KR20150094399A - Sterilizer and method of controlling thereof - Google Patents

Abstract

The present invention provides a sterilizing device and a method thereof. The sterilizing device includes: a pair of electrodes which are applied with a test voltage to electrically decompose the water stored in a water tank; a current measuring unit which measures the magnitude of a test current flowing between the pair of electrodes by the electrolysis; a slope calculation unit which calculates the slope of the test current from the measured magnitude of the test current; a sterilization voltage control unit which calculates the sterilization voltage for executing a sterilization operation from the calculated slope of the test current; and a power supply unit which applies the calculated sterilization voltage to the pair of electrodes. The magnitude of the test voltage is less than the size of the sterilization voltage to apply the appropriate sterilization voltage without using an expensive total dissolved solids (TDS) meter, thereby maintaining the same sterilization performance.

Description

STERILIZER AND METHOD OF CONTROLLING THEREOF [0002]

The present application relates to control of a sterilizer such as a humidifier or an air cleaner.

Generally, a humidifier, which artificially generates and emits moisture to raise the humidity of a room, includes a heating humidifier in which water vapor generated by heating water stored in a water tank to a predetermined temperature is spontaneously sprayed into the room, An ultrasonic humidifier which emits micronized water particles into the room by ultrasonically vibrating the water stored in the humidifier, and a combined humidifier which simultaneously includes a heating humidification system and an ultrasonic humidification system. In recent years, the water adhering to the surface of the disk is blown by blowing water that has moved to the upper side of the moisture absorbing member after immersing the moisture absorbing member in the water tank, or by rotating part of a large number of disks in a water bath (Air blowing type) humidifier which uses a vaporizing method is also used.

This type of humidifier is very harmful to the human body, especially the patient or infant, because the water is stored in the water tank for a long time and the bacteria propagate inside the water tank and the water contaminated with the bacteria is sprayed into the room without being sterilized. There is a problem. Particularly, since the ultrasonic humidifier and the natural-type (air blowing) humidifier of the humidifier generate moisture without raising the temperature of the water, there is no sterilizing action by heat, so that the problem of contamination by bacteria is more serious than the case of the heating type.

In order to prevent such a problem, a humidifier equipped with a sterilizing system is designed in various forms. One of them is a method of applying a power to a small electrode plated with platinum to generate a sterilizing material (oxidizing mixed material) To control the bacteria by making the pH lower than the normal water.

In the case of the above-described method using the electrode, even if the same sterilization voltage is applied, the sterilizing performance varies depending on the total dissolved solids (TDS) dissolved in the water. In other words, when the total amount of dissolved solids is high, many sterilization materials (oxidizing mixed materials) may be produced even if a small sterilization voltage is applied, which may cause malfunction due to scale and the like. I can not exercise. It is therefore very important to apply an appropriate sterilization voltage based on the total dissolved solids amount.

In order to measure the amount of the total dissolved solids described above, an expensive TDS instrument should be used, which causes a problem of increasing the operation cost of the humidifier.

Korean Patent Laid-Open Publication No. 2013-0114311 ('sterilization humidifier', publication date: October 18, 2013)

According to an embodiment of the present invention, there is provided a sterilizer and method capable of maintaining the same sterilizing performance by applying an appropriate sterilization voltage without using an expensive TDS instrument.

According to a first aspect of the present invention, there is provided a plasma display panel comprising: a pair of electrodes for receiving a test voltage and performing electrolysis of water contained in the water tank; A current measuring unit for measuring a magnitude of a test current flowing between the pair of electrodes by the electrolysis; A slope calculating unit for calculating a slope of the test current from the measured magnitude of the test current; A sterilization voltage controller for obtaining a sterilization voltage for performing a sterilization operation from a slope of the calculated test current; And a power supply unit for applying the obtained sterilization voltage to the pair of electrodes, wherein the magnitude of the test voltage is smaller than the magnitude of the sterilization voltage.

According to an embodiment of the present invention, the test voltage includes a first test voltage and a second test voltage that is larger than the first test voltage by a predetermined voltage, The magnitude of the first test current flowing between the pair of electrodes and the magnitude of the second test current flowing between the pair of electrodes as the second test voltage is applied.

According to one embodiment of the present invention, the sterilization voltage is determined according to the following equation: Vop = a x (It2-It1) / (Vt2-Vt1), where Vop is a sterilization voltage, a is a constant, Vt2 may be a second test voltage, It1 may be a first test current by a first test voltage, and It2 may be a second test current by a second test voltage.

According to an embodiment of the present invention, the sterilizer further includes a database in which total dissolved solids are pre-stored in advance according to the slope of the test current, and the sterilizing voltage control unit refers to the database to calculate the slope of the calculated test current from the slope of the calculated test current The amount of total dissolved solids (TDS) contained in the water of the water tank can be obtained.

According to an embodiment of the present invention, the magnitude of the test voltage may be a value between 30% and 50% of the magnitude of the sterilization voltage.

According to a second aspect of the present invention, there is provided a method for testing a water treatment apparatus, comprising: a first step of performing electrolysis of water contained in a water tank by applying a test voltage to a pair of electrodes; A second step of measuring a magnitude of a test current flowing between the pair of electrodes by the electrolysis in a current measuring unit; A third step of calculating a slope of the test current from a magnitude of the measured test current in a tilt calculating unit; A fourth step of obtaining a sterilizing voltage for performing a sterilizing operation from the calculated slope of the test current in the sterilizing voltage control unit; And a fifth step of applying the obtained sterilization voltage to the pair of electrodes at a power supply unit.

According to an embodiment of the present invention, the test voltage includes a first test voltage and a second test voltage which is larger than the first test voltage by a predetermined voltage, and the third step includes: The magnitude of the first test current flowing between the pair of electrodes and the magnitude of the second test current flowing between the pair of electrodes when the second test voltage is applied can be obtained.

According to one embodiment of the present invention, the sterilization voltage is determined according to the following equation: Vop = a x (It2-It1) / (Vt2-Vt1), where Vop is a sterilization voltage, a is a constant, Vt2 may be a second test voltage, It1 may be a first test current by a first test voltage, and It2 may be a second test current by a second test voltage.

According to one embodiment of the present invention, the method for controlling a sterilizer includes the steps of: storing total dissolved solids in advance in a database according to a slope of a test current; And calculating the total dissolved solids (TDS) contained in the water in the water tank from the slope of the calculated test current with reference to the database, in the sterilization voltage control unit.

According to an embodiment of the present invention, the magnitude of the test voltage may be a value between 30% and 50% of the magnitude of the sterilization voltage.

According to one embodiment of the present invention, an appropriate sterilization voltage is obtained based on the slope of the test current flowing between the pair of electrodes, and the obtained sterilization voltage is applied to the pair of electrodes. By applying a sterilizing voltage, the same sterilizing performance can be maintained.

1 is an overall configuration diagram of a humidifier including a sterilizer according to an embodiment of the present invention.
FIG. 2 is a view for explaining a process of obtaining a slope and a sterilizing voltage of a test current according to an embodiment of the present invention.
Figure 3 shows the test current according to the amount of total dissolved solids.
4 is a flowchart illustrating a sterilizer control method according to an embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

1 is an overall configuration diagram of a humidifier including a sterilizer according to an embodiment of the present invention. Meanwhile, FIG. 2 is a view for explaining a process of obtaining a slope and a sterilization voltage of a test current according to an embodiment of the present invention, and FIG. 3 is a diagram showing a test current according to an amount of total dissolved solids.

First, a sterilizer according to an embodiment of the present invention will be described in detail with reference to Fig. Hereinafter, the object to which the sterilizer according to the embodiment of the present invention is applied is limited to the humidifier 100, but this is merely for the purpose of understanding the invention. In addition to the humidifier 100, a bidet, a dehumidifying purifier, a water purifier, The present invention can be applied to various products including a water tank or a water tank for containing water.

The humidifier 100 includes a water tank 110 for storing water, an electrolyte supply unit 140 connected to the upper end of the water tank 110 through a discharge pipe 160, A humidifying means 130 for evaporating or atomizing the water contained in the water tub 120; a water supply unit 130 provided in the water tub 120 for supplying water containing electrolyte And a sterilizer 170 for generating a sterilizing material from the sterilizer 170.

The water tank 110 receives water filled up to a predetermined water level by the user, and the water contained therein is moved toward the water tub 120 by the water level change of the water tank 120. Specifically, when the water tank 110 is mounted on the water tank 120, the valve 111 located at the lower end (mounted state reference) of the water tank 110 is opened by the protrusion 121 provided in the water tank 120 The water contained in the water tank 110 is moved toward the water tub 120 by the pressure difference between the inside and the outside of the water tank 110 when the water level of the water tank 120 drops to a certain level. The valve 111 of the water tank 110 may be opened by the fixed protrusion 121. Alternatively, the water tank 110 may be opened by a sensor (not shown) The valve 111 may be opened by driving the protrusion upward by a separate driving means.

An electrolyte supply part 140 is connected to the upper end of the water tank 110 through a discharge pipe 160. The electrolyte supply part 140 is in contact with water contained in the water tank 110, The dissolved electrolyte is supplied to the water tank 110 side in accordance with a change in the water level of the water tank 110, that is, when the water level of the water tank 110 is lowered.

Meanwhile, the water tank 120 receives water containing the electrolyte from the water tank 110 as described above. A sterilizer 170 is installed in the water tank 120. The sterilizer 170 generates a sterilizing material (oxidizing mixed material, MO) by the oxidation-reduction reaction between the positive electrode and the negative electrode when power is applied to the pair of electrodes 172 from the power source 171, The water in the water tub 120 is sterilized.

The water tank 120 senses water supplied to the water tank 110 from the water tank 110 when the water tank 110 is not supplied with water, and guides the user to additionally supply water to the water tank 110. 122 may be provided.

The humidifying means (130) provided in the present invention evaporates or atomizes the water contained in the water tub (120). The humidifying means 130 includes a heater-type humidifying means for heating water to generate steam, an ultrasonic humidifying means for atomizing water through ultrasonic vibration, a natural-type (air blowing) humidifying means for evaporating water by blowing air, The method is not particularly limited, for example, a combined humidification means in which two or more of the means are combined.

For example, as shown in FIG. 1, the humidifier 130 may include a natural humidification system that evaporates water stored in the water tank by blowing air. The humidifying means 130 includes a rotating body 132 having a plurality of rotating disks 132a that come into contact with water contained in the water tub 120 and a rotating body 132b having a rotating shaft 132b A driving means 133 such as a motor for rotating the rotating body 132 and a blowing means 131 for blowing water adhering to the rotating disk 132a to vaporize water.

The sterilizer 170 applied to the humidifier 100 described above includes a pair of electrodes 172 for electrolyzing the water contained in the water tank and receiving a test voltage and a pair of electrodes 172 A slope calculating section 174 for calculating the slope of the test current from the measured magnitude of the test current, and a slope calculating section 174 for calculating the slope of the test current from the slope of the calculated test current A sterilization voltage control unit 175 for obtaining a sterilization voltage for performing the sterilization operation and a power supply unit 171 for applying the obtained sterilization voltage to the pair of electrodes 172. According to an embodiment of the present invention, the amount of total dissolved solids (TDS) may be further stored in advance in the database 176 for each slope of the test current.

Specifically, the power supply unit 171 can apply a test voltage or a sterilization voltage to a pair of electrodes 172, which will be described later, under the control of the sterilization voltage control unit 175. [ The power supply unit 171 may include a buck converter, a boost converter, and the like.

The pair of electrodes 172 can receive the test voltage from the power supply unit 171 and perform electrolysis of the water contained in the water tank. As the electrode 172 described above, for example, a ruthenium oxide catalyst electrode may be used. However, if a sterilizing material (oxidizing mixed material) can be produced by the oxidation-reduction reaction, the material thereof is not particularly limited and a known electrode material Can be used.

On the other hand, the current measuring unit 173 can measure the magnitude of the test current flowing between the pair of electrodes 172 by electrolysis. The magnitude of the measured test current may be transmitted to the tilt calculator 174.

Then, the tilt calculating section 174 can calculate the slope of the test current from the measured magnitude of the test current. The slope of the calculated test current may be transmitted to the sterilizing voltage controller 175.

1 and 2, the test voltage includes a first test voltage Vt1 and a second test voltage Vt2, and the tilt calculating unit 174 includes a first test voltage Vt1, The second test current It2 flowing between the pair of electrodes 172 according to the magnitude of the first test current It1 flowing between the pair of electrodes 172 and the second test voltage Vt2, And the size of the film. The graph of FIG. 2 above shows the test current measured while changing the test voltage stepwise with respect to water having a certain amount of total dissolved solids. If the amount of total dissolved solids is constant, the graph of the test current is always the same .

Here, the second test voltage Vt2 may be a value larger than the first test voltage Vt1 by a predetermined value, and the predetermined value may be a value that can be varied depending on the capacity of the water tank, the amount of total dissolved solids, It should be noted that the application does not limit the specific numerical values. According to an embodiment of the present invention, the test voltages Vt1 and Vt2 may be values between 30% and 50% of the sterilization voltage Vop, but are not necessarily limited to these values.

On the other hand, the sterilizing voltage controller 175 can obtain the sterilization voltage Vop for performing the sterilizing operation from the calculated slope of the test current according to the following equation (1).

[Equation 1]

Vop = a x (It2 - It1) / (Vt2 - Vt1)

Here, Vop is a sterilization voltage, a is a constant, Vt1 is a first test voltage, Vt2 is a second test voltage, It1 is a first test current by a first test voltage, It2 is a second test current Lt; / RTI >

2, from the magnitude of the first test current It1 by the first test voltage Vt1 and the magnitude of the second test current It2 by the second test voltage Vt2, And a sterilization voltage Vop for performing a sterilization operation can be obtained by multiplying a constant a of the obtained slope (a) where the constant a is a value depending on the amount of total dissolved solids . The slope of the test current described above when applying the constant test voltages Vt1 and Vt2 has a unique value according to the amount of the total dissolved solids, as described later with reference to Fig. Therefore, when the slope of the test current is obtained, this value can be multiplied by a constant to obtain the amount of total dissolved solids and an appropriate sterilization voltage (Vop) for sterilizing the water.

3 is a graph showing a test current according to the amount of total dissolved solids. Reference numeral 301 denotes a graph for water having a large amount of total dissolved solids. Reference numeral 302 denotes a total amount of dissolved solids ≪ / RTI >

As shown in FIG. 3, in both cases 301 and 302, as the test voltage increases, the test current also increases non-linearly. It can also be seen that, when a constant test voltage Vt is applied, the test current Ib of a water with a large amount of total dissolved solids is greater than the test current Ia of water with a small total dissolved solids. Each of the graphs 301 and 302 has the same shape according to the amount of total dissolved solids. When the test voltages Vt1 and Vt2 shown in FIG. 2 are constant, the slope of the test current is also constant according to the amount of total dissolved solids Value.

According to another embodiment of the present invention, the sterilizer 170 may further include a database 176 in which the total dissolved solids are pre-stored in advance according to the slope of the test current, and the sterilizing voltage controller 175 controls the database 176 , The amount of total dissolved solids (TDS) contained in the water in the water tank 120 can be obtained from the slope of the test current calculated above.

As described above, according to the embodiment of the present invention, an appropriate sterilization voltage is obtained based on the slope of the test current flowing between the pair of electrodes, and the obtained sterilization voltage is applied to the pair of electrodes, It is possible to maintain the same sterilizing performance by applying an appropriate sterilization voltage without using the sterilizing agent.

4 is a flowchart for explaining a sterilizer control method according to an embodiment of the present invention.

Referring to Figs. 1 to 4, first, a pair of electrodes 172 can be subjected to electrolysis of water contained in a water tank by receiving a test voltage from a power supply unit 171 (S401).

Next, the current measuring unit 173 can measure the magnitude of the test current flowing between the pair of electrodes 172 by electrolysis (S402). The magnitude of the measured test current may be transmitted to the tilt calculator 174.

Next, the tilt calculating section 174 can calculate the slope of the test current from the measured magnitude of the test current (S403). The slope of the calculated test current may be transmitted to the sterilizing voltage controller 175. The process of calculating the slope of the test current is as described above with reference to FIG.

Next, the sterilizing voltage controller 175 can obtain the sterilization voltage Vop for performing the sterilizing operation from the calculated slope of the test current according to the above-described equation (1) (S404).

Finally, in accordance with the control of the sterilizing voltage control unit 175, the power supply unit 171 can apply the sterilization voltage obtained above to the pair of electrodes 172 (S405).

As described above, according to the embodiment of the present invention, an appropriate sterilization voltage is obtained based on the slope of the test current flowing between the pair of electrodes, and the obtained sterilization voltage is applied to the pair of electrodes, It is possible to maintain the same sterilizing performance by applying an appropriate sterilization voltage without using the sterilizing agent.

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be self-evident.

100: humidifier 110: water tank
111: valve 120: water tank
121: projection 122: water level sensor
130: Humidifying means 131: Air blowing means
132 :: Rotating body 132a: Rotating disk
132b: rotating shaft 133: driving means
140: electrolyte supply part 160: discharge pipe
170: Sterilizer 171: Power source
172: a pair of electrodes 173:
174: tilt operation unit 175: sterilization voltage control unit
176: Database

Claims (10)

A pair of electrodes for receiving a test voltage and performing electrolysis of the water contained in the water tank;
A current measuring unit for measuring a magnitude of a test current flowing between the pair of electrodes by the electrolysis;
A slope calculating unit for calculating a slope of the test current from the measured magnitude of the test current;
A sterilization voltage controller for obtaining a sterilization voltage for performing a sterilization operation from a slope of the calculated test current; And
And a power supply unit for applying the obtained sterilization voltage to the pair of electrodes,
Wherein the magnitude of the test voltage is smaller than the magnitude of the sterilization voltage.
The method according to claim 1,
Wherein the test voltage includes a first test voltage and a second test voltage that is greater than the first test voltage by a predetermined voltage,
The tilt calculating unit may calculate,
And a magnitude of a first test current flowing between the pair of electrodes when the first test voltage is applied and a magnitude of a second test current flowing between the pair of electrodes when the second test voltage is applied, .
3. The method of claim 2,
The sterilization voltage may be,
The following equation (1)
Vop = a × (It2-It1) / (Vt2-Vt1)
, Where Vop is a sterilization voltage, a is a constant, Vt1 is a first test voltage, Vt2 is a second test voltage, It1 is a first test current by a first test voltage, It2 is a first test voltage by a second test voltage 2 Sterilizer which is the test current.
The method according to claim 1,
The sterilizer includes:
Further comprising a database in which the total dissolved solids are pre-stored for each slope of the test current,
Wherein the sterilizing voltage control unit refers to the database and obtains an amount of total dissolved solids (TDS) contained in the water of the water tank from a slope of the calculated test current.
The method according to claim 1,
The magnitude of the test voltage,
Is between 30% and 50% of the magnitude of the sterilization voltage.
A first step of applying a test voltage to a pair of electrodes and performing electrolysis of the water contained in the water tank;
A second step of measuring a magnitude of a test current flowing between the pair of electrodes by the electrolysis in a current measuring unit;
A third step of calculating a slope of the test current from a magnitude of the measured test current in a tilt calculating unit;
A fourth step of obtaining a sterilizing voltage for performing a sterilizing operation from the calculated slope of the test current in the sterilizing voltage control unit; And
And a fifth step of applying, at the power supply unit, the obtained sterilization voltage to the pair of electrodes.
The method according to claim 6,
Wherein the test voltage includes a first test voltage and a second test voltage that is greater than the first test voltage by a predetermined voltage,
In the third step,
And a magnitude of a first test current flowing between the pair of electrodes when the first test voltage is applied and a magnitude of a second test current flowing between the pair of electrodes when the second test voltage is applied, Control method.
8. The method of claim 7,
The sterilization voltage may be,
The following equation (1)
Vop = a × (It2-It1) / (Vt2-Vt1)
, Where Vop is a sterilization voltage, a is a constant, Vt1 is a first test voltage, Vt2 is a second test voltage, It1 is a first test current by a first test voltage, It2 is a first test voltage by a second test voltage 2 Test current control method of sterilizer.
The method according to claim 6,
The sterilizer control method includes:
Storing, in the database, total dissolved solids in advance by the slope of the test current; And
Further comprising the step of obtaining, by the sterilization voltage control unit, the amount of total dissolved solids (TDS) contained in the water of the water tank from the calculated slope of the test current with reference to the database .
8. The method of claim 7,
The magnitude of the test voltage,
And a value between 30% and 50% of the magnitude of the sterilization voltage.

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