KR20080107109A - Nano clustered water purifier using ozon - Google Patents

Abstract

A microclustered water-cleaner using ozone is provided to supply microclustered water absorbed fast into human body and to manufacture the microclustered water in which the ozone gas is not included and which is sterilized and purified. A microclustered water-cleaner using ozone contains a reaction bath(100) for storing water flown in through a water supply pipe(110) and having an exhaust pipe(120) exhausting an inner gas outside, an ozone generation part(200) generating the ozone gas and supplying ozone gas inside of the reaction bath, an aeration part(300) producing ozone water by aerating the ozone gas supplied from the ozone generation part into water stored in the reaction bath, a drainpipe(400) discharging the ozone water generated in the reaction bath, a guide member(500) guiding the ozone water in lower part of the reaction bath in order to discharge the ozone water in lower part of the reaction bath to the drainpipe, a connection pipe(600) having a ozone removing part(610) removing the ozone gas and a drinking water storage(700) storing the ozone water ejected to the drainpipe.

Description

Nano clustered water purifier using ozon

1 is a schematic view showing a first embodiment of a finely coupled water purifier using ozone of the present invention;

Figure 2 is a schematic diagram showing a state in which the drain pipe and the guide member is provided on one side of the reaction tank in the first embodiment of the micro-binding water purifier using ozone of the present invention,

Figure 3 is a schematic diagram showing a second embodiment of the micro-binding water purifier using ozone of the present invention.

＊ Explanation of symbols for main part of drawing ＊

100, 100 ': reaction water tank 110, 110': water supply pipe

111, 111 ': Filtration part 120, 120': Exhaust pipe

121, 121 ': negative ion generator 122, 122': negative ion outlet

200, 200 ': ozone generator 210, 210': dehumidifier / vibrator

300, 300 ': Aeration part 400, 400': Drain pipe

410: drain port 420, 420 ': filter portion

500, 500 ': guide member 600, 600': connector

610, 610 ': ozone removal unit 700, 700': drinking water storage unit

710, 710 ': Cold water tank 711, 711': Cold water pipe

720, 720 ': Hot water tank 722, 722': Double hot water pipe

730, 730 ': transfer pipe 800, 800': outlet pipe

810: outlet port V1, V2, V3, V1 ', V2', V3 ': valve

P1, P2, P1 ', P2': Pump AP, AP ': Air Pump

LG1, LG2, LG1 ', LG2': water gauge

The present invention relates to a finely bonded water purifier using ozone, and more particularly, to produce sterilized purified finely bonded water containing no ozone gas at low maintenance costs, and to supply drinking water and washing water, respectively. It relates to a micro-bound water purifier using.

In general, water purifiers installed in homes and offices use purified water or natural water as purified water to purify purified water using filters to remove foreign substances, odors and bacteria. A filter used in such a conventional water purifier is used, such as a hollow fiber membrane filter or an activated carbon filter. A conventional water purifier using such a filter is described in detail in Korean Patent Application No. 2005-72532.

However, the conventional water purifier decreases the purifying power and the sterilizing power of the filter as the period of use passes over a certain period. In addition, when more time elapses, bacteria that are harmful to the human body may multiply in the filter, causing unsanitary problems.

Therefore, the conventional water purifier has a problem in that the filter needs to be periodically replaced after a certain period of time has elapsed, and there is a problem in that a large maintenance cost is continuously required by the periodic replacement of the filter.

On the other hand, in general, most of the water is composed of large clusters (Cluster) formed by many water molecules hydrogen bond is slow to be absorbed by the human body. However, since a conventional water purifier is a form in which such water is simply filtered and sterilized using the filter, the drinking water supplied by the conventional water purifier has a problem of being slowly absorbed by the human body like most water.

In addition, since the conventional water purifier supplies only purified and sterilized drinking water and does not supply washing water having sterilization power, there is an inconvenience in that a user must separately purchase a washing water supply if necessary.

An object of the present invention for solving the problems as described above is to prepare and supply the sterilized and purified drinking water and washing water without ozone gas, and supply ozone which can supply the micro-binding water with fast absorption to the human body. It is to provide a micro-bonded water purifier used.

Another object of the present invention is to eliminate the inconvenience of periodic filter replacement, to reduce maintenance costs, and to provide a finely coupled water purifier using ozone that can purify the air by discharging negative ions.

Micro-combined water purifier using ozone of the present invention for achieving the object as described above is a reaction tank, ozone gas provided with an exhaust pipe for storing the water introduced through the water supply pipe and the gas inside is discharged to the outside An ozone generating unit for generating and supplying the inside of the reaction tank, an aeration unit for generating ozone water by aeration of the ozone gas supplied from the ozone generating unit in the water stored in the reaction tank, and discharging the ozone water generated in the reaction tank The guide pipe is provided in the reaction tank so as to surround the drain pipe formed in the drain pipe, the guide member for guiding the ozone water in the lower portion of the reaction tank to be discharged to the drain pipe, connected to the upper portion of the guide member to communicate with the gas inside the reaction tank And a connection pipe equipped with an ozone removal unit for removing ozone gas, and ozone water discharged to the drain pipe. Drinking water storage unit is stored.

The ozone finely coupled water purifier may further include a water outlet tube communicating with the drain pipe to discharge ozone water stored in the reaction tank to the outside.

The exhaust pipe may include an anion generator that generates anions by decomposing ozone gas passing through the inside.

The drain pipe may include a filter unit for purifying ozone water passing through the inside and decomposing the ozone gas.

The drinking water storage unit stores the ozone water discharged into the drain pipe and has a cooler for cooling the stored ozone water, and communicates with the cold water tank and the transfer pipe to store the ozone water introduced through the transfer pipe and heat the stored ozone water. It may include a hot water bath having a heater to.

The ozone generating unit may include a dehumidifier / dehumidifier for removing moisture and dust contained in oxygen or air introduced into the inside.

In addition, the micro-combined water purifier using the ozone of the present invention stores the water introduced through the water supply pipe and the reaction tank having an upper exhaust pipe for discharging the gas inside to the outside, generating ozone gas inside the reaction tank An ozone generating unit for supplying to the aeration unit, aeration unit for generating ozone water by aeration of the ozone gas supplied from the ozone generating unit in the water stored in the reaction tank, an outlet pipe for discharging ozone water generated in the reaction tank to the outside, and A guide member is provided in the reaction tank to surround the outlet port formed in the outlet pipe and guides the ozone water under the reaction tank to be discharged to the outlet pipe, and is connected to an upper portion of the guide member so as to communicate with the gas inside the reaction tank. A connection tube equipped with an ozone removal unit for removing gas, and the reaction water to discharge ozone water generated in the reaction water tank It comprises of a drain pipe provided at the lower portion, and the drinking water storage unit that stores the discharged ozone to the water pipe.

The drain pipe may include a filter unit for purifying ozone water passing through the inside and decomposing the ozone gas.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

Hereinafter, with reference to the accompanying Figure 1 will be described in detail the configuration and effect of the micro-binding water purifier using ozone according to the first embodiment of the present invention. The micro-combined water purifier using ozone according to the first embodiment of the present invention is a reaction tank 100, ozone generating unit 200, aeration unit 300, drain pipe 400, guide member 500, connecting pipe ( 600), the drinking water storage unit 700, and the discharge pipe (800).

The reaction tank 100 stores the water introduced through the water supply pipe 110 is supplied with tap water or natural water, the ozone gas supplied from the ozone generating unit 200 is stored in the aeration unit 300 Aerated by At this time, the water supply pipe 110 may be provided with a filtration unit 111 for filtering the purified water to be supplied.

The filter 111 removes foreign substances such as sand and suspended matter from the water to be purified and primarily filters them, and prevents the internal mechanical elements from being damaged by the foreign substances. The filtration unit 111 is provided to be replaced when saturated by the foreign matter.

In addition, the reaction tank 100 is provided with an exhaust pipe 120 on the upper portion of the reaction gas 100 to be discharged to the outside. The exhaust pipe 120 includes an anion generator 121 that generates anions by decomposing ozone gas passing through the inside.

That is, the residual ozone gas after aeration in the water stored in the reaction tank 100 stays on the upper portion of the reaction tank 100, the residual ozone gas is discharged through the exhaust pipe 120, wherein the negative ion is generated The unit 121 decomposes all the ozone gas discharged to generate negative ions. These negative ions are discharged through the negative ion outlet 122 to purify the air.

In addition, the reaction tank 100 may be provided with a water level gauge (LG1) to measure and maintain the water level so as to maintain a predetermined amount of water is stored. The water level gauge LG1 supplies water and ozone gas by the water supply pipe 110 and the ozone generating unit 200 when the water level is lower than a predetermined height, and when the water level is higher than the predetermined height, supply of water and ozone gas. Adjust to block.

The ozone generator 200 generates ozone gas and supplies the ozone gas to the reaction water tank 100. The ozone generator 200 is preferably an ozone generator using a low activity plasma ion discharge, but is not limited thereto. The ozone generating device using the low activity plasma ion discharge is a device which passes oxygen or air between specially manufactured and spaced discharge plates, and generates ozone gas by applying a voltage to the discharge plates. The ozone generating apparatus using such a low activity plasma ion discharge is described in detail in Korean Patent Registration No. 384241, and thus a detailed description thereof will be omitted.

The ozone generator 200 may be provided with a dehumidifier / dehumidifier 210 for removing moisture and dust contained in oxygen or air introduced into the air by the air pump AP. The dehumidifier / dehumidifier 210 generates excessive heat by blocking a corona discharge phenomenon occurring between discharge plates to which a voltage of an ozone generator using the low activity plasma ion discharge, which is the ozone generator 200, is applied. To prevent toxic substances such as dioxins and furans other than ozone, and to shorten the life of the equipment by carbon deposition.

In addition, the ozone generator 200 may be provided to operate only the air pump AP in a state in which ozone generation is stopped before and after operation, thereby cleaning oxygen by introducing oxygen or air for a predetermined time.

The aeration unit 300 generates ozone water by aeration of the ozone gas supplied from the ozone generator 200 into water stored in the reaction tank 100. The aeration unit 300 is made of a porous member, etc., it is preferable to be configured to maximize the contact area with water by dispersing ozone gas in the form of a plurality of bubbles.

The drain pipe 400 communicates the reaction water tank 100 with the drinking water storage unit 700 and transfers the ozone water generated in the reaction water tank 100 to the drinking water storage unit 700. For this transfer, the drain pipe 400 may be provided with a pump P1 that provides a transfer power, and a valve V1 that blocks or releases the transfer.

The valve V1 is operated by receiving a signal from the water level gauge LG2 of the cold water tank 710, which will be described later, to block or release the transfer of ozone water through the drain pipe 400 to store water stored in the cold water tank 710. Keep the set amount.

The drain pipe 400 is formed with a drain port 410 into which the ozone water in the reaction tank 100 flows, and the drain port 410 is installed inside the guide member 500. In addition, the drain pipe 400 may be provided with a filter unit 420 for secondary purification of ozone water purged and sterilized by ozone gas and decomposing fine ozone gas that may exist in the ozone water. The filter unit 420 is preferably a filter using bamboo charcoal, but is not limited thereto, and any filter may be used as long as it can purify water.

The guide member 500 guides the discharge of ozone water located at the lower portion of the reaction water tank 100 to be introduced into and discharged from the drain pipe 400. To this end, the guide member 500 is provided in the reaction tank 100 in the shape of a cylinder surrounding the drain port 410.

The cylindrical member forming the guide member 500 has an upper end connected to the connection pipe 600, a lower end thereof open, and the drain hole 410 is located at an upper end thereof. Therefore, ozone water is introduced through the open lower end of the guide member 500 to be transported to the upper portion and discharged through the drain hole 410.

However, the shape of the guide member 500 is not limited thereto, and may be freely applied as long as it guides the ozone water under the reaction water tank 100 to the drain pipe 400.

That is, the guide member 500 blocks the ozone gas bubbles aerated in the aeration unit 300 from being discharged through the drain pipe 400, and includes little of the ozone gas bubbles in the reaction tank 100. It is to guide the ozone water located in the lower portion to be discharged through the drain pipe (400).

The drain pipe 400 is provided in the shape of a tube extending upward from the inner lower surface of the reaction tank 100, the guide member 500 was provided in a cylindrical shape surrounding the drain pipe 400, The shape is not limited to this.

For example, as shown in Figure 2, the drain pipe 400 is connected to the side of the reaction tank 100, the guide member 500 of the reaction tank 100 in parallel with the side It may be provided in a shape installed inside. In addition, the drain pipe 400 and the guide member 500 may be used without limitation as long as it is an overflow structure capable of discharging the ozone water under the reaction tank 100 through the drain pipe 400.

The connecting pipe 600 communicates the gas of the upper portion of the reaction tank 100 with the gas of the upper portion of the guide member 500 to maintain the same air pressure. Therefore, the drain pipe 400 is prevented from forming a siphon structure with the guide member 500, and the drain pipe 400 forms an overflow structure.

The connection pipe 600 is provided with an ozone removal unit 610 for removing ozone gas passing through the inside. The ozone removing unit 610 blocks the remaining ozone gas existing in the upper portion of the reaction tank 100 from being introduced into the guide member 500 so that the remaining ozone gas is discharged through the drain pipe 400. To prevent them. The ozone removal unit 610 may be freely provided as a filter commonly used for ozone removal, such as an activated carbon filter.

If the connection tube 600 is not provided, the ozone water level inside the reaction tank 100 may be lowered to the lower portion of the reaction tank 100 by the siphon principle, and then the aeration unit ( Ozone gas bubbles aerated in the 300 or the remaining ozone gas in the reaction tank 100 is discharged through the drain pipe (400). The connection pipe 600 prevents such a phenomenon so that only ozone water not containing ozone gas may be discharged through the drain pipe 400.

The drinking water storage unit 700 is a place where the ozone water discharged from the reaction water tank 100 through the drain pipe 400 is temporarily stored. The drinking water storage unit 700 is then to provide the ozone water according to the user's request.

As shown in FIG. 1, the drinking water storage unit 700 includes a cold water tank 710, a hot water tank 720, and a transfer pipe 730.

The cold water tank 710 is connected to the drain pipe 400 to store the ozone water discharged from the reaction water tank (100). The cold water tank 710 is provided with a cooler (not shown) to cool the stored ozone water. In addition, the cold water tank 710 is provided with an exhaust cooling water pipe 711 to provide the cooled ozone water according to the user's request.

The cold water tank 710 may include a level gauge LG2 that maintains the amount of ozone water stored therein by a predetermined amount. The water level gauge LG2 controls the inflow rate of ozone water through the drain pipe 400 by operating the valve V1 to maintain the level of ozone water inside the cold water tank 710 by a predetermined height.

The hot water tank 720 is in communication with the cold water tank 710 and the transfer pipe 730 is stored in the ozone water of the cold water tank 710 is introduced. The hot water tank 720 is provided with a heater (not shown) to heat the stored ozone water. In addition, the hot water tank 720 is provided with an exhaust water pipe 721 to provide the ozone water heated according to the user's request.

The transfer pipe 730 connects the cold water tank 710 and the hot water tank 720 to transfer the ozone water of the cold water tank 710 to the hot water tank 720. The transfer pipe 730 is provided with a valve (V3) is operated to introduce the ozone water of the cold water tank 710 into the hot water tank 720 by the amount of hot water provided to the user.

The outlet pipe 800 is in communication with the drain pipe 400 directly provides the ozone water stored in the reaction tank 100 according to the user's request. Ozone water discharged directly through the outlet pipe 800 is generally used as sterilization and washing water. Therefore, the user can receive cold and warm drinking water through the exhaust water pipe 711 and the exhaust water pipe 721, respectively, and can be supplied with sterilization and washing water separately through the discharge pipe 800. .

Hereinafter, the operation and use state of the micro-bound water purifier using ozone according to the first embodiment of the present invention will be described in detail.

First, purified water such as tap water or natural water is supplied into the reaction water tank 100 through the water supply pipe 110. Next, an air pump (AP) is operated to supply oxygen or air to the ozone generator 200. At this time, the supplied oxygen or air is supplied by removing moisture and dust by the dehumidifier / dehumidifier 210.

Thereafter, ozone gas is generated while the oxygen or air passes through the ozone generator 200, and the generated ozone gas is aerated by the aeration unit 300 in the purification target water stored in the reaction tank 100. Ozone water is produced.

Here, when the ozone generator 200 receives the ozone gas generation signal from the water level gauge LG1 installed in the reaction tank 100, the ozone generator 200 cleans the interior by introducing only oxygen or air without generating ozone for a predetermined time. Likewise, when the ozone gas generation stop signal is received, only the oxygen or air is introduced for a certain time to clean the inside even after the ozone generation is blocked.

In addition, the remaining ozone gas dissolved in the purification target water in the ozone gas aerated by the aeration unit 300 is decomposed into anions by the anion generator 121, and the reaction tank (eg, through the exhaust pipe 120). 100) It is discharged to the outside.

Next, the ozone water generated in the reaction tank 100 is selectively discharged by the guide member 500 to only the drain port 410 does not include the ozone gas bubbles located in the lower portion of the reaction tank (100). . The discharged ozone water is transferred to and stored in the cold water tank 710 along the drain pipe 400.

Thereafter, the ozone water stored in the cold water tank 710 is cooled by a cooler (not shown), and supplied to the cold drinking water through the exhaust cooling water pipe 711 according to a user's request. In addition, ozone water stored in the cold water tank 710 is transferred to the hot water tank 720 through the transfer pipe 730 and stored.

Next, the ozone water stored in the hot water tank 720 is heated by a heater (not shown), and is supplied as hot drinking water through the exhaust water pipe 721 according to a user's request. The valve V3 provided in the transfer pipe 730 controls the ozone water stored in the cold water tank 710 to be transferred to the hot water tank 720 by the amount of ozone water supplied to the user from the hot water tank 720. .

On the other hand, ozone water inside the reaction tank 100 may be supplied directly to the washing water through the water discharge pipe 800 according to the user's request.

Hereinafter, with reference to Figure 3 will be described a micro-binding water purifier using the ozone according to a second embodiment of the present invention. The micro-combined water purifier using ozone according to the second embodiment of the present invention is similar to the first embodiment described above except for the positions of the drain pipe 400 'and the outlet pipe 800'. . Therefore, in the second embodiment of the present invention will be described in detail with respect to the position of the drain pipe 400 'and the water outlet pipe 800', the role and other components will be omitted.

The drain pipe 400 ′ is provided under the reaction water tank 100 ′ and directly transfers ozone water under the reaction water tank 100 ′ to the drinking water storage unit 700 ′. When the drain pipe 400 'is provided in this way, the ozone water containing fine ozone gas bubbles generated in the aeration part 300' is not subjected to the blocking process by the guide member 500 '. May be emitted through

However, since the filter pipe 420 'is provided in the drain pipe 400' and undergoes secondary purification, sterilization, and micro ozone gas decomposition processes, ozone water stored in the drinking water storage unit 700 'is used as drinking water. There is no problem.

The outlet pipe 800 ′ is provided in the shape of a tube extending upward from an inner bottom surface of the reaction tank 100 ′, and the guide member 500 ′ is an outlet 810 formed in the outlet pipe 800 ′. ) Is provided in a cylindrical shape in the form of wrapping.

That is, the water discharge pipe 800 'and the guide member 500' are provided in a shape similar to the drain pipe 400 and the guide member 500 in the first embodiment, and the drain pipe 400 ' Is provided separately on one side of the reaction tank (100 ').

Hereinafter, the operation and use state of the micro-bound water purifier using the ozone according to the second embodiment of the present invention will be described in detail. Operation and use state of the second embodiment of the present invention is compared with the operation and use state of the first embodiment described above, the ozone water generated in the reaction tank (100 ') the drain pipe 400' and the water discharge pipe ( It is similar except for the operation through 800 '). Therefore, in the second embodiment of the present invention will be described in detail with respect to the operation of the ozone water generated in the reaction tank (100 ') discharged through the drain pipe 400' and the water discharge pipe (800 '), The description of the operation of other components is omitted.

The ozone water generated inside the reaction tank 100 ′ is selectively contained in the outlet port 810 ′ only by not including ozone gas bubbles located below the reaction tank 100 ′ by the guide member 500 ′. Discharged. The discharged ozone water is supplied to the washing water according to the user's request through the discharge pipe (800 ').

On the other hand, ozone water generated in the reaction tank (100 ') is transferred to the cold water tank (710') along the drain pipe (400 ') and stored. Thereafter, the operations of the cold water tank 710 'and the hot water tank 720' are similar to those of the first embodiment described above.

As described above, according to the micro-combined water purifier using ozone of the present invention, since the sterilization and purification of the purified water by ozone gas aeration method eliminates the trouble of periodically replacing the filter and reduces the maintenance cost. can do.

In addition, by using the overflow structure provided with the guide member, it is possible to supply sterilized and purified drinking water and washing water without containing ozone gas. And, the drinking water can be supplied in the form of cold and hot water, respectively, and the washing water can be supplied separately from the drinking water.

In addition, the water molecules of the drinking water supplied through sterilization and purification using ozone gas aeration method form fine clusters (Nano clusters), which can supply nano clustered water which is rapidly absorbed by the human body. have.

In addition, by discharging the negative ions generated by decomposition of the residual ozone gas inside the reaction tank, the air can also be purified.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and variations belong to the appended claims. will be.

Claims (8)

A reaction tank configured to store water introduced through the water supply pipe and have an exhaust pipe configured to discharge the gas from the outside to the outside; An ozone generating unit generating ozone gas and supplying it into the reaction tank; An aeration unit for generating ozone water by aeration of the ozone gas supplied from the ozone generator in water stored in the reaction tank; A drain pipe through which ozone water generated in the reaction tank is discharged; A guide member provided in the reaction tank so as to surround a drain hole formed in the drain pipe and guiding the ozone water under the reaction tank to be discharged to the drain pipe; A connection pipe connected to an upper portion of the guide member so as to communicate with the gas inside the reaction tank, and having an ozone removal unit for removing ozone gas; And Drinking water storage unit for storing ozone water discharged to the drain pipe; Micro-bound water purifier using ozone, characterized in that it comprises a. The method of claim 1, A water discharge pipe communicating with the drain pipe and discharging ozone water stored in the reaction tank to the outside; Micro-bound water purifier using the ozone, characterized in that it further comprises. The method of claim 1, The exhaust pipe, An anion generator for generating anions by decomposing ozone gas passing through the inside; Micro-bound water purifier using the ozone, characterized in that it comprises a. The method according to any one of claims 1 to 3, The drain pipe, A filter unit for purifying ozone water passing through the inside and decomposing ozone gas; Micro-bound water purifier using the ozone, characterized in that it comprises a. The method according to any one of claims 1 to 3, The drinking water storage unit, A cold water tank having ozone water discharged to the drain pipe and having a cooler for cooling the stored ozone water; And A hot water tank communicating with the cold water tank and a transfer pipe, storing ozone water introduced through the transfer pipe, and having a heater for heating the stored ozone water; Micro-bound water purifier using the ozone, characterized in that it comprises a. The method according to any one of claims 1 to 3, The ozone generator, A dehumidifier / dehumidifier for removing moisture and dust contained in oxygen or air introduced into the interior; Micro-bound water purifier using the ozone, characterized in that it comprises a. A reaction tank configured to store water introduced through the water supply pipe and have an exhaust pipe configured to discharge the gas from the outside to the outside; An ozone generating unit generating ozone gas and supplying it into the reaction tank; An aeration unit for generating ozone water by aeration of the ozone gas supplied from the ozone generator in water stored in the reaction tank; An outlet pipe for discharging ozone water generated in the reaction tank to the outside; A guide member provided in the reaction water tank so as to surround the water outlet formed in the water discharge pipe, and configured to guide ozone water under the reaction water tank to the water discharge pipe; A connection pipe connected to an upper portion of the guide member so as to communicate with the gas inside the reaction tank, and having an ozone removal unit for removing ozone gas; A drain pipe provided in the lower portion of the reaction water tank to discharge the ozone water generated in the reaction water tank; And Drinking water storage unit for storing ozone water discharged to the drain pipe; Micro-bound water purifier using ozone, characterized in that it comprises a. The method of claim 7, wherein The drain pipe, A filter unit for purifying ozone water passing through the inside and decomposing ozone gas; Micro-bound water purifier using the ozone, characterized in that it comprises a.

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