KR19990001362A - How to decontaminate the humidifier - Google Patents

Abstract

The present invention is a humidifier to remove the vibrator caused by the water staying in the humidification tank for a long time and the foreign matter in the humidification tank and bacteria derived by the foreign material by heating the heater for a predetermined time to make the water in the humidification tank to a certain temperature. A method of removing pollution of a humidifier comprising: a first process of determining a low water level and a second process of detecting a contamination state of a humidifier and a vibrator, in a humidifier contamination alert method that alerts the inside of a humidifier or a vibrator when it occurs. And a third process of removing the contamination by operating the heater until the temperature of the water in the humidifying tank reaches a predetermined temperature when the contamination state is detected in the second process instead of the water-repellent state in the first process. It relates to a decontamination method of the humidifier.

Description

How to decontaminate the humidifier.

The present invention relates to a humidifier, and in particular, by heating the heater for a predetermined time to the vibrator and foreign matter in the humidifier and the foreign substances generated by the water stays in the humidification tank for a long time to make the water of the humidification tank to a certain temperature It relates to a decontamination method of the humidifier that can be removed.

In general, the humidifier has a humidifier as an essential device to increase the humidity in the room by evaporating the water to the humidifier, and known humidifiers for evaporating water include heaters and ultrasonic vibrators.

As is well known, the heater converts electrical energy into thermal energy to supply heat to the water of the humidifier to generate mist, and in the case of an ultrasonic vibrator, to generate mist by converting the supplied electrical energy into a form of ultrasonic vibration energy. do.

Referring to FIG. 1 attached to the schematic configuration of the humidifier operating as described above, a key input unit 100 for inputting a desired humidity setting or a humidification mode in a predetermined key input format, and humidity sensing for detecting a current humidity The user's request input from the key input unit 100 based on the input unit 200, the water level detection unit 300 for detecting the level of the humidification tank, and the data output from the detection unit (200, 300) A microprocessor 700 for controlling various operations of the humidifier by a signal, a humidifying circuit unit 500 for driving a heater and an ultrasonic vibrator, each of which is a humidifier, and a microprocessor 700 of the microprocessor 700. A display unit 600 for displaying an option for a humidification mode input by the user through the key input unit 100, a desired humidity setting error, an operation state of the system, etc. And a fan motor drive unit 400 for driving a motor that turns a fan that emits mist (humidity) produced by the humidifier.

The humidification mode according to the mist amount of the mist in the humidifier is often a strong, medium, weak mode, in the case of the ultrasonic humidifier by changing the current supplied to the ultrasonic vibrator (for example, in the strong mode 750 milliamps (mA), 650 mA for medium mode and 550 mA for weak mode). Therefore, the user selects the humidification mode according to the spray amount of the mist according to the preference.

When water is stagnated for a long time in the humidifier in the humidifier, foreign matters in the moss are caught in the humidifier and the vibrator. In this case, even if the vibrator receives the same current, the vibrator corresponds to the humidification corresponding to the supplied current. You do not have the quantity. As such, when the efficiency of the vibrator is reduced, the reliability of the operation of the humidifier of the user is lowered. The occurrence of such a problem occurs because the user does not clean the vibrator, which causes unnecessary AS requests.

And, as described above, if the foreign substance is stuck in the vibrator, the foreign substance acts as a nutrient of the bacteria, and when the humidifier is used later, the bacteria are discharged to the space to be humidified through the discharge hole together with the mist and the health of the user. There was a problem that hurts.

An object of the present invention for removing the above problems is to heat the heater of the vibrator and foreign matter in the humidification tank and bacteria generated by the water stay in the humidification tank for a long time so that the water in the humidification tank to a certain temperature. It is to provide a decontamination method of the humidifier that can be removed by.

1 is a block diagram showing the configuration of a general humidifier.

Figure 2 is a block diagram showing a schematic configuration of a humidifier for implementing the decontamination method of the humidifier according to the present invention.

3 is an operation flowchart for explaining a decontamination method of the humidifier according to the present invention.

Explanation of symbols for the main parts of the drawings

100: key input unit 200: humidity detection unit

300: water level detection unit 400: fan motor drive unit

500: humidification circuit unit 520: heater

540: vibrator 600: display unit

700: microprocessor

A characteristic of the present invention for achieving the above object is in the contamination alarm method of the humidifier for alarming the occurrence of the inside of the humidifier or the vibrator, the first process of determining the water and the state, and detecting the contamination state of the humidifier and the vibrator A second step and a third step of removing contamination by operating a heater until the temperature of the water in the humidification tank reaches a predetermined temperature when the contamination state is detected in the second step instead of the water-repellent state in the first step. It is to provide a method for decontamination of the humidifier, characterized in that.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a schematic configuration diagram of a humidifier implementing the sterilization method of the humidifier according to the present invention.

The humidifier includes a key input unit 100 for inputting a desired humidity setting or a humidification mode in a predetermined key input format, a humidity detector 200 for detecting a current humidity, and a water level detector 300 for detecting a water level of the humidifier. And a microprocessor 700 that receives data output from the detectors 200 and 300 and controls various operations of the humidifier according to a user's request signal input from the key input unit 100 based on the received data. A humidifier circuit unit 500 for driving the heater 520 and the ultrasonic vibrator 540, each of which is a microprocessor 700, and a temperature sensor that detects a temperature of the humidification tank under control of the microprocessor 700. 800 and an option or setting of a desired humidity for a humidification mode input by the user through the key input unit 100 under the control of the microprocessor 700 and an operating state of the system It consists of a display with a display section 600, and a fan to flush the mist (moisture) generated by the humidifier (fan) and the fan motor driver 400 for driving the motor to turn the fan.

3 is a flowchart illustrating a sterilization method of the humidifier according to the present invention.

The microprocessor senses the state of the low water switch (S111), and when the low water switch is ON, operates a display unit to warn the low water state (S112), and operates a timer to count the low water state maintaining time (S113). do.

The microprocessor determines in step S114 whether the time counted by the timer in the counting step S113 has elapsed a predetermined time (the low water state holding time T1 which starts contamination of the humidifier and the vibrator).

If the time counted by the timer in the determination step (S114) is less than the predetermined time T1, the process returns to the low water switch determination step (S111), and the time counted in the counting step (S113) If it is greater than the predetermined time T1, the controller 100 operates in the pollution warning mode (S115).

The microprocessor performing the pollution warning mode (S115) returns the operation of the humidifier to the low water switch determination step (S111) to determine whether the low water switch is on, that is, the power of the humidifier is on if it is not in the low water state ( S116) and if the power of the humidifier is not on, the process switches to the timer counting step S113.

When the power is turned on in the power state determination step S116, the microprocessor determines whether there is a pollution indication signal (S117), and when there is no pollution indication signal in the determination step S117, the humidifier operates in a normal humidification mode (S200). Let's do it.

If there is a contamination indication signal in the contamination display determination step (S117), the microprocessor turns off the vibrator and operates the heater and the temperature sensor (S118 to S120).

The temperature sensor detects the temperature of the water contained in the humidification tank, and the microprocessor detects the temperature in the humidification tank based on the temperature in the humidification tank detected by the temperature sensor at a predetermined temperature (humidification tank and vibrator). Temperature (X) in the humidification tank to remove foreign substances and bacteria generated is compared (S121).

If the temperature in the humidification tank in the comparison step (S121) is less than the predetermined predetermined error (X), the microprocessor returns the operation step of the humidifier to the low water switch determination step (S111) until there is water in the humidification tank. The heater is continuously operated, and if the detected temperature of the humidification tank is greater than the predetermined predetermined temperature (X), the temperature sensor and the heater are stopped (S122 to S123), and the operation of the humidifier is returned to the humidification mode operation step (S200). Let's do it.

Therefore, according to the present invention, the foreign material generated in the humidification tank and the vibrator and the bacteria derived by the foreign matter are removed by heating the water in the humidification tank to a predetermined temperature.

The present invention operated as described above is to remove the foreign substances generated in the humidification tank and the vibrator, and the bacteria derived by the foreign substances by heating the water of the humidification tank to a certain temperature, so that the The deterioration of the characteristics of the vibrator does not occur, so that the failure of the mist part state does not occur, thereby increasing the reliability of the user's product. In addition, since the generation of bacteria due to the contamination of the humidifier is suppressed and the bacteria generated in the humidifier due to the contamination of the humidifier are removed by the heating of the heater, the disease caused by the conventional bacteria does not occur and thus the user can use the humidifier. Satisfaction is improved.

Claims (1)

In the humidity alarm method of the humidifier that alerts the occurrence of the inside of the humidifier or vibrator, A first process of determining a low water level; A second step of detecting a contamination state of the humidification tank and the vibrator; And a third step of removing contaminants by operating a heater until the temperature of the water in the humidification tank reaches a predetermined temperature when the contamination state is detected in the second step rather than the low water state in the first step. Decontamination method.