KR20140086498A - A sterilized water creation device using TDS and method for controlling the same - Google Patents

Abstract

The present invention provides a water sterilizer comprising an electrolysis module that has an electrode which produces sterilized water through an electrolysis of water provided by producing an electrolysis current, and an electrolysis circuit unit which applies voltage to the electrode according to a control signal; a TDS sensor that is capable of sensing the total dissolved solids (TDS) of the provided water or the produced sterilized water; an electrolytic solution tank that is capable of having and injecting an electrolytic solution; and a control unit that controls an operation of the electrolytic solution tank according to the TDS sensed by the TDS sensor, and applies the control signal to the electrolysis circuit unit. According to the present invention, a uniform amount of sterilized water can be automatically produced regardless of the state of the water provided to a water sterilizer.

Description

[0001] The present invention relates to sterilizing water using TDS and a control method thereof,

The present invention relates to a sterilizing machine using TDS and a control method thereof.

Recently, as people's income has improved, living standards have become higher, and there is an increasing need to use clean water or high-quality water for drinking water as well as general living water such as washing water.

Accordingly, since water purification and sterilization have been increasingly interested in water, various purification and sterilizing apparatuses have been disclosed. Generally, the water purification operation is performed using various filters, and the sterilization action is mainly represented by a chlorine system Chemical sterilizing agents, or sterilizing devices using ozone, ultraviolet rays, ultrasonic waves, or the like.

However, in the conventional sterilizing apparatus, if a chemical sterilizing agent is used, a sterilizing agent is further added to sterilize the sample. Therefore, a filtration process must be additionally performed. When the sterilizing apparatus is used, a separate sterilizing apparatus There is a problem that the device is complicated and the installation cost is increased because the device must be installed.

Accordingly, there has been proposed a sterilizing water producing apparatus using chlorine ions contained in water as sterilized water through electrolysis.

However, in the case of the electrolysis method, the magnitude of the current applied varies depending on the amount of total dissolved solids (TDS) contained in the water. That is, if the concentration of TDS contained in the water is low, a low current flows to reduce the sterilizing effect.

Therefore, the TDS is changed according to the state of the water supplied to the electrolytic sterilizing machine, and the sterilizing effect is changed due to the change of the concentration of the sterilizing water. Therefore, the sterilizing effect can not be estimated from the viewpoints of consumers. There is a problem that the effect is extremely small.

The present invention aims to provide a sterilizing machine capable of automatically generating sterilized water in a uniform amount irrespective of the state of water provided to the sterilizing machine.

At the same time, it is intended to provide a sterilizing machine capable of minimizing the price increase by providing only such a sterilizing machine and a small number of parts.

According to an aspect of the present invention, there is provided an electrolytic apparatus including an electrode for electrolyzing water to generate electrolytic current to generate sterilized water, and an electrolytic circuit unit for applying a voltage to the electrode in accordance with a control signal An electrolysis module for electrolyzing; A TDS sensor capable of sensing TDS (Total Dissolved Solids) of the provided water or the generated sterilizing water; An electrolyte solution tank capable of injecting and discharging an electrolyte solution; And a control unit for controlling the operation of the electrolyte solution tank in accordance with the TDS sensed by the TDS sensor and applying the control signal to the electrolytic circuit unit.

According to an embodiment of the present invention, when the TDS sensed by the TDS sensor is lower than a predetermined first value, the controller operates the electrolyte solution tank to spray the electrolyte solution.

According to another embodiment of the present invention, when the TDS sensed by the TDS sensor is lower than a predetermined first value, the controller adjusts the interval of the electrodes so that the electrolysis current generated at the electrode increases desirable.

According to another embodiment of the present invention, when the TDS sensed by the TDS sensor is lower than a predetermined first value, the controller preferably increases the operation time of the electrode beyond a predetermined time.

Preferably, the control unit stops the operation of the electrolytic circuit unit when the TDS sensed by the TDS sensor is higher than a predetermined second value after the sterilizing water is generated by operating the electrode.

According to an aspect of the present invention, there is provided a method for detecting a TDS of a water, comprising the steps of: (a) sensing a TDS of water; (b) operating the electrolyte solution tank to spray the electrolyte solution when the TDS sensed in step (a) is lower than a predetermined first value; (c) applying a voltage to the electrode in the electrolytic circuit; (d) generating an electrolysis current in accordance with the voltage applied to the electrode to produce water as sterilized water,

According to another embodiment of the present invention, in place of the step (b), if the TDS sensed in the step (a) is lower than a predetermined first value, the electrolysis current And adjusting the interval of the electrodes so that the distance between the electrodes increases.

According to another embodiment of the present invention, the step (b) may further comprise the steps of: (b) if the TDS sensed in step (a) is lower than a predetermined first value, .

If the TDS sensed by the TDS sensor is higher than a predetermined second value, the controller may further include a step of stopping the operation of the electrolytic circuit.

According to the present invention, it is possible to automatically generate sterilized water in a uniform amount irrespective of the state of water provided to the sterilizing water machine. This has the advantage that the sterilization effect is uniform regardless of the state of water provided.

In addition, according to the present invention, when a specific amount of sterilized water is generated, the generation of sterilized water can be automatically stopped and the stability can be improved, in order to prevent the danger due to generation of excessive sterilized water or application of excessive voltage and current.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view of a sterilizing machine according to one embodiment of the present invention.
FIG. 2 is a flow chart for explaining a sterilization hand control method according to an embodiment of the present invention.

Hereinafter, a sterilizing machine 100 according to the present invention will be described with reference to the drawings.

Figure 1 illustrates a sterilizing handwasher 100 according to one embodiment of the present invention.

According to one embodiment of the present invention, the sterilizing handwasher 100 is immersed in a water tank after filling a separate water tank, for example, a plastic bowl or a sink of a sink, The sterilizing water can be generated by applying a voltage to the sterilizing water. Thereafter, the inside of the water tank is filled with the generated sterilized water, and then the sterilization action can be performed by putting fruits, tableware, etc. into the water tank.

According to another embodiment, the separate tank may be a large retention space such as a pool or a fish farm. In particular, the disinfecting device 100 according to the present invention is particularly preferable for a long-term storage space such as a swimming pool or a fish farm because it automatically controls the sterilizing water concentration.

According to another embodiment, the sterilizing hand 100 itself may be provided with a water tank. That is, water filled in a water tank provided in the sterilizing water hand itself, for example, a cup, and a voltage is applied to an electrode contained in the sterilizing water handler 100, water filled in the cup may be generated as sterilized water . Thereafter, a sprayer may be connected to the cup filled with sterile water, or the toothbrush or the like may be disinfected.

It goes without saying that another use of the sterilizing handwriting 100 according to the present invention is possible.

The sterilizing handler 100 according to the present invention includes an electrolysis module 10, a TDS sensor 20, an electrolyte solution tank 30, and a control unit 40.

The electrolysis module 10 includes an electrode and an electrolysis circuit.

The electrode can electrolyze the water provided by discharging with an applied voltage. The electrode can include a plurality of electrodes, and can be distinguished as a positive electrode and a negative electrode.

It is preferable that the positive electrode is made of an alloy of IrO ₂ and Ta, and the negative electrode is made of stainless steel SUS (Steel Use Stainless).

The distance between the positive electrode and the negative electrode is preferably 3 to 7 mm, more preferably 5 mm.

When a voltage is applied to set up in the electrode by electrolysis of water present around the electrodes the chloride ion (Cl ^-), ozone (O _3), hydrogen peroxide (H ₂ 0 _2), hypochlorous acid (HClO), hydroxyl group (OH ^-) , ≪ / RTI > and the like.

Therefore, it is possible to disinfect the object by using oxidation reaction, reduction reaction, and neutralization reaction of the generated sterilized water, or to remove organic substances such as bacteria that may be present in the object.

The electrolytic circuit portion can apply a voltage to the electrode in accordance with the control signal. That is, the electrolytic circuit unit is directly connected to the electrode, and can apply a voltage to the electrode according to a control signal transmitted from the control unit 40, which will be described later.

Electrolysis is carried out at the electrode by the voltage applied to the electrodes and produces sterilized water.

When a voltage is applied to the electrode, ions present in the water move to the electrode by an electrical attraction. At this time, the negative ions may provide electrons to the positive electrode, and the positive ions may receive electrons from the negative electrode. As a result, it can be seen that electrons entering the positive electrode have passed through the negative electrode, so that current flows into the electrode. This is called "electrolysis current ".

The electrolysis current is determined by the amount of ions present in the water, that is, the amount of TDS. The higher the concentration of TDS, the more electrolysis current is generated.

In other words, when the concentration of TDS in the water in the water tank is too low, the electrolysis current is low and the amount of sterilization water generated is small, resulting in a problem that the sterilization effect is decreased. The present invention solves this problem by sensing the TDS.

The TDS sensor 20 senses the TDS of the water inside the water tank.

The TDS sensor 20 performs two functions.

First, the TDS of the water supplied to the sterilizing water handler 100 before the sterilization water is generated is sensed.

Accordingly, when the TDS of the provided water is lower than the predetermined first value, the electrolysis current is low compared with the general sterilization water generating process, so that the TDS can be raised by spraying the electrolyte solution. Alternatively, the electrode interval may be adjusted by using a separate driving unit (not shown) connected to the electrolysis module 10 to increase the electrolysis current, or the driving time of the electrode may be increased It is possible.

Second, after the sterilization water is generated, the TDS of the sterilized water generated is sensed.

When the sterilization water starts to be generated, the TDS starts to change. If the TDS of the sterilization water generated reaches the predetermined second value, the sterilization water concentration can be automatically adjusted to a specific concentration and stopped automatically by stopping the generation of the sterilization water.

The electrolyte solution tank 30 stores the electrolyte solution and has a nozzle 31 to inject the electrolyte solution.

The controller 40 interlocks with the electrolysis module 10, the TDS sensor 20 and the electrolyte solution tank 30 to control the operation of the electrolyte solution tank 30 according to the TDS sensed by the TDS sensor 20 And at the same time control the control signal applied to the electrolysis module 10.

A specific control method will be described with reference to Fig.

A sterilizing water generation command is applied to the sterilizing water handler 100 (S100).

The sterilizing handler 100 senses the TDS of the water supplied to the sterilizing handler 100 using the TDS sensor 20 before generating the sterilizing water (S200).

If the TDS of the provided water is lower than the predetermined first value, it means that sterilization is reduced when the electrolysis is performed as in the general case, so that the control unit 40 controls the electrolytic solution to be injected from the electrolyte solution tank 30 To adjust the TDS to a certain value.

As another embodiment, the electrolysis current may be increased by adjusting the interval of the electrodes in the electrolysis module 10 by using a separate driving unit (not shown).

As yet another embodiment, the electrolysis time itself may be increased compared to the general case.

When the TDS of the supplied water reaches the predetermined first value by repeating this process, the control unit 40 performs electrolysis by applying a control signal to the electrolysis circuit unit of the electrolysis module 10, (S300).

During the generation of sterile water, the TDS sensor 20 continues to sense the TDS (S400).

If the TDS of the generated sterilization water reaches a predetermined second value, the operation may be stopped to prevent the generation of excessive sterilization water (S500).

While the invention has been described by way of example only, it is not intended to limit the invention. In addition, it will be appreciated by those skilled in the art that various modifications and variations are possible in addition to those described herein. Such variations are also within the scope of the appended claims.

10: electrolysis module
20: TDS sensor
30: electrolyte solution tank
31: Nozzle
40:

Claims (9)

An electrolysis module including an electrode for electrolyzing water provided by generating an electrolysis current to generate sterilized water and an electrolysis circuit unit for applying a voltage to the electrode in accordance with a control signal;
A TDS sensor capable of sensing TDS (Total Dissolved Solids) of the provided water or the generated sterilizing water;
An electrolyte solution tank capable of injecting and discharging an electrolyte solution; And
A control unit for controlling the operation of the electrolyte solution tank according to the TDS sensed by the TDS sensor and applying the control signal to the electrolysis circuit unit;
/ RTI >
Sterilization machine.
The method according to claim 1,
Wherein,
Wherein when the TDS sensed by the TDS sensor is lower than a predetermined first value, the electrolyte solution tank is operated to spray the electrolyte solution.
Sterilization machine.
The method according to claim 1,
Wherein,
Wherein when the TDS sensed by the TDS sensor is lower than a predetermined first value, the interval between the electrodes is adjusted so that the electrolysis current generated by the electrode increases.
Sterilization machine.
The method according to claim 1,
Wherein,
Wherein when the TDS sensed by the TDS sensor is lower than a predetermined first value, the operation time of the electrode is increased beyond a predetermined time.
Sterilization machine.
5. The method according to any one of claims 1 to 4,
Wherein,
And stopping the operation of the electrolytic circuit unit when the TDS sensed by the TDS sensor is higher than a predetermined second value after the sterilized water is generated by operating the electrode.
Sterilization machine.
(a) the TDS sensor sensing the TDS of water;
(b) operating the electrolyte solution tank to spray the electrolyte solution when the TDS sensed in step (a) is lower than a predetermined first value;
(c) applying a voltage to the electrode in the electrolytic circuit;
(d) generating an electrolysis current according to a voltage applied to the electrode to generate water as sterilized water
≪ / RTI >
Control method of sterilizing water machine.
The method according to claim 6,
The step (b)
(b ') adjusting the interval of the electrodes so that the electrolysis current generated in the electrode is increased when the TDS sensed in the step (a) is lower than a predetermined first value.
Control method of sterilizing water machine.
The method according to claim 6,
The step (b)
(b ") is a step of increasing the operation time of the electrode beyond a predetermined time when the TDS sensed in the step (a) is lower than a predetermined first value.
Control method of sterilizing water machine.
9. The method according to any one of claims 6 to 8,
After the step (d)
(e) stopping the operation of the electrolytic circuit unit when the TDS sensed by the TDS sensor is higher than a predetermined second value.
Control method of sterilizing water machine.

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