KR101586312B1 - Water ionizer - Google Patents

Abstract

The present invention relates to an ionizer, and more particularly, to an electrolyzer that generates acidic ionized water and alkaline ionized water by electrolyzing water, extracts acidic ionized water or alkaline ionized water produced in the electrolytic bath, An ionized water extracting pipe 141 for branching to an alkaline ionized water extracting pipe 144 connected to the acidic ionized water extracting pipe 142 and the alkaline ionized water extracting hole 144a to which the sphere 142a is connected, A control part for controlling the operation of the electrolytic bath 140 and a control part for one end being detachably connected to the ion water discharge pipe 146 and the other end being connected to the acidic ionized water extraction port 146. [ And a washing water supply pipe (150) detachably connected to the alkaline ionized water outlet (142a) or the alkaline ionized water extracting hole (144a).

According to the present invention, the scale accumulated in the acidic ionized water extraction port and the alkaline ionized water extraction port can be removed by connecting the washing water supply pipe, allowing the alkaline ionized water to flow through the acidic ionized water extraction port and flowing the acidic ionized water through the alkaline ionized water extraction port .

Ionized water discharge pipe, ionized water extraction pipe, washing water supply pipe, electrolytic cell

Description

{WATER IONIZER}

The present invention relates to an ionizer.

In general, the preferred drinking water is colorless and odorless, and it is ideal that water contains weakly alkaline Ca ^{2 +} , Na ^+, etc. in the absence of various heavy metals, harmful substances and bacteria, and contains an appropriate amount of minerals have.

To this end, an ionizer having an electrolytic cell for electrolyzing raw water such as tap water to generate alkaline ionized water containing a mineral of a cation and acidic ionized water as a non-drinking water for separating and discharging the ionized water has been widely used.

Generally, the ionizer produces alkaline ionized water and acidic ionized water as the raw water is electrolyzed by applying a DC voltage to the electrodes of the positive electrode and the negative electrode.

Alkali ionized water is mainly used for the purpose of drinking water to improve the health and health of modern people who eat meats centered on meat, and acidic ionized water is used for washing of human skin.

However, in the conventional ionizer, scale of alkaline ionized water extraction port for extracting alkaline ionized water and acidic ionized water extraction port for extracting acidic ionized water accumulates due to alkaline or acidic ionized water, which is unsuitable for hygienic purposes. It is difficult to clean.

An object of the present invention is to provide an ionizer capable of easily removing a scale accumulated in an acidic ionized water extraction port and an alkaline ionized water extraction port to maintain a hygienic state.

According to a first aspect of the present invention, there is provided an electrolytic cell comprising: an electrolytic bath for electrolyzing water to produce acidic ionized water and alkaline ionized water; an acidic ionized water or alkaline ionized water produced in the electrolytic cell, An ionized water extracting pipe branching to an alkaline ionized water extracting pipe connected to the acidic ionized water extracting tube and the alkaline ionized water extracting tube connected to the ionized water extracting tube, an ionized water discharge tube for discharging ionized water having a property different from that of the ionized water extracted through the ionized water extracting tube, And a washing water supply tube having one end detachably connected to the ionized water discharge pipe and the other end detachably connected to the acidic ionized water extraction port or the alkaline ionized water extraction port.

According to the second aspect of the present invention, a washing water discharge pipe is further connected to a point where the acidic ionized water extraction tube and the acidic ionized water extraction port are connected, and the fluid between the acidic ionized water extraction pipe, the acidic ionized water extraction port, An acidic ionized water channel switching valve is provided for controlling the communication between the alkaline ionized water extracting tube and the alkaline ionized water extracting tube, and the washing water discharge tube is further connected to a point where the alkaline ionized water extracting tube and the alkaline ionized water extracting tube are connected, And an alkaline ionized water flow path switching valve for controlling fluid communication between the washing water discharge lines.

According to the third aspect of the present invention, when one end of the washing water supply pipe is connected to the ionized water discharge pipe and the other end is connected to the acidic ionized water extraction port, the control unit controls the alkaline ionized water to be discharged to the ionized water discharge pipe.

According to a fourth aspect of the present invention, the controller switches the acidic ionized water flow path switching valve so that the acidic ionized water extracting port and the washing water discharge pipe are in fluid communication with each other.

According to a fifth aspect of the present invention, the control unit switches the alkaline ion-water flow path switching valve so that the alkaline ionized water extraction pipe and the washing water discharge pipe are in fluid communication with each other.

According to a sixth aspect of the present invention, the controller switches the alkaline ion-water flow path switching valve so that the alkaline ionized water extraction tube and the alkaline ionized water extraction port are in fluid communication with each other.

According to a seventh aspect of the present invention, when one end of the washing water supply pipe is connected to the ionized water discharge pipe and the other end is connected to the alkaline ionized water extraction port, the control unit controls the acidic ionized water to be discharged to the ionized water discharge pipe.

According to an eighth aspect of the present invention, the control unit switches the alkaline ion-water flow path switching valve so that the alkaline ionized water extracting port and the washing water discharging pipe are in fluid communication with each other.

According to a ninth aspect of the present invention, the controller switches the acidic ionized water flow path switching valve so that the acidic ionized water extraction tube and the washing water discharge tube are in fluid communication with each other.

According to a tenth aspect of the present invention, the controller switches the acidic ionized water flow path switching valve so that the acidic ionized water extraction tube and the acidic ionized water extraction port are in fluid communication with each other.

According to the present invention, the scale accumulated in the acidic ionized water extraction port and the alkaline ionized water extraction port can be removed by connecting the washing water supply pipe, allowing the alkaline ionized water to flow through the acidic ionized water extraction port and flowing the acidic ionized water through the alkaline ionized water extraction port .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a configuration of an ionizer 100 according to an embodiment of the present invention.

1, the ionizer 100 includes a filter unit 120 for purifying raw water to be supplied, an electrolytic bath 140 for electrolyzing water purified in the filter unit 120 to produce acidic ionized water and alkaline ionized water, ).

The filter unit 120 may be a sediment filter, a free carbon filter, an ultrafiltration filter, a nanofilter, or a post-carbon filter.

A raw water pipe 122 is connected to the filter unit 120 and a raw water valve 123 is provided in the raw water pipe 122 to control the supply of raw water.

A purified water pipe 124 for connecting the filter unit 120 and the electrolytic bath 140 in fluid communication is provided between the filter unit 120 and the electrolytic bath 140. The purified water pipe 124 is provided with a flow rate sensor 125 to measure the flow rate discharged from the filter unit 120. The purified water pipe 124 branches to a purified water extracting pipe 126 for extracting the purified water to the outside and a purified water supply pipe 128 for supplying the purified water to the electrolytic bath 140. The branch point may be provided with a water passage switching valve 127 so that the purified water pipe 124 can be controlled to be in fluid communication with the purified water extracting pipe 126 or the purified water pipe 128.

The electrolytic bath 140 includes a positive electrode and a negative electrode for electrolyzing water supplied from the purified water supply pipe 128. When the positive and negative electrodes are powered, positive ions such as calcium and magnesium in the water adhere to the negative electrode, and anions such as chlorine, sulfuric acid, and sulfur adhere to the positive electrode. At the same time, the positive electrode receives hydroxide ion (OH ^- ) on the negative electrode side and becomes oxygen molecule (O ₂ ) and blows into the air, so that the hydrogen ion (H ⁺ ) increases and the water becomes acidic. On the negative electrode, (H ⁺ ) and becomes a hydrogen molecule (H ₂ ) and blows into the air, so that the hydroxide ion (OH ^- ) increases and the water becomes alkaline. Thus, the water supplied to the electrolytic bath 140 is electrolyzed and divided into acidic ionized water and alkaline ionized water.

The electrolytic bath 140 is provided with an ionized water extraction pipe 141 and an ionized water discharge pipe 146. The ionized water extraction pipe 141 branches to the acidic ionized water extraction pipe 142 and the alkaline ionized water extraction pipe 144. The acidic ionized water extraction tube 142 discharges the acidic ionized water generated in the electrolytic bath 140 and the alkaline ionized water extraction tube 144 discharges the alkaline ionized water generated in the electrolytic bath 140. The ionized water discharge pipe 146 discharges acidic ionized water or alkaline ionized water. For example, when extracting the acidic ionized water from the acidic ionized water extraction tube 142, the alkaline ionized water is discharged through the ionized water discharge pipe 146. When the alkaline ionized water is extracted from the alkaline ionized water extraction tube 144, Acidic ionized water is discharged.

The acidic ionized water extraction pipe 142 is installed in fluid communication with the acidic ionized water extraction port 142a and the wash water discharge pipe 148. The acidic ionized water passage switching valve 143 is provided at a point where the acidic ionized water extraction tube 142, the acidic ionized water extraction port 142a, and the washing water discharge tube 148 are branched. The acidic ionized water flow path switching valve 143 can be controlled to communicate any two of the acidic ionized water extraction tube 142, the acidic ionized water extraction port 142a, and the wash water discharge tube 148 and to close the remaining one tube .

The alkaline ionized water extraction pipe 144 is provided with an alkaline ionized water extraction port 144a and a washing water discharge pipe 148 in fluid communication with each other. An alkaline ionized water flow path switching valve 145 is provided at a point where the alkaline ionized water extraction tube 144, the alkaline ionized water extraction port 144a and the washing water discharge tube 148 branch off. The alkaline ionized water flow path switching valve 145 can be controlled to communicate any two of the alkaline ionized water extraction tube 144, the alkaline ionized water extraction port 144a, and the wash water discharge tube 148 and to close the remaining one tube .

The washing water supply pipe 150 is connected at one end to the ionized water discharge pipe 146 and at the other end to the acidic ionized water outlet 142a or the alkaline ionized water outlet 144a Lt; / RTI >

On the other hand, the raw water valve 123, the purified water passage switching valve 127, the acidic ionized water passage switching valve 143, and the alkaline ionized water passage switching valve 145 are connected to a controller (not shown) . An electrolytic bath 140 is also connected to the control unit so that the operation of the electrolytic bath 140 can be controlled. The electrolytic bath 140 is operated to extract acidic ionized water from the ionized water extraction pipe 141 and discharge the alkaline ionized water to the ionized water discharge pipe 146. The alkaline ionized water is extracted into the ionized water extraction pipe 141, To discharge the acidic ionized water. The acidic ionized water and the alkaline ionized water are switched and discharged by reversing the electrodes applied to the positive electrode and the negative electrode, or by changing the internal flow path.

Hereinafter, an operation method of the ionizer 100 constructed as above will be described.

FIG. 3 is a view showing the flow path of water during the extraction of acidic ionized water, FIG. 4 is a view showing the flow path of water during the extraction of alkaline ionized water, FIG. FIG. 6 is a view showing the flow path of water when washing the alkaline ionized water extraction port. FIG. For convenience, water and alkaline ionized water are indicated by black arrows, and acidic ionized water is indicated by white arrows.

The flow of water during the extraction of purified water will be described with reference to FIG. The raw water valve 123 is valve-switched to open the raw water pipe 122 and the purified water flow path switching valve 127 is valve-switched so that the purified water pipe 124 and the purified water extracting pipe 126 are in fluid communication.

2, the raw water flows into the filter unit 120 through the raw water pipe 122, and the raw water flowing into the filter unit 120 is purified and discharged through the purified water pipe 124. The purified water is discharged to the outside through the purified water pipe 124 and the purified water pipe 126 in fluid communication with the purified water pipe 124. Accordingly, the user can receive and drink the purified water extracted from the purified water extracting pipe 126.

The flow of water in the acidic ionized water extraction will be described with reference to FIG. The raw water valve 123 is valve-switched to open the raw water pipe 122 and the purified water passage switching valve 127 is valve-switched so that the purified water pipe 124 and the purified water pipe 128 are in fluid communication. The acidic ionized water flow path switching valve 143 is valve-switched so that the acidic ionized water extraction tube 142 and the acidic ionized water outlet 142a are in fluid communication with each other and the alkaline ionized water flow path switching valve 145 is connected to the alkaline ionized water extraction tube 144, Is closed. The operation of the electrolytic bath 140 is controlled so that acidic ionized water is extracted into the ionized water extraction pipe 141 and alkaline ionized water is discharged into the ionized water discharge pipe 146.

3, the raw water flows into the filter unit 120 through the raw water pipe 122, and the raw water flowing into the filter unit 120 is purified and discharged through the purified water pipe 124. The purified water is supplied to the electrolytic bath 140 through the purified water pipe 124 and the purified water pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic bath 140 to become acidic ionized water and alkaline ionized water. The acidic ionized water is extracted to the outside through the ionized water extraction pipe 141, the acidic ionized water extraction pipe 142, and the acidic ionized water extraction port 142a. Accordingly, the user can receive the acidic ionized water extracted from the acidic ionized water extraction port 142a and use it for cleaning. Meanwhile, the alkaline ionized water generated in the electrolytic bath 140 is discharged to the outside through the ionized water discharge pipe 146.

Referring to Fig. 4, the flow path of water in the alkaline ionized water extraction will be described. The raw water valve 123 is valve-switched to open the raw water pipe 122 and the purified water flow path switching valve 127 is valve-switched so that the purified water pipe 124 and the purified water pipe 128 are in fluid communication with each other. The acidic ionized water flow path switching valve 143 is connected to the acidic ionized water extraction tube 142 and the alkaline ionized water flow path switching valve 143, Is closed. The operation of the electrolytic bath 140 is controlled so that alkaline ionized water is extracted into the ionized water extraction pipe 141 and acidic ionized water is discharged into the ionized water discharge pipe 146.

4, the raw water flows into the filter unit 120 through the raw water pipe 122, and the raw water flowing into the filter unit 120 is purified and discharged through the purified water pipe 124. The purified water flows into the electrolytic bath 140 through the purified water pipe 124 and the purified water pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic bath 140 to become acidic ionized water and alkaline ionized water. The alkaline ionized water is extracted to the outside through the ionized water extraction pipe 141, the alkaline ionized water extraction pipe 144, and the alkaline ionized water extraction port 144a. Therefore, the user can receive and drink the alkaline ionized water extracted from the alkaline ionized water extraction port 144a. Meanwhile, the acidic ionized water generated in the electrolytic bath 140 is discharged to the outside through the ionized water discharge pipe 146.

Referring to FIG. 5, the flow path of the water in the acidic ionized water extraction port will be described. The raw water valve 123 is valve-switched to open the raw water pipe 122 and the purified water flow path switching valve 127 is valve-switched so that the purified water pipe 124 and the purified water pipe 128 are in fluid communication. The acidic ionized water flow path switching valve 143 is valve-switched so that the acidic ionized water outlet 142a and the washing water discharge pipe 148 are in fluid communication with each other. The alkaline ionized water flow path switching valve 145 is connected to the alkaline ionized water extracting pipe 144, The discharge pipe 148 is valve-switched so as to be in fluid communication. One end of the washing water supply pipe 150 is connected to the ionized water discharge pipe 146 and the other end is connected to the acidic ionized water outlet 142a. The operation of the electrolytic bath 140 is controlled so that acidic ionized water is extracted into the ionized water extraction pipe 141 and alkaline ionized water is discharged into the ionized water discharge pipe 146.

5, the raw water flows into the filter unit 120 through the raw water pipe 122, and the raw water flowing into the filter unit 120 is purified and discharged through the purified water pipe 124. The purified water flows into the electrolytic bath 140 through the purified water pipe 124 and the purified water pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic bath 140 to become acidic ionized water and alkaline ionized water. The alkaline ionized water is supplied to the acidic ionized water extraction port 142a through the ionized water discharge pipe 146 and the wash water supply pipe 150. The alkaline ionized water flows through the acidic ionized water outlet 142a to clean the acidic ionized water outlet 142a. The alkaline ionized water that has passed through the acidic ionized water extraction port 142a is discharged to the outside through the cleaned water discharge pipe 148 in fluid communication with the acidic ionized water extraction port 142a. The acidic ionized water is discharged to the outside through the ionized water extracting pipe 141, the alkaline ionized water extracting pipe 144 and the washing water discharging pipe 148. When the acidic ionized water flows through the alkaline ionized water extracting pipe 144, 144).

As an alternative, the alkaline ion-water flow path switching valve 145 may switch the valve so that the alkaline ion-ion-extracting tube 144 and the alkaline ionized water outlet 144a are in fluid communication with each other. In this case, since the acidic ionized water is discharged through the alkaline ionized water extraction tube 144 and the alkaline ionized water extraction port 144a, not only the alkaline ionized water extraction tube 144 but also the alkaline ionized water extraction port 144a is also cleaned with acidic ionized water .

Referring to Fig. 6, the flow path of the water during the washing of the alkaline ionized water extraction port will be described. The raw water valve 123 is valve-switched to open the raw water pipe 122 and the purified water flow path switching valve 127 is valve-switched so that the purified water pipe 124 and the purified water pipe 128 are in fluid communication with each other. The acidic ionized water flow path switching valve 143 is valve-switched so that the acidic ionized water extraction tube 142 and the washing water discharge tube 148 are in fluid communication with each other, and the alkaline ionized water flow path switching valve 145 is connected to the alkaline ionized water extraction port 144a, The discharge pipe 148 is valve-switched so as to be in fluid communication. One end of the washing water supply pipe 150 is connected to the ionized water discharge pipe 146 and the other end is connected to the alkaline ionized water outlet 144a. The operation of the electrolytic bath 140 is controlled so that alkaline ionized water is extracted into the ionized water extraction pipe 141 and acidic ionized water is discharged into the ionized water discharge pipe 146.

6, the raw water flows into the filter unit 120 through the raw water pipe 122, and the raw water flowing into the filter unit 120 is purified and discharged through the purified water pipe 124. The purified water flows into the electrolytic bath 140 through the purified water pipe 124 and the purified water pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic bath 140 to become acidic ionized water and alkaline ionized water. The acidic ionized water is supplied to the alkaline ionized water extraction port 144a through the ionized water discharge pipe 146 and the wash water supply pipe 150. [ The acidic ionized water rinses the alkaline ionized water extraction port 144a while flowing through the alkaline ionized water extraction port 144a. The acidic ionized water having passed through the alkaline ionized water outlet 144a is discharged to the outside through the washing water discharge tube 148 in fluid communication with the alkaline ionized water outlet 144a. The alkaline ionized water is discharged to the outside through the ionized water extracting pipe 141, the acidic ionized water extracting pipe 142 and the washing water discharging pipe 148. The alkaline ionized water flows through the acidic ionized water extracting pipe 142 142).

As an alternative, the acidic ionized water flow path switching valve 143 may switch the valve so that the acidic ionized water extraction tube 142 and the acidic ionized water outlet 142a are in fluid communication with each other. In this case, since the alkaline ionized water is discharged through the acidic ionized water extraction tube 142 and the acidic ionized water extraction port 142a, not only the acidic ionized water extraction tube 142 but also the acidic ionized water extraction port 142a is also cleaned with the alkaline ionized water .

As described above, according to the present invention, the washing water supply pipe 150 is connected to allow the alkaline ionized water to flow through the acidic ionized water outlet 142a and the acidic ionized water to flow through the alkaline ionized water outlet 144a, 142a and the alkaline ionized water extraction port 144a can be removed.

At the same time, scales can be removed by flowing ionized water having different polarities also in the acidic ionized water extraction tube 142 and the alkaline ionized water extraction tube 144.

1 is a block diagram showing a configuration of an ionizer 100 according to an embodiment of the present invention.

2 is a view showing a flow path of water when extracting purified water from the ionizer 100. Fig.

3 is a view showing a flow path of water in the acidic ionized water extraction in the ionizer 100. Fig.

4 shows a flow path of water when alkaline ionized water is extracted in the ionizer 100. FIG.

FIG. 5 is a view showing a flow path of water during washing of the acidic ionized water in the ionizer 100. FIG.

6 is a view showing a flow path of water when washing the alkaline ionized water extraction port in the ionizer 100. FIG.

Description of the Related Art [0002]

100 ionizer 120 filter unit

122 won water tube 123 raw water valve

124 Water tube 125 Flow sensor

126 Water extractor tube 127 Water flow switch valve

128 water supply pipe 140 electrolyzer

142 Acidic ionized water extraction tube 142a Acidic ionized water extraction port

143 Acidic ion water flow switching valve

144 Alkali ionized water extraction tube 144a Alkali ionized water extraction port

145 Alkaline ion water flow path switching valve

146 Ionic water discharge pipe 148 Wash water discharge pipe

150 water supply pipe

Claims (10)

An electrolytic bath 140 for electrolyzing water to produce acidic ionized water and alkaline ionized water, An alkaline ionized water extracting pipe 144 connected to the acidic ionized water extracting pipe 142 and the alkaline ionized water extracting pipe 144 connected to the acidic ionized water extracting pipe 142a to extract the acidic ionized water or alkaline ionized water generated in the electrolytic bath 140, An ionized water extracting pipe 141, An ionized water discharge pipe 146 for discharging ionized water of a nature different from the ionized water extracted through the ionized water extraction pipe 141, A control unit for controlling the operation of the electrolytic bath 140, and And a washing water supply pipe (150) detachably connected to the ionized water discharge pipe (146) at one end and detachably connected to the acidic ionized water outlet (142a) or the alkaline ionized water outlet (144a) at the other end. The method according to claim 1, A washing water discharge pipe 148 is further connected to a point where the acidic ionized water extraction pipe 142 and the acidic ionized water extraction port 142a are connected to each other and the acidic ionized water extraction pipe 142, An acidic ionized water passage switching valve 143 for controlling the fluid communication between the washing water discharge pipes 148 is provided, The washing water discharge pipe 148 is further connected to a point where the alkaline ionized water extraction pipe 144 and the alkaline ionized water extraction port 144a are connected to each other and the alkaline ionized water extraction pipe 144, And an alkaline ionized water flow path switching valve (145) for controlling fluid communication between the washing water discharge pipe (148). The method of claim 2, When one end of the washing water supply pipe 150 is connected to the ionized water discharge pipe 146 and the other end is connected to the acidic ionized water outlet 142a, the control unit controls the alkaline ionized water to be discharged to the ionized water discharge pipe 146 Features an ionizer. The method of claim 3, Wherein the controller switches the acidic ionized water flow path switching valve (143) to valve so that the acidic ionized water outlet (142a) and the washing water discharge pipe (148) are in fluid communication with each other. The method according to claim 3 or 4, Wherein the controller switches the alkaline ionized water flow path switching valve (145) to valve so that the alkaline ionized water extraction tube (144) and the washing water discharge tube (148) are in fluid communication with each other. The method according to claim 3 or 4, Wherein the controller switches the alkaline ionized water flow path switching valve (145) to valve so that the alkaline ionized water extraction tube (144) and the alkaline ionized water outlet (144a) are in fluid communication with each other. The method of claim 2, When one end of the washing water supply pipe 150 is connected to the ion water discharge pipe 146 and the other end is connected to the alkaline ionized water extraction port 144a, the control unit controls the acidic ionized water to be discharged to the ionized water discharge pipe 146 Features an ionizer. The method of claim 7, Wherein the controller switches the alkaline ionized water flow path switching valve (145) to valve so that the alkaline ionized water extraction port (144a) and the washing water discharge pipe (148) are in fluid communication with each other. The method according to claim 7 or 8, Wherein the controller switches the acidic ionized water flow path switching valve (143) to valve so that the acidic ionized water extraction tube (142) and the washing water discharge tube (148) are in fluid communication with each other. The method according to claim 7 or 8, Wherein the controller switches the acidic ionized water flow path switching valve (143) to valve so that the acidic ionized water extraction tube (142) and the acidic ionized water outlet (142a) are in fluid communication with each other.

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