) in the apparatus main body 1, and for example, by a silent discharge system, by a corona discharge system, or by a composite discharge system combining several discharge systems. Etc. can be used. Specifically, a dielectric is placed between two opposing electrodes, and several thousand cycles of alternating high voltage are applied between the electrodes to generate a discharge (silent discharge), and air (or high height) in the gap between the electrodes Distribution of oxygen). In this case, part of the oxygen molecule is dissociated into two oxygen atoms by the action of accelerated electrons by the discharge, and the dissociated oxygen atom reacts with other oxygen molecules to generate ozone.

  The ozone generation means 9 may be another form different from the discharge method, for example, one capable of generating ozone by a photochemical method using an ultraviolet lamp, one capable of generating ozone by an electrolysis method using electrolysis, It is good also as a thing etc. which can produce ozone by the activated carbon adsorption decomposition method to which it carries out adsorption decomposition using. The ozone generated by the ozone generating means 9 acts on microbes (bacteria, fungi, etc.) and odor substances to be capable of decolorization of pigments in addition to sterilization and deodorization.

  The introduction channel 11 comprises a channel such as a pipe or a tube that connects the ozone generation unit 9 and the storage unit 4, supplies the ozone generated by the ozone generation unit 9 to the storage unit 4, and supplies the ozone to the storage unit 4. It is possible to eject ozone into the contained product water. That is, as shown in FIG. 3, the introduction channel 11 is disposed such that the discharge port 11 a at the tip is positioned in the vicinity of the bottom surface of the storage unit 4, and the ozone generated by the ozone generation unit 9 is a discharge port. It is constituted so that it may be spouted from generated water stored in storage means 4 by being discharged from 11a.

  Thus, the ozone jetted from the discharge port 11a becomes bubbles in the generated water and flows upward, and the generated water can be disinfected and disinfected in the process. Note that, as shown in FIG. 4, the introduction flow passage 11 may be configured such that a plurality of discharge ports 11 b are formed at the tip thereof and ozone is jetted from each discharge port 11 b. In this case, ozone can be supplied and jetted over substantially the entire region of the containing means 4, and the sterilizing effect can be further improved.

  Further, an ozone pump 10 and a check valve 12 are attached to the introduction flow passage 11 respectively. The ozone pump 10 comprises a pump capable of feeding ozone generated by the ozone generation means 9 to the storage means 4 via the introduction flow path 11 by driving, and the check valve 12 is accommodated from the introduction flow path 11 It consists of a valve which interrupts | blocks the flow of the generated water from the accommodation means 4 to the introductory flow path 11 while permitting the flow of the ozone to the means 4.

  Furthermore, in the present embodiment, in a normal state in which the liquid level detected by the detection unit 13 maintains a predetermined liquid level, the ozone generated by the ozone generation unit 9 is ejected into the generated water stored in the storage unit 4 While the liquid level detected by the detection means 13 is lower than a predetermined liquid level, the generation of ozone by the ozone generation means 9 and the ejection of ozone into the generated water stored in the storage means 4 are automatically performed. Are configured to stop (ie, stop the ozone pump 10).

  Here, in the present embodiment, the portable power supply 15 capable of generating or storing electricity is provided, and the portable power supply 15 supplies power to at least the ozone generation unit 9 and the pump 10 for ozone to generate water in the storage unit 4. It is possible to introduce ozone into The portable power source 15 is different from one installed in facilities such as a building such as an AC power source, and can be supplied with power while being portable with the apparatus main body 1. It may be a light power generation means (solar panel etc.) or a wind power generation means (wind power generator) capable of generating electricity by wind power, or it may be a secondary battery (battery etc.) capable of storing and discharging electricity. In particular, in the present embodiment, the wiring H1 is extended from the apparatus main body 1, and by connecting the portable power source 15 to the tip of the wiring H1, the ozone generation means 9 and the pump 10 for ozone are concerned. Power of the portable power source 15 is supplied.

  Further, in the present embodiment, a connection terminal 16 selectively connectable to the portable power supply 15 or an alternating current power supply (AC) is provided, and as shown in FIG. 1, the alternating current power supply (AC) is connected to the connection terminal 16. Are connected (that is, the plug formed at the tip of the wiring H2 is connected to an alternating current power supply (AC)), at least the water generation unit (in this embodiment, the water generation unit 3) In addition, electric power can be supplied to the fan 2, the outlet pump 6 and the solenoid valve 8) to generate generated water. In this case, electric power is supplied to the ozone generation means 9 and the pump 10 for ozone by the portable power source 15 so that ozone can be introduced into the generated water in the storage means 4.

  Furthermore, as shown in FIG. 2, when the portable power supply 15 is connected to the connection terminal 16 instead of the alternating current power supply (AC), the portable power supply 15 adds to the ozone generating means 9 and the pump 10 for ozone Electric power can be supplied to the water generation means 3 (in the present embodiment, the fan 2, the outlet pump 6 and the solenoid valve 8 in addition to the water generation means 3) to generate generated water. In this case, the portable power supply 15 supplies power to all parts of the apparatus body 1.

  More specifically, the connection terminal 16 is connected to a wiring Ha capable of supplying electric power to components other than the ozone generating means 9 and the pump 10 for ozone, and a converter 17 capable of converting direct current to alternating current. And the wiring Hb. The converter 17 is connected to the wiring Hc so that the current converted into an alternating current can flow through the wiring Ha. Then, as shown in FIG. 1, when the AC power supply (AC) is connected to the connection terminal 16 through the wiring H2, a unit including the water generating unit 3 through the wiring Ha (ie, the ozone generating unit 9 and It is a component other than the pump 10 for ozone, and power can be supplied to the fan 2, the lead pump 6 and the component such as the solenoid valve 8 by an AC power supply (AC), and for ozone generation means 9 and ozone The pump 10 is supplied with power by the portable power supply 15 via the wiring H1.

  On the other hand, as shown in FIG. 2, when the wiring H3 extended from the portable power supply 15 is connected to the connection terminal 16 instead of the AC power supply (AC), the direct current of the portable power supply 15 is converted. A means including the water generating means 3 converted into an alternating current at 17 through the wiring Hc and the wiring Ha (that is, components other than the ozone generating means 9 and the pump 10 for ozone, the fan 2 and the lead pump 6 The portable power source 15 can supply power to the components such as the electromagnetic valve 8 and the like, and the power supply from the portable power source 15 continues to be supplied to the ozone generating means 9 and the pump 10 for ozone.

Next, a drinking water generating apparatus according to a second embodiment of the present invention will be described.
The potable water generating apparatus according to the present embodiment cools the air and condenses the moisture in the air to obtain generated water in the apparatus and purify the generated water as in the first embodiment. The apparatus is for generating drinking water, and as shown in FIGS. 5 and 6, the apparatus body 1, the water generating means 3, the containing means 4, the outlet flow path 5, the purifying means 7, and the ozone generating means 9. , The introduction flow path 11, the ozone pump 10, the check valve 12, the portable power source 15, the connection terminal 16, the converter 17, the circulation flow path 18, and the circulation pump 19 Is configured. In addition, the same code | symbol is attached | subjected to the component similar to the said embodiment, and those detailed description is abbreviate | omitted.

  The storage means 4 according to the present embodiment comprises a tank or the like capable of storing a predetermined amount of generated water obtained by the water generation means 3, and the generated water stored by connecting a predetermined portion and another portion is used. A circulating flow passage 18 is provided. The circulation flow path 18 is composed of a flow path such as a pipe or a tube connected to the storage means 4 and has a circulation pump 19 attached thereto. Then, by driving the circulation pump 19, generated water in the storage unit 4 can be made to flow from a predetermined portion to another portion and circulated in the storage unit 4.

  The introduction flow path 11 is connected to the circulation flow path 18, and ozone is generated by the ozone generation means 9 while the ozone generation means 9 generates ozone, and the ozone generated by the ozone generation means 9 is circulated by driving the ozone pump 10. It is configured to be able to be jetted into the product water circulating in the passage 18. Thus, the generated water stored in the storage means 4 is sprayed with ozone in the process of flowing through the circulation flow path 18, and is disinfected and disinfected over the entire generated water.

  Here, in the present embodiment, as in the first embodiment, the portable power supply 15 capable of generating or storing electricity is provided, and the portable power supply 15 supplies power to at least the ozone generation unit 9 and the pump 10 for ozone. It is possible to introduce ozone into the generated water in the storage means 4. As in the first embodiment, the portable power source 15 can be supplied while being portable with the apparatus main body 1 and can be supplied with electric power. For example, solar power generation means (solar panel etc.) capable of generating power by sunlight or wind power It may be a wind power generation means (wind power generator) capable of generating electric power, or a secondary battery (battery or the like) capable of storing and discharging electricity.

  Further, in the present embodiment, a connection terminal 16 selectively connectable to the portable power supply 15 or an alternating current power supply (AC) is provided, and as shown in FIG. Are connected (that is, the plug formed at the tip of the wiring H2 is connected to an alternating current power supply (AC)), at least the water generation unit (in this embodiment, the water generation unit 3) In addition, electric power can be supplied to the fan 2, the outlet pump 6 and the solenoid valve 8) to generate generated water. In this case, electric power is supplied to the ozone generation means 9, the pump for ozone 10 and the pump for circulation 19 by the portable power source 15, and ozone can be introduced into the generated water in the storage means 4.

  Furthermore, as shown in FIG. 6, when the portable power supply 15 is connected to the connection terminal 16 instead of the AC power supply (AC), the ozone generation means 9, the pump 10 for ozone and the circulation pump 19 are performed by the portable power supply 15. In addition to the above, electric power can be supplied to at least the water generating means 3 (in this embodiment, the fan 2, the outlet pump 6 and the solenoid valve 8 in addition to the water generating means 3) to generate generated water. In this case, the portable power supply 15 supplies power to all parts of the apparatus body 1.

  According to the first embodiment and the second embodiment of the present invention, the portable power supply 15 capable of generating or storing electricity is provided, and at least the ozone generating means 9 and the pump 10 for ozone are powered by the portable power supply 15. Since ozone can be supplied to the generated water in the storage means 4 so as to be supplied, the generated water stored in the storage means 4 can be continuously disinfected even if there is a problem with the power supply such as a power failure. can do.

  Moreover, while having the connection terminal 16 which can be selectively connected to the portable power supply 15 or alternating current power supply (AC), when the alternating current power supply (AC) is connected to the said connection terminal 16, by the said alternating current power supply (AC) When the portable power supply 15 is connected to the connection terminal 16 in place of the AC power supply (AC), the portable power supply 15 can supply power to at least the water generation means 3 and generate the generated water. In addition to the ozone generating means 9 and the pump 10 for ozone, power can be supplied to at least the water generating means 3 to generate generated water, so the power source can be optionally selected according to the power situation. In particular, if a portable power source 15 is connected to the connection terminal 16, an external power source such as an AC power source (AC) can be dispensed with, so the potable water generating device can be easily used in areas with poor power conditions or in vehicles. It can be installed.

  Also, if the portable power source 15 is composed of a solar power generation means capable of generating power by solar light or a wind power generation means capable of generating power by wind power, there is no need to perform charging or the like compared to a secondary battery. It is possible to carry out good sterilization and disinfection of the drinking water. Furthermore, if the portable power source 15 is composed of a secondary battery capable of storing and discharging electricity, it can be easily installed in a place where there is almost no sunlight or wind, such as indoors or in a vehicle.

  According to the first embodiment and the second embodiment, the ozone generating means 9 capable of generating ozone is provided, and the ozone generated by the ozone generating means 9 is contained in the containing means 4. Since the water can be spouted into the water, the bactericidal and disinfecting effect of ozone can efficiently and reliably sterilize the generated water stored in the storing means 4, and more hygienic drinking water can be obtained. In particular, since the ozone generated by the ozone generation means 9 flows upward as bubbles in the water produced by the storage means 4 and is dissipated into the apparatus main body 1, other means (for example, water in the apparatus main body 1) Generation means 3 etc.) can also be disinfected.

  Further, according to the present embodiment, the introduction flow path 11 connecting the ozone generation means 9 and the storage means 4 and the ozone generated by the ozone generation means 9 can be fed to the storage means 4 through the introduction flow path 11 It is attached to the pump 10 for ozone and the introduction flow path 11, and reverses the flow of generated water from the storage means 4 to the introduction flow path 11 while permitting the flow of ozone from the introduction flow path 11 to the storage means 4 Since the stop valve 12 is provided, the ozone generated by the ozone generating means 9 can be reliably ejected into the generated water contained in the containing means 4 and the generated water contained in the containing means 4 generates ozone. It can prevent reaching the means 9.

  Furthermore, according to the second embodiment, the storage unit 4 includes the circulation flow passage 18 capable of circulating the generated water contained by connecting the predetermined portion and the other portion, and the circulation flow passage 18 The ozone generated by the ozone generation means 9 can be jetted out into the generated water circulating through the water, so sterilization and disinfection with ozone can be achieved while circulating and stirring the generated water in the storage means 4 Drinking water can be obtained.

  Furthermore, a detection means 13 for detecting the liquid level of the generated water stored in the storage means 4 is provided, and the ozone is detected on the condition that the liquid level detected by the detection means 13 falls below a predetermined liquid level. Since the generation of ozone by the generation means 9 and the ejection of ozone into the generated water stored in the storage means 4 are stopped, it is possible to prevent the wasteful use of ozone. Thereby, the running cost of the device can be suppressed.

  As mentioned above, although this embodiment was described, the present invention is not limited to these, For example, as shown in Drawing 7, in the drinking water generation device concerning a 1st embodiment, all the components by portable power supply 15 As shown in FIG. 8, the portable power supply 15 according to the second embodiment is provided with power supply to all components including the ozone generation means 9 and the pump 10 for ozone, or as shown in FIG. 8. Power may be supplied to all the components (all components including the ozone generation means 9 and the pump for ozone 10).

  In addition, the portable power source 15 capable of generating power may be a portable power source of another form, for example, may be one capable of generating power using natural energy (renewable energy) different from solar energy and wind energy . Further, as the secondary battery as the portable power source 15, a lead storage battery or a lithium battery can be used, and other types of fuel cells may be used.

  The outlet channel 5 and the inlet channel 11 may be connected to another part of the housing means 4, or the circulation channel 18 may be connected to another part and circulated. Further, in the present embodiment, the storage means 4 and the ozone generation means 9 are disposed in the apparatus main body 1, but either one or both of the storage means 4 or the ozone generation means 9 may be an upper portion of the apparatus main body 1 or It may be disposed laterally.

  A potable water generating apparatus comprising a portable power source capable of generating or storing electric power and supplying electric power to at least the ozone generating means and the pump for ozone by the portable power source so that ozone can be introduced into the generated water in the containing means. The present invention can be applied to ones having different appearance shapes or those to which other functions are added.

DESCRIPTION OF SYMBOLS 1 apparatus main body 2 fan 3 water generation means 3a fin 4 accommodation means 5 derivation | leading-out flow path 5a discharge outlet 6 derivation | leading-out pump 7 purification means 8 solenoid valve 9 ozone generation means 10 ozone pump 11 introduction flow path 11a, 11b spout 12 reverse stop Valve 13 Detection means 14 Operation means 15 Portable power supply 16 Connection terminal 17 Converter 18 Circulation flow path 19 Pump for circulation

Claims (4)

Water generation means for obtaining product water by cooling air and condensing moisture in the air;
A storage unit capable of storing a predetermined amount of generated water obtained by the water generation unit;
An outlet channel through which product water stored by the storage means can be led out and taken out;
Ozone generating means capable of generating ozone;
An introduction channel which can introduce ozone generated by the ozone generation means into the storage means;
An ozone pump capable of feeding ozone generated by the ozone generation unit to the storage unit via the introduction flow path;
In the drinking water generator equipped with
A portable power source capable of generating or storing electricity is provided, and the portable power source can supply electric power to at least the ozone generation means and the pump for ozone to introduce ozone into the generated water in the storage means. Drinking water generating equipment.   A connection terminal that can be selectively connected to the portable power source or the AC power source is provided, and when the AC power source is connected to the connection terminal, the AC power source supplies power to at least the water generation unit to generate the power. When water can be generated and the portable power source is connected to the connection terminal instead of the AC power source, the portable power source adds to the ozone generating means and the pump for ozone, and at least the water generating means The apparatus for producing potable water according to claim 1, wherein the apparatus is capable of supplying electric power to the product to generate product water.   The potable water generating apparatus according to claim 1 or 2, wherein the portable power source comprises a solar power generation means capable of generating light by solar light or a wind power generation means capable of generating power by wind power.   The drinking water generating apparatus according to claim 1 or 2, wherein the portable power source comprises a rechargeable battery capable of storing and discharging electricity.

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