JP2002138526A - Macromolecular mineral magneto-electrically ionized water supply equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a macromolecular mineral magneto-electrically ionized water supply apparatus that not only can store water once for a while in a water intake tank which is installed onto a water line but also can maintain cleanliness of the water tank in a mode that supplies the water. SOLUTION: In the midst of a water line 1 which supplies a water intake tank 2 with water is provided so that a given amount of water can be stored in it. The stocked water is sucked by a water supply pump 23 to allow the water to be delivered in the downstream direction of the water line 1. Simultaneously, in a water intake tank 2, a macromolecular mineral magneto-electrically- ionized water generation apparatus 5 is located so that the equipment can supply such water. Meanwhile to a piping 3 for ventilation to which the water intake tank 2 is communicated, an air filtration filter 14 is installed inside, or an air-cut valve 12 is attached to an overflow exhaust pipe 11 which is directly connected to an overflow section 10 of the water intake tank 2 in order to prevent outside air from directly entering the water intake tank 2. Furthermore, the water remaining inside the water intake tank 2 is made to be a macromolecular mineral magneto-electrically-ionized water.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to an ultra-high-molecular-weight mineral ultra-high-molecular-weight magnetic ionized water that is free from impurities and can be supplied in large quantities at a time, while maintaining low maintenance costs. The present invention relates to a water supply apparatus for molecular mineral magnetic ionized water.

[0002]

2. Description of the Related Art Conventionally, in buildings that use a large amount of water, such as condominiums and other condominiums, hospitals, schools, drinking water manufacturers and food processing factories, etc., a water receiving tank is provided in the middle of a water supply pipe. The water receiving tank is used as a buffer to store a predetermined amount of water so that even when a large amount of water is consumed at one time, it is possible to prevent water supply from becoming impossible.

[0003] In some of these water receiving tanks, in order to add value to the water itself in a part thereof, water in the water receiving tank is separately filtered to remove impurities,
Some are capable of producing mineral water by passing through a mineral layer.

[0004]

However, since the water receiving tank itself always has water in and out, it is impossible to make the water receiving tank a sealed structure. Therefore, the water receiving tank has a ventilation pipe or the like. From outside, and outside air from the overflow pipe connected to the overflow section of the receiving tank, dust and various bacteria are brought into the receiving tank. There was a problem that it easily became dirty.

[0005] In particular, there is a problem that the odor and taste may be transferred to the water due to the continued use of the dirty water receiving tank, which deteriorates the water quality.

[0006] Further, rust may be generated in the water receiving tank with long-term use, and there has been a problem that the water receiving tank itself is deteriorated to cause water leakage.

In view of such a situation, the present inventor has found that the water receiving tank is kept clean by preventing direct invasion of outside air into the water receiving tank, and the active ultra-high molecular mineral magnetic ionized water is removed. The present invention has led to the invention of a water supply device for ultra-polymer mineral magnetic ionized water which can supply sanitary water by supplying water.

[0008]

According to the present invention, there is provided a water supply apparatus for ultra-polymer mineral magnetic ionized water in which a water receiving tank is provided in the middle of a water supply pipe for supplying water, and a predetermined amount of water is stored in the water receiving tank. In addition, the stored water is sucked by a water supply pump and water can be sent downstream of the water supply pipe, and a super-polymer mineral magnetic ionization water generator is installed in the water receiving tank.
A water supply device capable of supplying ultra-polymer mineral magnetic ionized water, in which an air filter provided with an air filtration filter is interposed in a ventilation pipe connected to the water receiving tank, and the outside air is supplied to the water receiving tank. To prevent direct intrusion.

In addition, an air cut valve is interposed in the overflow drain pipe connected to the overflow portion of the water receiving tank so as to prevent external air from directly entering the water receiving tank.

[0010] Further, the ultra-polymer mineral magnetic ionized water generator comprises a circulating pump for sucking and pumping water in a water receiving tank, an ion exchanger for removing impurity ions in water, and a ceramic mineral housing from the upstream side. A mineral addition tank that can be installed internally to add minerals to water, a microfilter that filters water, an ultraviolet sterilizer that sterilizes water, and a magnetic field acting on water A magnetic magnet circuit for generating magnetic ionized water is connected in series in this order to form a super-polymer mineral magnetic ionized water. And the water receiving tank are connected to each other by a forward pipe and a backward pipe to form a circulation flow path.

In the present invention, the magnetic ionized water is water obtained by applying a strong magnetic field to water flowing in a pipe to make water clusters fine. Further, the ultra-high molecular mineral is a mineral eluted from ceramics containing a mineral component, and the magnetic ionized water containing the mineral is called ultra-high molecular mineral magnetic ionized water.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION In the water supply apparatus for ultra-polymer mineral magnetic ionized water of the present invention, a water receiving tank provided with an ultra-polymer mineral magnetic ionized water generator is provided in the middle of a water supply pipe for supplying water. And store a predetermined amount of water in the receiving tank,
The stored water is sucked by a water supply pump and can be sent downstream in a water supply pipe, so that a large amount of ultra-polymer mineral magnetic ionized water can be supplied at one time.

[0013] In particular, an air filter provided with an air filtration filter is interposed in the ventilation pipe connected to the water receiving tank. That is, when the water in the water receiving tank is sucked by the water supply pump and the amount of water in the water receiving tank is reduced by supplying water downstream of the water supply pipe, the air flowing into the water receiving tank through the ventilation pipe is After flowing through the air filtration filter of the air filter, it flows into the water receiving tank, so that dust and germs in the air, or exhaust gas, or exhaust gas can be removed by the air filtration filter. It is possible to prevent dust and germs from being introduced. Therefore, it is possible to prevent the inside of the water receiving tank from being soiled, and it is possible to always maintain the inside of the water receiving tank in a clean state. In particular, it is possible to prevent organisms from entering the water receiving tank along the ventilation pipe.

Further, an overflow section is provided in the water receiving tank, and of the water supplied to the water receiving tank, an amount of water exceeding the capacity of the water receiving tank is caused to overflow to the overflow section. Water can be drained out of the receiving tank from an overflow drain pipe connected to the overflow section.

In particular, an air cut valve is interposed in the overflow drain pipe so that the air cut valve is closed when water is not being drained, so that outside air passes through the overflow drain pipe into the receiving tank. So that it can be prevented from invading.

On the other hand, when water is drained from the overflow drain pipe, the water can be drained by opening the air cut valve, and the drained water flows into the water receiving tank. It is designed to prevent outside air from entering.

Therefore, it is possible to prevent outside air from entering the water receiving tank through the overflow drain pipe, thereby preventing dust, various germs, exhaust gas, and the like from being brought into the water receiving tank. Since the inside of the water receiving tank can be prevented from being soiled, the inside of the water receiving tank can always be kept clean. In particular, it is possible to prevent organisms from entering the water receiving tank along the overflow drain pipe.

Further, the water receiving tank is provided with a forward pipe and a return pipe for communicating and connecting with the ultra-high molecular mineral magnetic ionized water generator, and a bypass having the ultra-high polymer mineral magnetic ionized water generator interposed therebetween. A circular circulation channel is formed so that water in the water receiving tank can be circulated.

In particular, the ultra-polymer mineral magnetic ionized water generator comprises a circulating pump for sucking and pumping water in a water receiving tank, an ion exchanger for removing impurity ions in water, and a ceramic mineral housing from the upstream side. A mineral addition tank that can be installed internally to add minerals to water, a microfilter that filters water, an ultraviolet sterilizer that sterilizes water, and a magnetic field acting on water A magnetic magnet circuit for generating magnetic ionized water is connected and connected in series in this order.

The water sucked into the circulation channel by the circulation pump is first passed through an ion exchanger to remove impurity ions remaining in the water and to be softened. The ceramic mineral housing is supplied to the mineral addition tank inside.

By removing the impurity ions in advance in the ion exchanger, the dissolving power of water can be increased, and the mineral content can be efficiently eluted in the mineral addition tank in which the ceramic mineral housing is provided. The components can be stably present in an ionic state, so that the mineral components can be prevented from being inactivated by binding to impurity ions.

Further, in the mineral addition tank, not only the mineral component is eluted from the ceramic mineral housing, but also the residual chemical substance dissolved in the water is separated from the water by the far infrared rays emitted by the ceramic mineral housing. Alternatively, it can be disassembled.

Thereafter, by passing the water through a microfiltration device, fine powder of ceramics and the like which has fallen off from the ceramic mineral housing in the mineral addition tank is removed, and heavy metals and solids present in the water are surely removed. I can do it.

Then, by passing water through an ultraviolet sterilizer and irradiating the water with ultraviolet rays, various bacteria existing in the water can be sterilized and organic substances can be decomposed and made harmless. In particular, since the water passed through the ultraviolet sterilizer has passed through the microfilter, there is no risk of soiling the ultraviolet irradiation surface of the ultraviolet sterilizer, and the maintenance of the ultraviolet sterilizer can be reduced.

Thereafter, water is passed through a magnetic magnet circuit to generate magnetic ionized water. The magnetic magnet circuit arranges a permanent magnet around the water pipe through which water is flowing to form a strong magnetic field space,
By sending water across the strong magnetic field space, water and a magnetic field act to make water clusters finer and generate magnetic ionized water.

In particular, since minerals eluted in the mineral addition tank in the water exist in an ionic state, the magnetic field of the magnetic magnet circuit acts on the ions to promote the miniaturization of water clusters. And the finely divided water clusters surround the minerals in the ionic state, so that the minerals can be stably kept in the ionic state. . Therefore,
Minerals can be diffused almost uniformly in water,
Variations in the concentration of minerals can be prevented.

As described above, by passing water through the ion exchanger, the mineral addition tank, the microfilter, the ultraviolet sterilizer, and the magnetic magnet circuit in this order, the alkaline water becomes slightly alkaline homogeneous ion water and becomes soft water. Not only can water be generated, but also ultra-polymer mineral magnetic ionized water that is completely sterilized and free of heavy metals and organic substances can be generated.

The generation of such ultra-polymer mineral magnetic ionized water makes it possible to suppress or prevent the growth of bacteria even if germs enter the water receiving tank and to prevent rust and slime on the inner surface of the water receiving tank. Can be prevented, and the inside of the water receiving tank can be always kept clean, so that maintenance can be made unnecessary. further,
The inside of the water supply pipe on the downstream side of the water receiving tank can also be kept clean by ultra-polymer mineral magnetic ionization water, and the maintenance of the water supply pipe itself can be unnecessary.

In addition, the supplied water is ultra-high molecular mineral magnetic ionized water, which is good for the body. It has a detergency and bactericidal power so that it can be sterilized when washing food such as vegetables and fruits. And even more,
It is possible to reduce the amount of detergent during dishwashing and washing.

In the following, the water supply apparatus for ultra-polymer mineral magnetic ionized water of the present invention will be described in more detail with reference to the drawings.

[0031]

FIG. 1 is a schematic explanatory view of a water supply device A for ultra-polymer mineral magnetic ionized water according to the present invention.

The water supply apparatus A is composed of a water receiving tank 2 provided in the middle of the water supply pipe 1 and an ultra-high molecular mineral magnetic ionized water generator 5 connected to and connected to the water receiving tank 2. In particular, the water receiving tank 2 and the ultra-polymer mineral magnetic ionized water generator 5
Are connected via a forward pipe 3 and a return pipe 4 to form a circulation channel.

The water receiving tank 2 has an appropriate capacity according to the amount of water used in the building in which the water receiving tank 2 is provided, so that a required amount of water can always be stored inside. In particular, the water level in the receiving tank 2 is always set to a full draft level by a water amount detecting means such as a float (not shown). The water supply valve 6 provided on the water supply pipe 1 located on the upstream side of the water tank 2 is opened so that water can be supplied into the water tank 2. When the water level in the water receiving tank 2 reaches the full draft level due to the water supply, the water amount detecting means detects this and closes the water supply valve 6.

The time during which the water supply valve 6 is open is measured by a control unit (not shown), and the amount of water supplied to the water receiving tank 2 is calculated based on the measured valve opening time. Is calculated.

Further, a fine filter 8 and an ion exchanger 9 are provided in the water supply pipe 1 located between the water supply valve and 6 and the water receiving tank 2 so that water supplied to the water receiving tank 2 is filtered and filtered in advance. The hardness may be adjusted. Accordingly, it is possible to prevent dust and various bacteria from entering the water receiving tank 2 by being mixed with water.

The water receiving tank 2 is provided with an overflow section 10 for preventing the water level from rising from the water level when the water level is full. When the water level rises from the water level when the water level is full, excess water is supplied to the overflow area 10. So that it can overflow. Water overflowing into the overflow section 10 is connected to the overflow drain pipe connected to the overflow section 10.
The water can be drained out of the receiving tank 2 through 11.

In particular, an air cut valve 12 is provided in the overflow drain pipe 11, and when drainage is not performed through the overflow drain pipe 11, the valve is closed and outside air passes through the overflow drain pipe 11. Intrusion into the water receiving tank 2 can be prevented. Therefore,
It is possible to prevent dust and various germs from being brought into the water receiving tank 2 together with the outside air, and to maintain a clean state in the water receiving tank 2.

The number of the overflow section 10 and the overflow drain pipe 11 is not limited to one.
May be provided in accordance with the capacity of the device. However, when a plurality of independent overflow drain pipes 11 are provided, it is necessary to provide an air cut valve 12 for each of them.

Further, a ventilation pipe 13 is provided in the upper part of the water receiving tank 2 so that the amount of air in the water receiving tank 2 is appropriately increased or decreased. Aquarium 2
A pressure difference is generated between the inside and the outside, so that extra water is not added when water is supplied to the water receiving tank 2 or when water is sucked from the water receiving tank 2.

In particular, the ventilation pipe 13 is provided with an air filter 14 having an air filtration filter provided therein.
The outside air sucked into the water receiving tank 2 due to the lowering of the inside water level can be sucked after being filtered by the air filter of the air filter 14. Therefore, dust and various bacteria mixed in the outside air can be removed by the air filtration filter, and only the clean air can be sucked into the water receiving tank 2, so that the inside of the water receiving tank 2 is contaminated with dust and various bacteria. Can be prevented.

The number of ventilation pipes 13 is not limited to one, and a plurality of ventilation pipes 13 may be provided if necessary. However, when a plurality of independent ventilation pipes 13 are provided, it is necessary to provide an air filter 14 for each of them.

The above-mentioned water receiving tank 2 is provided with an ultra-polymer mineral magnetic ionized water generator 5 by an outgoing pipe 3 and a return pipe 4.
To form a bypass-shaped circulation flow path. In particular, the communication part 3 ′ of the outgoing pipe 3 to the water receiving tank 2.
Is preferably provided near or at the bottom of the water receiving tank 2 as much as possible, so that the water at the bottom of the water receiving tank 2 can be supplied to the ultra high molecular weight mineral ionization water generator 5. It is possible to prevent sediment consisting of dust or the like that has slipped into the inside of the water tank 2 from accumulating on the bottom of the water receiving tank 2.

The communication section 4 ′ of the return pipe 4 to the water receiving tank 2.
Is set to be higher than the draft level in a full water state, and the ultra-polymer mineral magnetic ionized water sent from the ultra-polymer mineral magnetic ionized water generator 5 to the water receiving tank 2 is injected into the water receiving tank 2. Due to the vibration generated by the above, the water in the water receiving tank 2 can be uniformly stirred. This prevents the concentration of minerals in the ultra-polymer mineral magnetic ionized water from becoming non-uniform.

Ultra-Polymer Mineral Magnetic Ionization Water Generator 5
As described above, the circulating pump 15 that suctions and pumps the water in the water receiving tank 2 from the upstream side, the ion exchanger 16 that removes impurity ions in the water, and the ceramic A mineral addition tank 18 capable of adding a mineral component to the water, a microfilter 19 for filtering water, an ultraviolet sterilizer 20 for sterilizing water, and a magnetic ionizer by applying a magnetic field to water. The magnetic magnet circuit 21 for generating water is connected and connected in series in this order.

The water sucked by the circulating pump 15 into the ultra-polymer mineral magnetic ionized water generator 5 is first passed through an ion exchanger 16 to remove impurity ions remaining in the water. I try to soften it.

Next, the water is passed through a mineral addition tank 18 in which a ceramic mineral housing 17 is provided. The ceramic mineral housing 17 has a composition capable of eluting a mineral to be added to water. In particular, since the solubility of water is increased by removing the impurity ions in the water in advance in the ion exchanger 16, the mineral components can be efficiently eluted. In addition, it is possible to prevent the eluted mineral from binding with impurity ions and inactivating them.

Further, a ceramic mineral housing
The far infrared rays emitted by 17 can also separate or decompose residual chemicals dissolved in water.

Next, the water is passed through the microfilter 19.
The microfiltration device 19 uses a filter capable of filtering out an object having a size of about 0.1 μm.
It not only removes fine powder of ceramics that have fallen off from the surface, but also reliably removes solids such as heavy metals and bacteria existing in water.

If necessary, a pressurizing pump 27 is interposed between the mineral addition tank 18 and the fine filter 19 to further pressurize the water and feed the water to the fine filter 19. The processing capacity of the filter 19 may be increased.

Next, the water is passed through the ultraviolet sterilizer 20. In the ultraviolet sterilizer 20, ultraviolet rays are irradiated by an ultraviolet irradiation lamp 22, so that the irradiated ultraviolet rays can sterilize various bacteria present in the water and decompose organic substances to make them harmless. .
Since the water passed through the ultraviolet sterilizer 20 has passed through the microfilter 19, there is no risk of soiling the ultraviolet irradiation surface of the ultraviolet irradiation lamp 22 and the maintenance of the ultraviolet sterilizer 20 can be saved.

Next, water is passed through the magnetic magnet circuit 21. In the magnetic magnet circuit 21, a permanent magnet is arranged around a water pipe through which water flows (not shown), and water is made to flow through the magnetic field generated by the permanent magnet to make water clusters finer, so Ionization water can be generated. In the magnetic magnet circuit 21, permanent magnets are appropriately combined and arranged so that water can be used as magnetic ionized water most efficiently.

As described above, by passing water through the ion exchanger 16, the mineral addition tank 18, the microfiltration device 19, the ultraviolet sterilizer 20, and the magnetic magnet circuit 21 in this order, a slightly alkaline homogeneous ion water is obtained. Not only can it produce softened water, it can also produce ultra-polymer mineral magnetic ionized water that is completely sterilized and free of heavy metals and organic matter, and can efficiently produce ultra-polymer mineral magnetic ionized water. The clean state in the water receiving tank 2 can be maintained by utilizing the high purification power of the water tank.

That is, since the ultra-polymer mineral magnetic ionized water has an effect of preventing the generation of rust, rust and scale are generated in the water receiving tank 2 and the water supply pipe 1 downstream of the water receiving tank 2. In addition, since the ultra-polymer mineral magnetic ionized water is completely sterilized, various bacteria grow in the water receiving tank 2 and the water supply pipe 1 downstream of the water receiving tank 2. It is possible to prevent slimming or the like from occurring. Therefore, the maintenance of the water receiving tank 2 can be made unnecessary.

The ultra-polymer mineral magnetic ionized water generated by the ultra-polymer mineral magnetic ionized water generator 5 is returned to the water receiving tank 2 through the return pipe 4.

A circulation channel formed by the water receiving tank 2, the outgoing pipe 3, the ultra-polymer mineral magnetic ionization water generating device 5, and the return pipe 4 is provided, and water in the water receiving tank 2 is subjected to ultra-polymer mineral magnetic ionization. By repeatedly passing water through the water generator 5, the activity of ultra-polymer mineral magnetic ionized water can be increased.

On the other hand, by repeatedly passing water through the ultra-polymer mineral magnetic ionized water generator 5, when minerals are dissolved to a certain concentration in the ultra-polymer mineral magnetic ionized water, an equilibrium state is established, and the ceramic mineral housing is formed.
Elution of minerals from 17 automatically stops. The equilibrium state depends on the composition of the ceramic mineral housing 17, and the composition of the ceramic mineral housing 17 is determined so that the mineral concentration of the ultra-polymer mineral magnetic ionized water in the equilibrium state becomes a desired concentration. I have.

The time required to reach the equilibrium state is measured in advance, and the ultra high molecular mineral in the water receiving tank 2 diluted by the water supplied to the water receiving tank 2 with the water supply valve 6 opened as described above. The circulation pump 15 of the ultra-polymer mineral magnetic ionized water generator 5 is operated until the magnetic ionized water can be converted into the equilibrium ultra-polymer mineral magnetic ionized water again.

When the ultra-polymer mineral magnetic ionized water reaches an equilibrium state, the circulation pump 15 is stopped to stop the circulation of the ultra-polymer mineral magnetic ionized water to prevent unnecessary circulation. I have.

The ultra-polymer mineral magnetic ionized water in the water receiving tank 2 is sucked by the water supply pump 23 and is sent downstream of the water supply pipe 1. At this time, the ultra-high molecular mineral magnetic ionized water sucked and sent from the water receiving tank 2 may be filtered and then sent to the water supply pipe 1 with the fine filter 24 interposed again.

In the water supply apparatus A of the ultra-polymer mineral magnetic ionized water of the present invention, as shown in FIG. 1, a three-way valve 28 is provided downstream of the circulation pump 15 to branch the backwash pipe 25. In addition, the microfilter 19 of the ultra-polymer mineral magnetic ionized water generator 5 can be periodically cleaned. Reference numeral 26 denotes a washing water drain pipe for draining water after washing. The ion exchanger 16 may also be capable of regular cleaning so that the cleaning wastewater can be drained through the cleaning water drain pipe 26.

By using the water supply device A of the ultra-polymer mineral magnetic ionized water as described above, a large amount of water can be supplied from an apartment house or the like, a hospital, a school, or a drinking water maker or a food processing plant. Ultra-polymer mineral magnetic ionized water can be used in the building to be used, and the maintainability of the water supply device A can be significantly improved.

[0062]

According to the first aspect of the present invention, an air filter provided with an air filter is interposed in the ventilation pipe connected to the water receiving tank. Can prevent direct intrusion of outside air into the receiving tank, and prevent dust, exhaust gas, living organisms, etc. from entering the receiving tank from entering the receiving tank, keeping the inside of the receiving tank clean. can do.

According to the second aspect of the present invention, since an air cut valve is provided in the overflow drain pipe connected to the overflow portion of the water receiving tank, external air is transmitted along the overflow pipe. Can be prevented from entering the inside, dust, exhaust gas,
There is no risk of living things invading, and the inside of the water receiving tank can be maintained in a clean state.

According to the third aspect of the present invention, a circulating pump for suctioning and pumping water in a water receiving tank, an ion exchanger for removing impurity ions in water, and a ceramic mineral housing are provided in the upstream side. A mineral addition tank capable of adding a mineral component to water, a microfilter for filtering water, an ultraviolet sterilizer for sterilizing water, and magnetic ionization by applying a magnetic field to water. A magnetic magnet circuit that generates water is connected in series in this order to form a super-polymer mineral magnetic ionized water generator so that the super-polymer mineral magnetic ionized water is generated. The mineral magnetic ionized water generation device and the water receiving tank are connected and connected by the outgoing pipe and the return pipe to form a circulation flow path, so that ultra-polymer mineral magnetic ionized water is repeatedly generated. It is possible to generate a highly active ultra high molecular mineral magnetic ionized water by performing the water passage to the location.

Therefore, the propagation of various bacteria in the receiving tank can be prevented by the characteristics of the ultra-polymer mineral magnetic ionized water itself, and the rust and scale in the receiving tank and in the water supply pipe downstream of the receiving tank can be prevented. Can be prevented, so that maintenance including cleaning work of the water receiving tank and the downstream water supply pipe of the water receiving tank can be eliminated.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a water supply device according to the present invention.

[Explanation of symbols]

 A Water supply device for ultra-polymer mineral magnetic ionized water 1 Water supply pipe 2 Water receiving tank 3 Outgoing pipe 4 Return pipe 5 Ultra-polymer mineral magnetic ionized water generator 6 Water supply valve 8 Microfilter 9 Ion exchanger 10 Overflow section 11 Overflow drain pipe 12 Air cut valve 13 Ventilation pipe 14 Air filter 15 Circulation pump 16 Ion exchanger 17 Ceramic mineral housing 18 Mineral addition tank 19 Microfilter 20 Ultraviolet sterilizer 21 Magnetic magnet circuit 22 Ultraviolet irradiation lamp 23 Water supply pump 24 Microfilter 25 Backwash pipe 26 Wash water drain pipe 28 Three-way valve

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C02F 1/48 C02F 1/48 A 1/68 510 1/68 510A 520 520V 530 530Z 540 540C 540Z 540B 540F 9 / 00 502 9/00 502J 502Z 502E 502N 502L 503 503A 504 504E E03B 11/00 E03B 11/00 Z F term (reference) 4D006 GA07 KB02 KB04 KB11 KB30 PA02 PB06 PB24 PC11 4D025 AA02 AB19 BB07 DA10 DA07 DA07 DA07 AB02 AB03 BA17 BA18 CA03 CA05 CA11 CA13 CA15 4D061 DA03 DB06 EA18 EC05 FA07 FA08 FA09 FA12

Claims (3)

[Claims] A water supply tank (2) is provided in the middle of a water supply pipe (1) for supplying water, a predetermined amount of water is stored in the water supply tank (2), and the stored water is supplied to a water supply pump (23). ) To allow water to be sent downstream of the water supply pipe (1),
Ultra high polymer mineral magnetic ionized water generator (5)
And a water supply device capable of supplying ultra-polymer mineral magnetic ionized water, wherein an air filter is provided inside a ventilation pipe (13) communicating with a water receiving tank (2). (14) interposed, receiving tank
(2) A water supply device for ultra-polymer mineral magnetic ionized water, wherein direct intrusion of outside air into the inside is prevented. A water receiving tank (2) is provided in the middle of a water supply pipe (1) for supplying water, a predetermined amount of water is stored in the water receiving tank (2), and the stored water is supplied to a water supply pump (23). ) So that water can be sent downstream of the water supply pipe (1), and a super-polymer mineral magnetic ionization water generator (5) is installed in the water receiving tank (2). A water supply device capable of supplying water, wherein an air cut valve (12) is provided in an overflow drain pipe (11) connected to an overflow section (10) of a water receiving tank (2), and the water receiving tank (2) is provided. A water supply device for ultra-polymer mineral magnetic ionized water, wherein direct intrusion of outside air into the inside is prevented. 3. Ultra-high molecular mineral water generator
(5) From the upstream side, a circulating pump (15) that suctions and pumps the water in the water receiving tank (2), an ion exchanger (16) that removes impurity ions in the water, and a ceramic mineral housing (17)
, A mineral addition tank (18) capable of adding a mineral component to water, a microfilter (19) for filtering water, and an ultraviolet sterilizer (20 for sterilizing water). ) And a magnetic magnet circuit (21) for generating magnetic ionized water by applying a magnetic field to water in series in this order so as to generate ultra-polymer mineral magnetic ionized water. The ultra-polymer mineral magnetic ionization water generator
The circulating flow path is formed by connecting (5) and the water receiving tank (2) with each other by an outgoing pipe (3) and a return pipe (4) to form a circulation channel. Water supply device for ultra-polymer mineral magnetic ionized water.