KR20100138396A - Water ionizer - Google Patents

Abstract

PURPOSE: A water ionizer is provided to maintain a sanitary condition by eliminating scales which are accumulated at an acidic ionized water extracting opening and an alkaline ionized water extracting opening. CONSTITUTION: An ionic water extracting pipe separates extracted acid ionic water and extracted alkaline ionic water into an acid ionic extracting pipe and an alkaline ionic water extracting pipe(144). An ionic water discharging pipe(146) discharges ionic water with different property, compared to the extracted ionic water. One end of a cleaning water supplying pipe(150) is in connection with the ionic water discharging pipe. Another end of the cleaning water supplying pipe is in connection with an acidic ionic water extracting opening(142a) or an alkaline ionic water extracting opening(144a).

Description

Water ionizer {WATER IONIZER}

The present invention relates to an ionizer.

Generally, preferred water was colorless, not the various heavy metals and toxic substances in an odorless state and bacteria as the minerals suitable amount of inclusions, alkalescent It water Ca ^{2 +,} Na ^+, such as is present is known to be ideal for have.

To this end, ionized water groups including electrolyzers that electrolyze raw water such as tap water to generate and separate alkaline ionized water containing inorganic cations and acidic ionized water as non-drinking water are widely used.

In general, ionizers generate alkaline ionized water and acidic ionized water by electrolyzing raw water by applying a DC voltage to the electrodes of the positive electrode and the negative electrode.

Alkaline ionized water is mainly used for the purpose of drinking water to improve health by improving the acidic constitution of a modern man who is meat-based, and acidic ionized water is used for washing human skin.

However, in the conventional ionizer, a scale of alkali or acidic ionized water is accumulated in the alkaline ionized water extraction outlet from which the alkaline ionized water is extracted and the acidic ionized water extraction port from which the acidic ionized water is extracted. Its diameter is so small that it is difficult to wash.

The present invention is designed to solve the problems of the prior art, and an object of the present invention is to provide an ionizer which can maintain hygiene by simply removing the scale accumulated in the acidic ionized water extraction port and the alkaline ionized water extraction port.

According to a first aspect of the present invention for achieving the above object, an electrolytic cell for generating acidic ionized water and alkaline ionized water by electrolyzing water, extracting acidic ionized water or alkaline ionized water generated in the electrolytic cell, acidic ionized water extraction port An ionized water extraction tube branched to an acidic ionized water extraction tube connected to the alkaline ionized water extraction tube connected to the alkaline ionized water extraction port, an ionized water discharge tube discharging the ionized water different from the ionized water extracted through the ionized water extraction tube, and controlling the operation of the electrolytic cell And a washing water supply pipe 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 a 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 tube, the acidic ionized water extraction port, and the washing water discharge pipe. An acidic ionized water flow channel switching valve for controlling communication is provided, and the washing water discharge pipe is further connected to a point where the alkaline ionized water extraction tube and the alkaline ionized water extraction port are connected, and the alkaline ionized water extraction tube, the alkaline ionized water extraction port, and the An alkaline ionized water flow channel switching valve for controlling fluid communication between the washing water discharge pipes is provided.

According to a 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 controller 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 channel switching valve so that the acidic ionized water extraction port and the washing water discharge pipe are in fluid communication.

According to a fifth aspect of the present invention, the control unit switches the alkaline ionized water flow channel switching valve so that the alkaline ionized water extraction pipe and the washing water discharge pipe communicate with each other.

According to a sixth aspect of the present invention, the controller switches the alkaline ionized water flow channel switching valve so that the alkaline ionized water extraction pipe and the alkaline ionized water extraction port are in fluid communication.

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 controller 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 ionized water flow channel switching valve so that the alkaline ionized water extraction port and the wash water discharge pipe communicate with each other.

According to a ninth aspect of the invention, the control unit switches the acidic ionized water flow channel switching valve so that the acidic ionized water extraction pipe and the washing water discharge pipe are in fluid communication.

According to a tenth aspect of the present invention, the control unit switches the acidic ionized water flow channel switching valve so that the acidic ionized water extraction pipe and the acidic ionized water extraction port are in fluid communication.

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 to allow the alkaline ionized water to flow through the acidic ionized water extraction port and the acidic ionized water to 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 the configuration of the ionizer 100 according to an embodiment of the present invention.

As shown in FIG. 1, the ionizer 100 includes a filter unit 120 for purifying the raw water to be supplied, and an electrolytic cell 140 for generating acidic ionized water and alkaline ionized water by electrolyzing the purified water from the filter unit 120. )

The filter unit 120 may include a sediment filter, a precarbon filter, an ultrafiltration filter or a nano filter, and a post carbon filter.

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

Between the filter unit 120 and the electrolytic cell 140, a water purification pipe 124 is installed to connect the filter unit 120 and the electrolytic cell 140 in fluid communication. A water flow sensor 125 is installed in the water purification pipe 124 to measure the flow rate discharged from the filter unit 120. The purified water pipe 124 branches into the purified water extraction pipe 126 for extracting purified water to the outside and the purified water supply pipe 128 for supplying purified water to the electrolytic cell 140. The purified water flow path switching valve 127 is provided at the branch point, and the purified water pipe 124 may be controlled to be in fluid communication with the purified water extraction pipe 126 or the purified water supply pipe 128.

The electrolyzer 140 has a positive electrode and a negative electrode embedded therein to electrolyze the water supplied from the purified water supply pipe 128. When power is applied to the positive electrode and the negative electrode, cations of mineral components such as calcium and magnesium in 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 in the negative electrode side of the hydroxide ion (OH ^-) to receive oxygen molecules (O ₂₎ in is therefore discard fly into the air the hydrogen ion (H ⁺⁾ to increase the water is acidified, the negative electrode in the hydrogen ions of the positive electrode side It receives (H ⁺ ) and becomes a hydrogen molecule (H ₂ ) and blows it into the air, so hydroxide ions (OH ⁻ ) are increased and water becomes alkaline. As such, the water supplied to the electrolytic cell 140 is electrolyzed into acidic ionized water and alkaline ionized water and divided.

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

In the acidic ionized water extraction tube 142, an acidic ionized water extraction port 142a and a washing water discharge pipe 148 are installed in fluid communication. An acidic ionized water flow channel switching valve 143 is provided at a branch point of the acidic ionized water extraction pipe 142, the acidic ionized water extraction port 142a, and the washing water discharge pipe 148. The acidic ionized water flow channel switching valve 143 may be controlled to communicate any two tubes of the acidic ionized water extraction pipe 142, the acidic ionized water extraction port 142a, and the wash water discharge pipe 148 and close the other pipe. .

In the alkaline ionized water extraction pipe 144, an alkaline ionized water extraction port 144a and a washing water discharge pipe 148 are installed in fluid communication. An alkaline ionized water flow channel switching valve 145 is provided at a branch point of the alkaline ionized water extraction pipe 144, the alkaline ionized water extraction port 144a, and the washing water discharge pipe 148. The alkaline ionized water flow channel switching valve 145 may be controlled to communicate any two tubes of the alkaline ionized water extraction pipe 144, the alkaline ionized water extraction port 144a, and the washing water discharge pipe 148 and close the other pipe. .

In addition, the washing water supply pipe 150 is provided, the washing water supply pipe 150 is one end is detachably connected to the ionized water discharge pipe 146 and the other end is removable to the acidic ionized water extraction port (142a) or alkaline ionized water extraction port (144a). Can be connected.

On the other hand, the raw water valve 123, the purified water flow path switching valve 127, the acidic ionized water flow path switching valve 143, and the alkaline ionized water flow path switching valve 145 are connected to a control unit (not shown) to control the opening or closing of the valve. Can be. The control unit may also be connected to the electrolytic cell 140 to control the operation of the electrolytic cell 140. That is, the electrolytic cell 140 is operated such that the acidic ionized water is extracted into the ionized water extraction tube 141 and the alkaline ionized water is discharged into the ionized water discharge tube 146, or the alkaline ionized water is extracted and the ionized water discharge tube 146 is extracted from the ionized water extraction tube 141. Can be operated to discharge acidic ionized water. The discharge of the acidic ionized water and the alkaline ionized water is discharged by reversing the electrodes applied to the positive electrode and the negative electrode or by changing the internal flow path.

Hereinafter, a method of operating the ionizer 100 configured as described above will be described.

Figure 2 shows the flow path of the water when purified water extraction, Figure 3 shows the flow path of the water when acidic ionized water extraction, Figure 4 shows the flow path of the water when alkaline ionized water extraction, Figure 5 shows the acidic ionized water extraction port washing 6 illustrates a flow path of water, and FIG. 6 illustrates a flow path of water when the alkaline ionized water extraction port is washed. For convenience, purified water and alkaline ionized water are indicated by black arrows, and acidic ionized water is indicated by white arrows.

Referring to Figure 2 will be described the flow path of water at the time of purified water extraction. The purified water extraction 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 extraction pipe 126 are in fluid communication.

As shown in FIG. 2, raw water is introduced into the filter unit 120 through the raw water pipe 122, and raw water introduced into the filter unit 120 is purified and then discharged through the water purification pipe 124. The purified water is discharged to the outside through the purified water pipe 124 and the purified water extraction pipe 126 in fluid communication with the purified water pipe 124. Therefore, the user can receive and drink the purified water extracted from the purified water extraction pipe 126.

Referring to Figure 3 will be described in the flow path of the water during acidic ionized water extraction. In the acidic ionized water extraction, 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 supply pipe 128 are in fluid communication. In addition, the acidic ionized water flow channel switching valve 143 is valve-switched so that the acidic ionized water extraction pipe 142 and the acidic ionized water extraction port 142a are in fluid communication, and the alkali ionized water flow channel switching valve 145 is an alkaline ionized water extraction pipe 144. The valve is switched to close it. On the other hand, the operation of the electrolytic cell 140 is controlled such that acidic ionized water is extracted from the ionized water extraction pipe 141 and alkaline ionized water is discharged from the ionized water discharge pipe 146.

As shown in FIG. 3, raw water is introduced into the filter unit 120 through the raw water pipe 122, and raw water introduced into the filter unit 120 is purified and then discharged through the water purification pipe 124. The purified water is supplied to the electrolytic cell 140 through the purified water pipe 124 and the purified water supply pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic cell 140 to acidic ionized water and alkaline ionized water. The acidic ionized water is extracted to the outside through the ionized water extraction tube 141, the acidic ionized water extraction tube 142, and the acidic ionized water extraction port 142a. Therefore, the user can receive the acidic ionized water extracted from the acidic ionized water extraction port 142a and use it for washing. On the other hand, the alkaline ionized water generated in the electrolytic cell 140 is discharged to the outside through the ionized water discharge pipe 146.

Referring to Figure 4 will be described the flow path of the water during the extraction of alkaline ionized water. When alkaline ionized water is extracted, 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 supply pipe 128 are in fluid communication. In addition, the alkaline ionized water flow channel switching valve 145 is valve-switched so that the alkaline ionized water extraction pipe 144 and the alkaline ionized water extraction port 144a are in fluid communication, and the acidic ionized water flow channel switching valve 143 is the acidic ionized water extraction pipe 142. The valve is switched to close it. On the other hand, the operation of the electrolytic cell 140 is controlled such that alkaline ionized water is extracted to the ionized water extraction tube 141 and acidic ionized water is discharged to the ionized water discharge tube 146.

As shown in FIG. 4, raw water is introduced into the filter unit 120 through the raw water pipe 122, and raw water introduced into the filter unit 120 is purified and then discharged through the purified water pipe 124. The purified water flows into the electrolytic cell 140 through the purified water pipe 124 and the purified water supply pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic cell 140 to become acidic ionized water and alkaline ionized water. Alkaline ionized water is extracted to the outside through the ionized water extraction tube 141, the alkaline ionized water extraction tube 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. On the other hand, the acidic ionized water generated in the electrolytic cell 140 is discharged to the outside through the ionized water discharge pipe 146.

Referring to Figure 5 describes the flow path of the water when washing the acidic ionized water extraction port. When the acidic ionized water extraction port is washed, 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 supply pipe 128 are in fluid communication. In addition, the acidic ionized water flow channel switching valve 143 is valved so that the acidic ionized water extraction port 142a and the washing water discharge pipe 148 are in fluid communication, and the alkaline ionized water flow channel switching valve 145 is the alkaline ionized water extraction pipe 144 and the washing water. The discharge pipe 148 is valve switched to be in fluid communication. In addition, 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 extraction port 142a. On the other hand, the operation of the electrolytic cell 140 is controlled such that acidic ionized water is extracted from the ionized water extraction pipe 141 and alkaline ionized water is discharged from the ionized water discharge pipe 146.

As shown in FIG. 5, raw water is introduced into the filter unit 120 through the raw water pipe 122, and raw water introduced into the filter unit 120 is purified and then discharged through the water purification pipe 124. The purified water flows into the electrolytic cell 140 through the purified water pipe 124 and the purified water supply pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic cell 140 to become acidic ionized water and alkaline ionized water. Alkaline ionized water is supplied to the acidic ionized water extraction port 142a through the ionized water discharge pipe 146 and the washing water supply pipe 150. Alkaline ionized water washes the acidic ionized water extraction port 142a while flowing through the acidic ionized water extraction port 142a. The alkaline ionized water passing through the acidic ionized water extraction port 142a is discharged to the outside through the wash water discharge pipe 148 in fluid communication with the acidic ionized water extraction port 142a. On the other hand, the acidic ionized water is discharged to the outside through the ionized water extraction tube 141, the alkaline ionized water extraction tube 144 and the washing water discharge pipe 148, the acidic ionized water when the alkaline ionized water extraction tube 144 flows into the alkaline ionized water extraction tube ( 144) can be washed.

As a modification, the alkaline ionized water flow channel switching valve 145 can switch the valve such that the alkaline ionized water extraction pipe 144 and the alkaline ionized water extraction port 144a are in fluid communication. 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 can be washed by the acidic ionized water. Can be.

Referring to Figure 6 will be described the flow path of the water when washing the alkaline ionized water extraction port. When washing the alkaline ionized water outlet, 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 supply pipe 128 are in fluid communication. In addition, the acidic ionized water flow channel switching valve 143 is valve-switched so that the acidic ionized water extraction pipe 142 and the washing water discharge pipe 148 are in fluid communication, and the alkaline ionized water flow channel switching valve 145 is the alkaline ionized water extraction port 144a and the washing water. The discharge pipe 148 is valve switched to be in fluid communication. In addition, 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 extraction port 144a. On the other hand, the operation of the electrolytic cell 140 is controlled such that alkaline ionized water is extracted to the ionized water extraction tube 141 and acidic ionized water is discharged to the ionized water discharge tube 146.

As shown in FIG. 6, raw water is introduced into the filter unit 120 through the raw water pipe 122, and raw water introduced into the filter unit 120 is purified and then discharged through the water purification pipe 124. The purified water flows into the electrolytic cell 140 through the purified water pipe 124 and the purified water supply pipe 128 in fluid communication with the purified water pipe 124. The purified water is electrolyzed in the electrolytic cell 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 washing water supply pipe 150. The acidic ionized water washes the alkaline ionized water extraction port 144a while flowing through the alkaline ionized water extraction port 144a. The acidic ionized water passing through the alkaline ionized water extraction port 144a is discharged to the outside through the washing water discharge pipe 148 in fluid communication with the alkaline ionized water extraction port 144a. On the other hand, the alkaline ionized water is discharged to the outside through the ionized water extraction tube 141, the acidic ionized water extraction tube 142 and the washing water discharge pipe 148, the alkaline ionized water is acidic ionized water extraction tube (142) when flowing the acidic ionized water extraction tube (142) 142) can be washed.

As a modification, the acidic ionized water flow channel switching valve 143 can switch the valve so that the acidic ionized water extraction pipe 142 and the acidic ionized water extraction port 142a are in fluid communication. 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 can be washed by the alkaline ionized water. Can be.

Thus, according to the present invention, by connecting the washing water supply pipe 150, the alkali ion water flows through the acidic ionized water extraction port 142a, and the acidic ionized water flows through the alkaline ionized water extraction port 144a, 142a) and the scale accumulated in the alkaline ionized water extraction port 144a can be removed.

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

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

2 illustrates a flow path of water during water extraction from the ionizer 100.

3 illustrates a flow path of water when acidic ionized water is extracted from the ionizer 100.

4 illustrates a flow path of water when alkaline ionized water is extracted from the ionizer 100.

Figure 5 shows the flow path of the water when washing the acidic ionized water extraction port in the ionizer 100.

FIG. 6 illustrates a flow path of water when the alkaline ionized water extraction port is washed in the ionizer 100.

Explanation of symbols on the main parts of the drawings

100 ionizer 120 filter

122 Raw water pipe 123 Raw water valve

124 Water pipe 125 Flow sensor

126 purified water extraction pipe 127 purified water flow path switching valve

128 Water Supply Pipe 140 Electrolyzer

142 acid ionized water extraction tube 142a acidic ionized water extraction port

143 acidic ionized water flow path switching valve

144 alkaline ionized water extraction tube 144a alkaline ionized water extraction port

145 Alkaline Ionized Water Flow Switch Valve

146 Ionized water outlet 148 Washed water outlet

150 water supply line

Claims (10)

An electrolytic cell 140 which electrolyzes water to generate acidic ionized water and alkaline ionized water; An acidic ionized water extraction tube 144 to which the acidic ionized water or the alkaline ionized water generated by the electrolytic cell 140 is extracted and the acidic ionized water extraction port 142a is connected to the alkaline ionized water extraction port 144a is connected. Ionized water extraction tube (141) branching to, Ionized water discharge pipe 146 for discharging ionized water different from the ionized water extracted through the ionized water extraction pipe 141, Control unit for controlling the operation of the electrolytic cell 140, and An ionizer comprising a washing water supply pipe (150) having one end detachably connected to the ionized water discharge pipe (146) and the other end detachably connected to the acidic ionized water extraction port (142a) or the alkaline ionized water extraction port (144a). The method according to claim 1, A washing water discharge pipe 148 is further connected to a point where the acidic ionized water extraction tube 142 and the acidic ionized water extraction port 142a are connected, the acidic ionized water extraction tube 142, the acidic ionized water extraction port 142a, and An acidic ionized water flow channel switching valve 143 for controlling fluid communication between the washing water discharge pipes 148 is installed. The washing water discharge pipe 148 is further connected to a point where the alkaline ionized water extraction tube 144 and the alkaline ionized water extraction port 144a are connected, and the alkaline ionized water extraction tube 144 and the alkaline ionized water extraction port 144a are provided. And an alkaline ionized water flow channel switching valve (145) for controlling fluid communication between the washing water discharge pipes (148). The method according to 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 extraction port 142a, the control unit controls to discharge alkaline ionized water into the ionized water discharge pipe 146. Ionizer. The method according to claim 3, The control unit is a water ionizer, characterized in that for valve switching the acidic ion water flow channel switching valve (143) so that the acidic ionized water extraction port (142a) and the washing water discharge pipe (148) in fluid communication. The method according to claim 3 or 4, The control unit is a water ionizer, characterized in that for switching the alkaline ionized water flow channel switching valve (145) to the fluid communication between the alkaline ionized water extraction pipe (144) and the washing water discharge pipe (148). The method according to claim 3 or 4, The control unit is a water ionizer, characterized in that for valve switching the alkaline ionized water flow channel switching valve (145) so that the alkaline ionized water extraction pipe (144) and the alkaline ionized water extraction port (144a) in fluid communication. The method according to 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 alkaline ionized water extraction port 144a, the control unit controls to discharge the acidic ionized water into the ionized water discharge pipe 146. Ionizer. The method of claim 7, The control unit is a water ionizer, characterized in that for valve switching the alkaline ionized water flow channel switching valve (145) so that the alkaline ionized water extraction port (144a) and the washing water discharge pipe (148) in fluid communication. The method according to claim 7 or 8, The control unit is a water ionizer, characterized in that for switching the acidic ion water flow channel switching valve (143) so that the acidic ionized water extraction pipe (142) and the washing water discharge pipe (148) in fluid communication. The method according to claim 7 or 8, The control unit is a water ionizer characterized in that for switching the acidic ionized water flow channel switching valve (143) so that the acidic ionized water extraction pipe (142) and the acidic ionized water extraction port (142a) in fluid communication.

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