KR100484919B1 - Method for controlling electrolytic cell valve for use in hot and cool ionization and purification system - Google Patents

Abstract

The present invention operates the electrolyzer pump by discharging the air in the electrolyzer pump through the electrolyzer valve before the electrolyzer pump operation by repeatedly turning on / off the electrolyzer valve for a preset period of time in the initial reservoir water supply. By providing a control method of an electrolytic cell valve for a cold and hot ion water purifier that can immediately discharge water without idling, the control method of the electrolytic cell valve for a cold and hot ion water purifier includes the steps of detecting the reservoir of the reservoir and supplying water when the reservoir is detected. Performing the operation, comparing the water level of the reservoir with the air layer in the reservoir, repeating the ON / OFF operation of the electrolytic cell valve if the water level of the reservoir is less than the air layer, and If the water level is greater than the air layer, turn off the electrolyzer valve and detect if the reservoir level is high and if not, Returning to the manual operation step and ending if the sense of the stick.

Description

METHOD FOR CONTROLLING ELECTROLYTIC CELL VALVE FOR USE IN HOT AND COOL IONIZATION AND PURIFICATION SYSTEM}

The present invention relates to a method for controlling an electrolyzer valve of a cold / hot water purifier, and more particularly, an electrolyzer pump operation by repeatedly turning on / off the electrolyzer valve for a predetermined period of time during initial reservoir water supply. The present invention relates to a control method of an electrolytic cell valve for a cold and hot ion water purifier that discharges air in an electrolytic cell pump through an electrolytic cell valve and immediately discharges water without idling during an initial electrolytic cell pump operation.

In general, the conventional cold and hot water purifier is installed in the case, the filter unit for filtering and purifying the time water flowing into the cold and hot water purifier, the cooler for maintaining the time purified by the filter unit cold, and the cooler A cold water tank for temporarily storing purified water and a hot water tank for storing purified water that is heated by a heater provided therein, and are connected to the water discharge port of the cold water tank and the hot water tank by screwing, respectively, and protrude out of the case. And a cold water intake cock and a hot water intake cock for taking out hot water.

In the conventional cold / hot water purifier, when water is introduced from the outside, the water introduced by the filter unit is filtered to remove impurities and bacteria contained in the water, and then supplied and stored through the hose to the cold water tank and the hot water tank. The water stored in the cold water tank is made cold by the cooler installed in connection with the attention of the cold water tank, while the water stored in the hot water tank is heated to a predetermined temperature by a heater installed in the hot water tank.

In such a state, when the user presses the lever installed in the cold water intake cock or the hot water intake cock in a predetermined direction to take out the cold or hot water, the intake port is opened and the cold water or hot water is taken out, and then the force applied to the lever is removed. The closing of the cold water or hot water is stopped.

In the prior art, although the user can use the purified cold water or hot water when the user wants to take in water, there is a problem that a separate ion water purifier is required if the user wants to take alkaline ionized water or acidic ionized water.

On the other hand, in the conventional ion water purifier of the reservoir type, air is formed at the rear end of the electrolytic cell valve when the electrolytic cell valve and the pump are operated at the time of driving the electrolytic cell valve and the pump during electrolytic cell operation after the purified water is stored in the reservoir tank. There is a problem that can not discharge water.

The present invention has been made to solve the above problems, an object of the present invention is to operate the electrolytic cell pump by repeating the on / off for a predetermined period of time for a predetermined period of the electrolytic cell valve in the initial reservoir water supply The present invention provides a control method of an electrolytic cell valve for a cold and hot ion water purifier that discharges air in an electrolytic cell pump through an electrolytic cell valve and immediately discharges water without idling during an initial electrolytic cell pump operation.

The present invention for realizing the above object is a cold and hot ion water purifier with an ion water purification function and a cold water purification function, the step of detecting the reservoir of the reservoir, performing the water supply operation when the reservoir water is detected; Comparing the water level of the reservoir with the air layer in the reservoir, repeating the on / off operation of the electrolytic cell valve if the water level of the reservoir is less than the air layer, and the water level of the reservoir is higher than the air layer It is characterized in that it comprises a step of turning off the electrolytic cell valve, if it is large, the step of detecting whether the reservoir tank water level is high water, and if the high water level is not high, return to the water supply operation step and end when the water tank is detected as high water.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, this embodiment is not intended to limit the scope of the present invention, but is presented by way of example only.

1 and 2 are a schematic view and a flow chart for explaining the control method of the electrolytic cell valve for cold and hot ion water purifier according to the present invention.

First, as illustrated in FIG. 1, the cold / hot water purifier 100 includes a plurality of filters, and the filter unit 110 and the filter unit for filtering and purifying the water having a pH concentration of about 7.0 introduced into the cold / hot water purifier 100. Storage water tank 120 for storing purified water having a purified PH concentration of about 7.0 from the 110, the acidic water used for cleaning and acidic water used for cleaning by decomposing the purified water introduced from the storage tank 120 for alkaline ionized water Electrolyzer 130 to produce, acidic water tank 140 for storing the acidic water generated from the electrolytic cell 130, room temperature water distributor 150 for distributing the alkaline ionized water generated from the room temperature and the electrolytic cell 130, room temperature water distributor Alkaline water tank 160 for storing the alkaline ionized water distributed from the 150, room temperature water pipe 170 for storing the normal temperature water distributed from the room temperature water distributor 150, alkaline ionized water stored in the alkaline water tank 160 Hot water tank 180 to heat and store, cold water tank 190 to cool and store the alkaline ionized water stored from the alkali water tank 160 and the reservoir 120, acidic water tank 140, hot water tank to perform the automatic drain operation 180, a drain manifold 192 connected to the cold water tank 190 and the room temperature water pipe 170.

Therefore, according to the cold water purifier 100 of the water tank type having the purified water, the alkaline cold water, the alkaline hot water, the acidic water, and the room temperature ionized water, the water obtained from the cold ion water purifier 100 is a filter unit 110 formed of a plurality of filters. When stored in the reservoir 120 and the user wants purified water by pressing the purified water cock can be supplied with the desired purified water.

In addition, although not shown in the drawings, the filter unit 110 is a filter such as a sediment pre-filter that can remove various debris including rust, soil, sand dust, and fine impurities of about 1 μm in size. It is a fiber type filter membrane such as sediment filter, carbon filter using activated carbon adsorption, sun carbon filter that can absorb and remove odor and make water close to nature, and hollow fiber membrane filter (UF-membrane filter). It is a UF filter and a carbon filter that can filter harmful substances and make mineral components alive with ultra-precision performance, with more than 100 billion 1/10000 pores of hair thickness ranging from 0.01 to 0.04 ㎛. It removes unpleasant tastes and odors remaining in the water to maintain the taste of water properly and removes pigments, etc. It may include a carbon filter (post carbon filter).

In addition, the filter unit 110 is a hexagonal molecular ring structure of the human body's cell fluid is most preferred when the force is applied to the tube through which the water passes a strong magnetic force by using a magnetization device made of a special mineral material, the wave occurs It may further include a functional filter, such as a magnetized hexagonal water filter, which can be changed to a pH of 7.2 to 7.4 to increase the penetration of cells in the body and supply water to oxygen and minerals by activating water.

Therefore, during alkaline or acidic water operation, water in the reservoir 120 is supplied to the electrolytic cell 130, and water to which the voltage of the cathode is applied is alkaline water, and water to which the voltage of the anode is applied has a pH of about 3.5 to 6.0. It is supplied with acidic water.

And, the alkali water passing through the electrolytic cell is supplied to the room temperature water pipe and the alkali water tank 160.

In addition, when the user selects room temperature ionized water, normal temperature ionized water having a PH concentration of 8.0 to 10.0 is supplied when the user presses the room temperature ionized water cock.

When the user selects the alkaline cold water or the alkaline hot water, the water supplied to the alkaline water tank 160 flows into the cold water tank 190 and the hot water tank 180, and the compressor or the heater operates according to a preset temperature so that the alkaline cold water or the alkaline hot water is used. Pressing the coke produces alkaline cold or alkaline hot water with a pH of about 8.0.

By discharging air in the electrolyzer pump through the electrolyzer valve before the pump operation by repeating the on / off of the electrolyzer valve for a preset period of time during the initial reservoir water supply according to the flowchart shown in FIG. 2. The control method of the electrolytic cell valve for cold and hot ion water purifier that can immediately discharge water without idling during the operation of the first electrolytic cell pump is as follows.

First, it is detected whether the reservoir is in the state of the reservoir (S100), and if the water level of the reservoir is not the reservoir state, it maintains the water discharge standby state (S102). At this time, if the water level of the reservoir is detected as a reservoir state, the water supply operation is performed (S104).

Then, it is determined whether or not the discharge water level is discharged above the water level of the water storage tank by discharging whether the water level of the water tank is larger than the thickness of the air layer in the water tank (S106). If the water level of the reservoir is less than the air layer, the on / off of the electrolytic cell valve is repeated (S110). Subsequently, after repeating the on / off of the electrolytic cell valve, the process returns to step S106 to determine whether or not the discharge standard level is discharged.

If the result of the determination in step S106 of determining whether or not the discharge standard level is discharged is greater than the reservoir, the electrolytic cell valve is turned off (S108). Then, it is determined whether the reservoir level is a high level (S112). As a result of determining whether the reservoir level is a high level, if the reservoir level is not detected as high water, the flow returns to step S104 of performing a water supply operation. When the reservoir level is detected as a high level, the operation of the electrolytic valve for the cold ion water purifier is terminated.

As described above, the present invention discharges the air in the electrolyzer pump through the electrolyzer valve before the operation of the electrolyzer pump by repeating the on / off of the electrolyzer valve for a preset period of time during the initial reservoir water supply. Therefore, there is an advantage that the water can be discharged immediately without idling during the initial electrolyzer pump operation.

Therefore, there is an advantage that can eliminate the inconvenience of removing the air by turning the electrolytic cell repeatedly several times due to the idling of the electrolytic cell pump before application.

1 is a schematic view for explaining a cold and hot ion water purifier according to the present invention.

2 is a flowchart for explaining in detail the control method of the electrolytic cell valve for cold and hot ion water purifier according to the present invention.

   -Explanation of symbols for the main parts of the drawings-

100: cold ion water purifier 110: filter unit

120: reservoir 130: electrolytic cell

140: acidic water tank 150: room temperature water distributor

160: alkaline water tank 170: room temperature water pipe

180: hot water tank 190: cold water tank

Claims (3)

In a cold ion water purifier having an ion water purifying function and a cold water purifying function, Detecting the reservoir in the reservoir, Performing a water supply operation when the reservoir water is detected; Comparing the water level of the reservoir with the air layer in the reservoir, Repeating an ON / OFF operation of an electrolytic cell valve when the water level of the reservoir is less than the air layer; Turning off the electrolytic cell valve if the water level of the reservoir is greater than the air layer; Detecting whether the water level of the reservoir is coriander, if the water level is not high, the process returns to the water supply operation step and ends when it is detected as coriander. Control method of the electrolytic cell valve for cold and hot ion water purifier, characterized in that made. The method of claim 1, In the step of detecting the reservoir of the reservoir, if the water level of the reservoir is not the reservoir, the step of waiting for the purified water extraction standby state A control method for an electrolytic cell valve for cold and hot ion water purifier, further comprising. The method of claim 1, further comprising the step of performing the step of repeating the on / off operation of the electrolytic cell valve and then again performing the step of comparing the water level of the reservoir with the air layer in the reservoir. Control method of electrolytic cell valve for water purifier.