KR102235128B1 - Sterilizer having protecting function and method of protecting sterilizer - Google Patents

Abstract

A sterilizer with a protective function and a sterilizer protection method are provided. The sterilizer with a protection function includes a pair of electrodes that perform electrolysis of water contained in a water tank by applying a test voltage, and a current measuring unit that measures the magnitude of a test current flowing between the pair of electrodes by electrolysis. , Based on the magnitude of the measured test current, a sterilizer protection unit that determines whether to apply a predetermined sterilization voltage for performing a sterilization operation, and applying or not applying a sterilization voltage to the pair of electrodes according to the determination result. Including a power supply unit, by setting the test voltage to a value smaller than the sterilization voltage, it is possible to prevent the sterilizer from being damaged or the electrode from being burned without using an expensive TDS meter.

Description

Sterilizer with protection function and method of protection of sterilizer {STERILIZER HAVING PROTECTING FUNCTION AND METHOD OF PROTECTING STERILIZER}

This application relates to the protection of a sterilizer used in a humidifier, an air cleaner, or the like.

In general, humidifiers that artificially generate and spray moisture to increase indoor humidity include heated humidifiers, which are a method of naturally spraying water vapor generated by heating water stored in a water tank to a predetermined temperature, and a water tank. It is divided into an ultrasonic humidifier, which is a method of spraying fine water particles into the room by ultrasonically vibrating the water stored in the room, and a hybrid humidifier equipped with a heated humidification method and an ultrasonic humidification method at the same time. Recently, after immersing the moisture absorbing member in the water tank, the water that has moved to the top of the moisture absorbing member is vaporized by blowing, or the water adhered to the disk surface is blown by rotating a plurality of disks while immersed in the water tank. Natural type (blowing type) humidifiers using a method such as vaporizing are also used.

Since water is stored in the tank for a long period of time, such a humidifier is extremely harmful to the human body, especially the patient or infant, because the water is sprayed indoors without sterilization. There is a problem. In particular, among the humidifiers, ultrasonic humidifiers or natural (blowing type) humidifiers generate moisture without increasing the temperature of water, so there is no sterilization effect by heat, so there is a problem that contamination by bacteria is more serious than the heating type.

In order to prevent this problem, a humidifier equipped with a sterilizer has been devised in various forms, one of which is to generate a sterilizing material (oxidizing mixture) by applying power to a small electrode plated with platinum, or applying a diaphragm and an electrode. Therefore, the pH is lower than that of general water to control bacteria.

In the case of the method using the electrode described above, even if the same voltage is applied, the sterilization performance varies depending on the amount of total dissolved solids (TDS) dissolved in water. In other words, if the amount of total dissolved solids is high, even if a small voltage is applied, many sterilizing substances (oxidative mixtures) are produced, which may cause the sterilizer to malfunction due to scale, etc., and the sterilizer may be damaged due to a high current flowing suddenly. There is a problem that can be.

On the other hand, an electrode that generates a sterilizing substance (oxidizing mixture) by applying power must be sufficiently immersed in water contained in a water tank. However, if a portion of the electrode is exposed to the outside because sufficient water is not supplied to the water tank, a sufficient amount of sterilizing material (oxidizing mixture) is not produced when voltage is applied. Therefore, there is a problem that not only the electrode is burned but also the performance of the electrode is deteriorated.

Korean Patent 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 a sterilizer protection method having a protective function capable of preventing damage to the sterilizer or burnout of an electrode.

According to a first embodiment of the present invention, a pair of electrodes for performing electrolysis of water accommodated in a water tank by receiving a test voltage; A current measuring unit measuring the magnitude of a test current flowing between the pair of electrodes by the electrolysis; A sterilizer protection unit that determines whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the measured magnitude of the test current; And a power supply for applying or not applying the sterilization voltage to the pair of electrodes according to the determination result, wherein the test voltage has a value smaller than the sterilization voltage.

According to an embodiment of the present invention, the sterilizer protection unit includes the sterilization voltage when the magnitude of the measured test current is less than a preset first current or exceeds a second current that is larger than the first current by a preset size. It can be determined that is not applied.

According to an embodiment of the present invention, the sterilizer protection device further includes an average value calculating unit that calculates an average value of the magnitudes of at least two or more test currents measured each time the sterilization operation is performed, and the sterilizer protection unit, When the magnitude of the measured test current exceeds a value within a predetermined range above and below the average value, it may be determined that the sterilization voltage is not applied.

According to an embodiment of the present invention, the test voltage includes a first test voltage and a second test voltage that is greater than the first test voltage by a preset voltage, and the sterilizer protection unit is configured by the first test voltage. The slope of the test current is obtained from the magnitude of the first test current and the magnitude of the second test current by the second test voltage, and the total amount of dissolved solids is obtained from the obtained slope of the test current. If it is out of a preset range, it may be determined that the sterilization voltage is not applied.

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 embodiment of the present invention, a first step of performing electrolysis of water contained in a water tank by receiving a test voltage from a pair of electrodes; A second step of measuring a magnitude of a test current flowing between the pair of electrodes by the electrolysis by the current measuring unit; A third step of determining, by the sterilizer protection unit, whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the measured magnitude of the test current; And a fourth step of applying or not applying the sterilization voltage to the pair of electrodes according to the determination result, in the power supply unit, wherein the test voltage is a sterilizer protection method having a value smaller than the sterilization voltage. to provide.

According to an embodiment of the present invention, the third step is, in the sterilizer protection unit, a second current having a magnitude of the measured test current less than a preset first current or greater than the first current by a preset size. If it exceeds, it may include determining that the sterilization voltage is not applied.

According to an embodiment of the present invention, the sterilizer protection method includes: calculating, in an average value calculating unit, an average value of the magnitudes of at least two or more test currents measured each time the sterilization operation is performed; The sterilizer protection unit may further include determining that the sterilization voltage is not applied when the magnitude of the measured test current exceeds a value within a predetermined range above and below the average value.

According to an embodiment of the present invention, the test voltage includes a first test voltage and a second test voltage that is greater than the first test voltage by a preset voltage, and the sterilizer protection method includes, in the sterilizer protection unit, Obtaining a slope of the test current from the magnitude of the first test current by the first test voltage and the magnitude of the second test current by the second test voltage; In the sterilizer protection unit, obtaining a total amount of dissolved solids from the obtained slope of the test current; And determining, by the sterilizer protection unit, that the sterilization voltage is not applied when the calculated total dissolved solids are out of a preset range.

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 an embodiment of the present invention, after applying a test voltage having a value smaller than the sterilization voltage to the pair of electrodes, when the magnitude of the test current flowing between the pair of electrodes is out of a preset range, the test voltage is higher than the test voltage. By not applying a sterilization voltage having a relatively large value, it is possible to prevent the sterilizer from being damaged or the electrode from being burned.

In addition, by indirectly calculating the amount of total dissolved solids based on the slope of the test current, and not applying a sterilization voltage even when the indirectly calculated amount of total dissolved solids is out of a preset range, expensive TDS meter is not used. It is possible to prevent the sterilizer from being damaged or the electrode from being burned out.

1 is an overall configuration diagram of a humidifier including a sterilizer having a protective function according to an embodiment of the present invention.
2 is a view for explaining a process of determining whether to apply a sterilization voltage based on a measured test current according to an embodiment of the present invention.
3 is a view for explaining a process of obtaining a slope of a test current and a process of determining whether to apply a sterilization voltage based on the obtained slope of the test current according to an embodiment of the present invention.
4 is a flowchart illustrating a method of protecting a sterilizer according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Shapes and sizes of elements in the drawings may be exaggerated for clearer explanation, and elements indicated by the same reference numerals in the drawings are the same elements.

1 is an overall configuration diagram of a humidifier including a sterilizer having a protective function according to an embodiment of the present invention. Meanwhile, FIG. 2 is a view for explaining a process of determining whether to apply a sterilization voltage based on the magnitude of the measured test current according to an embodiment of the present invention. A diagram for explaining a process of obtaining a slope of a test current and a process of determining whether to apply a sterilization voltage based on the obtained slope of the test current.

Hereinafter, a sterilizer having a protective function according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3.

First, a humidifier to which a sterilizer having a protective function according to an embodiment of the present invention is applied will be described in detail with reference to FIG. 1. Hereinafter, the subject to which the sterilizer having a protective function according to an embodiment of the present invention is applied is limited to the humidifier 100, but this is only to aid understanding of the invention, and in addition to the humidifier 100, a bidet and dehumidification Of course, it can be applied to various products including water tanks or water tanks that contain water such as purifiers, water purifiers, and sterilizers.

The humidifier 100 includes a water tank 110 for accommodating water, an electrolyte supply unit 140 connected through the upper end of the water tank 110 and the discharge pipe 160, and an electrolyte from the water tank 110. A water tank 120 receiving water, a humidifying means 130 for evaporating or atomizing water contained in the water tank 120, and water provided inside the water tank 120 and containing an electrolyte according to power supply. It may be configured to include a sterilizer 170 for generating a sterilizing material from.

The water tank 110 accommodates water filled to a predetermined level by a user, and water contained therein is moved toward the tank 120 due to a change in the water level of the water tank 120. Specifically, when the water tank 110 is mounted in the water tank 120, the valve 111 located at the lower end (based on the mounting state) of the water tank 110 is opened by the protrusion 121 provided in the water tank 120. , When the water level of the water tank 120 goes down to a certain level, the water accommodated in the water tank 110 moves toward the water tank 120 due to a pressure difference inside and outside the water tank 110. The opening of the valve 111 of the water tank 110 may be implemented by a fixed protrusion 121, as shown in FIG. 1, but unlike this, a sensor that detects the water replenishment level of the water tank 120 It is also possible to open the valve 111 by driving the protrusion upward by a separate driving means when it is detected through (not shown) that water replenishment is necessary.

In addition, an electrolyte supply unit 140 is connected to an upper end of the water tank 110 via a discharge pipe 160, and the electrolyte supply unit 140 contacts the water contained in the water tank 110 to form a solid electrolyte contained therein. After dissolving in a certain concentration, the dissolved electrolyte is supplied to the water tank 110 according to the 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 is supplied with water containing an electrolyte from the water tank 110 as described above. A sterilizer 170 is mounted inside the water tank 120. When power is applied to the pair of electrodes 172 from the power supply unit 171, the sterilizer 170 generates a sterilizing material (oxidative mixture, MO) by an oxidation-reduction reaction between the positive electrode and the negative electrode. Thus, the water inside the water tank 120 is sterilized.

In addition, the water tank 120 detects when water is no longer supplied from the water tank 110 on one side, and the low water level detection sensor ( 122).

The humidification means 130 provided in the present invention evaporates or atomizes the water contained in the water tank 120. Such humidification means 130 is a heater-type humidifying means for generating steam by heating water, an ultrasonic humidifying means for atomizing water through ultrasonic vibration, a natural (blowing type) humidifying means for evaporating water by blowing, the above-described humidification. The method is not particularly limited, such as a complex humidification means in which two or more of the means are installed in combination.

As an example, as shown in FIG. 1, the humidifying means 130 may have a natural humidification method in which water contained in a water tank is evaporated by blowing air. As an example of the natural humidification method, the humidifying means 130 includes a rotating body 132 having a plurality of rotating disks 132a in contact with water contained in the water tank 120, and a rotating shaft 132b of the rotating body 132 ) And a driving means 133, such as a motor that rotates the rotating body 132, and a blowing means 131 for blowing air to vaporize water attached to the rotating disk 132a.

On the other hand, the sterilizer 170 having a protective function applied to the humidifier 100 described above, a pair of electrodes 172 for performing electrolysis of water accommodated in the water tank by receiving a test voltage, and one by electrolysis. A current measurement unit 173 that measures the magnitude of the test current flowing between the pair of electrodes, and the sterilizer protection that determines whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the magnitude of the measured test current. It may include a unit 174 and a power supply unit 171 for applying or not applying the sterilization voltage to the pair of electrodes according to the determination result. Depending on the embodiment, the average value calculating unit 175 for storing the magnitude of at least two test currents measured each time the sterilization operation is performed and calculating an average value thereof, and the total amount of dissolved solids for each slope of the test current. The stored database 176 may be further included.

Specifically, the pair of electrodes 172 may receive a test voltage from the power supply unit 171 to perform electrolysis of water contained in the water tank. For the electrode 172 described above, as an example, a ruthenium oxide catalyst electrode may be used, but the material is not particularly limited as long as it can generate a sterilizing material (oxidative mixture material) by an oxidation-reduction reaction, and a known electrode material is used. Can be used.

In addition, the current measuring unit 173 may measure the magnitude of the current flowing between the pair of electrodes 172 by electrolysis. The magnitude of the measured current may be transmitted to the sterilizer protection unit 174.

The sterilizer protection unit 174 may determine whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the measured test current.

According to an embodiment, as shown in FIGS. 1 and 2, after applying the test voltage Vt, the magnitude of the test current It flowing between the pair of electrodes 172 is within a certain range (first In the case of a value between the reference value Ir1 and the second reference value Ir2), it may be determined that a predetermined sterilization voltage Vop for performing a sterilization operation is applied to the pair of electrodes 172. Accordingly, the power supply unit 171 may apply a predetermined sterilization voltage Vop to the pair of electrodes 172.

However, the magnitude of the current It flowing between the pair of electrodes 172 is less than the first reference value Ir1 or the magnitude of the test current It flowing between the pair of electrodes 172 is the second reference value ( When Ir2) is exceeded, the sterilizer protection unit 174 prevents the sterilizer 170 from being damaged due to an overcurrent by not applying a voltage to the pair of electrodes 172.

The second reference value Ir2 may be a value larger than the first reference value Ir1 by a preset value, wherein the preset value is a value that may vary depending on the capacity of the tank, the amount of total dissolved solids, etc. It should be noted that it is not limited to. Further, according to an embodiment of the present invention, the test voltage Vt may be a value between 30% and 50% of the sterilization voltage Vop, but is not limited thereto.

On the other hand, according to another embodiment of the present invention, the sterilizer 170 having a protection function stores the magnitudes of at least two or more test currents measured each time a sterilization operation is performed, and an average value calculation unit that calculates an average value thereof. It may further include (175).

In this case, the sterilizer protection unit 174 may determine that the sterilization voltage is not applied when the magnitude of the measured test current It exceeds a value within a predetermined range above and below the average value. That is, water of the same type (that is, TDS having the same value) is generally accommodated in the water tank 120, and the above-described sterilization operation can be performed at a constant cycle. When the average value of is obtained and the test current (It) measured later is out of a value within a predetermined range of the upper and lower values based on this average value, it may be determined that the sterilization voltage is not applied.

In addition, according to another embodiment of the present invention, the sterilizer 170 having a protective function may further include a database 176 storing in advance the amount of total dissolved solids corresponding to each slope of the current, which will be described later, In this case, the sterilizer protection unit 174 indirectly obtains the amount of total dissolved solids contained in water, and then does not apply the sterilization voltage even when the indirectly obtained amount of total dissolved solids is out of a preset range. It is possible to prevent the sterilizer from being damaged or the electrode from being burned due to the sudden high current without using the TDS meter.

Specifically, as shown in Figures 1 and 3, the sterilizer protection unit 174, after applying the first test voltage (Vt1) through the power supply unit 171, thereby obtaining a first test current (It1). I can. Thereafter, after the second test voltage Vt2 is applied, a second test current It2 may be obtained. Next, the slope of the test current may be obtained 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.

Thereafter, the sterilizer protection unit 174, with reference to the database 176, obtains the total amount of dissolved solids from the slope of the test current obtained above, and when the calculated amount of the total dissolved solids is out of a preset range, the sterilization voltage (Vop ) Can be judged as not being approved. That is, since the slope of the current obtained from the same test voltages Vt1 and Vt2 has a value unique to the total amount of dissolved solids, this point is used.

As described above, according to an embodiment of the present invention, after applying a test voltage having a value smaller than the sterilization voltage to the pair of electrodes, the magnitude of the test current flowing between the pair of electrodes is out of a preset range. In this case, by not applying the sterilization voltage, it is possible to prevent the sterilizer from being damaged or the electrode from being burned.

In addition, by indirectly calculating the amount of total dissolved solids based on the slope of the test current, and not applying a sterilization voltage even when the indirectly calculated amount of total dissolved solids is out of a preset range, expensive TDS meter is not used. It is possible to prevent the sterilizer from being damaged or the electrode from being burned out.

Meanwhile, FIG. 4 is a flowchart illustrating a method of protecting a sterilizer according to an embodiment of the present invention.

Referring to FIGS. 1 to 4, first, a pair of electrodes 172 may receive a test voltage from the power supply unit 171 to perform electrolysis of water contained in a water tank (S401).

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

Next, the sterilizer protection unit 174 may determine whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the measured test current (S403).

According to an embodiment of the present invention, as shown in FIGS. 1 and 2, the sterilizer protection unit 174 has a first reference value Ir1 in the magnitude of the current It flowing between the pair of electrodes 172. ) Or when the magnitude of the current It flowing between the pair of electrodes 172 exceeds the second reference value Ir2, the sterilizer protection unit 174 applies a voltage to the pair of electrodes 172 By not applying, it is possible to prevent the sterilizer 170 from being damaged due to overcurrent.

According to another embodiment of the present invention, the sterilizer protection unit 174 may determine that the sterilization voltage is not applied when the magnitude of the measured test current It is out of a value within a predetermined range above and below the average value. have.

In addition, according to another embodiment of the present invention, the sterilizer protection unit 174 indirectly obtains the amount of total dissolved solids contained in water, and then indirectly obtains the amount of total dissolved solids out of a preset range. Also, by not applying the sterilization voltage, it is possible to prevent the sterilizer from being damaged or the electrode from being burned due to a sudden high current without using an expensive TDS meter.

Finally, the power supply unit 171 may or may not apply the sterilization voltage Vop to the pair of electrodes 172 according to the determination result of the sterilizer protection unit 174 (S404).

As described above, according to an embodiment of the present invention, after applying a test voltage having a value smaller than the sterilization voltage to the pair of electrodes, the magnitude of the test current flowing between the pair of electrodes is out of a preset range. In this case, by not applying the sterilization voltage having a relatively larger value than the test voltage, it is possible to prevent the sterilizer from being damaged or the electrode from being burned.

In addition, by indirectly calculating the amount of total dissolved solids based on the slope of the test current, and not applying a sterilization voltage even when the indirectly calculated amount of total dissolved solids is out of a preset range, expensive TDS meter is not used. It is possible to prevent the sterilizer from being damaged or the electrode from being burned out.

The present invention is not limited by the above-described embodiments and the accompanying drawings. It is intended to limit the scope of the rights by the appended claims, and that various types of substitutions, modifications and changes can be made without departing from the technical spirit of the present invention described in the claims. It will be self-evident.

100: humidifier 110: water tank
111: valve 120: water tank
121: protrusion 122: dry water level detection sensor
130: humidifying means 131: blowing means
132:: rotating body 132a: rotating disk
132b: rotation shaft 133: drive means
140: electrolyte supply unit 160: discharge pipe
170: sterilizer 171: power supply
172: a pair of electrodes 173: current measuring unit
174: sterilizer protection unit 175: average value calculation unit
176: database

Claims (10)

delete delete A pair of electrodes that receive a test voltage and perform electrolysis of water accommodated in the water tank;
A current measuring unit measuring the magnitude of a test current flowing between the pair of electrodes by the electrolysis;
A sterilizer protection unit that determines whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the measured magnitude of the test current; And
In accordance with the determination result, including a power supply for applying or not applying the sterilization voltage to the pair of electrodes,
The magnitude of the test voltage is a value smaller than the magnitude of the sterilization voltage,
The sterilizer protection unit includes an average value calculating unit that calculates an average value of the magnitudes of at least two or more test currents measured each time the sterilization operation is performed,
The sterilizer protection unit determines that the sterilization voltage is not applied when the magnitude of the measured test current exceeds a value within a predetermined range above and below the average value.
Sterilizer with protective function. A pair of electrodes that receive a test voltage and perform electrolysis of water accommodated in the water tank;
A current measuring unit measuring the magnitude of a test current flowing between the pair of electrodes by the electrolysis;
A sterilizer protection unit that determines whether to apply a predetermined sterilization voltage for performing a sterilization operation based on the measured magnitude of the test current; And
In accordance with the determination result, including a power supply for applying or not applying the sterilization voltage to the pair of electrodes,
The magnitude of the test voltage is a value smaller than the magnitude of the sterilization voltage,
The test voltage includes a first test voltage and a second test voltage that is larger than the first test voltage by a preset voltage,
The sterilizer protection unit obtains a slope of the test current from the magnitude of the first test current by the first test voltage and the magnitude of the second test current by the second test voltage,
The sterilizer protection unit determines that the sterilization voltage is not applied when the total amount of dissolved solids that can be obtained from the slope of the test current is out of a preset range.
Sterilizer with protective function.
The method according to any one of claims 3 and 4,
The magnitude of the test voltage is,
A sterilizer having a protection function that is between 30% and 50% of the size of the sterilization voltage. delete delete Performing electrolysis of water accommodated in a water tank by receiving a test voltage from a pair of electrodes;
Measuring the magnitude of the test current flowing between the pair of electrodes by the electrolysis;
Determining whether to apply a sterilization voltage greater than the test voltage for performing a sterilization operation based on the measured magnitude of the test current;
Applying or not applying the sterilizing voltage to the pair of electrodes according to the determination result; And
Whenever the sterilization operation is performed, an average value of the magnitudes of at least two test currents measured is calculated, and when the magnitude of the measured test current is out of a value within a predetermined range above and below the average value, the sterilization voltage is applied. Including the step of determining that it does not
How to protect the sterilizer. Performing electrolysis of water accommodated in a water tank by receiving a test voltage from a pair of electrodes;
Measuring the magnitude of the test current flowing between the pair of electrodes by the electrolysis;
Determining whether to apply a sterilization voltage greater than the test voltage for performing a sterilization operation based on the measured magnitude of the test current; And
According to the determination result, a sterilizer protection method comprising the step of applying or not applying the sterilization voltage to the pair of electrodes,
The test voltage includes a first test voltage and a second test voltage that is larger than the first test voltage by a preset voltage,
The sterilizer protection method,
The total amount of dissolved solids that can be obtained from the slope of the test current and the slope of the test current from the magnitude of the first test current by the first test voltage and the magnitude of the second test current by the second test voltage The sterilizer protection method further comprising the step of determining that the sterilization voltage is not applied when the sterilization voltage is out of the preset range. The method according to any one of claims 8 and 9,
The magnitude of the test voltage is,
A method for protecting a sterilizer, which is a value between 30% and 50% of the magnitude of the sterilization voltage.

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