KR0158946B1 - Heater control method of humidifier - Google Patents

Abstract

The present invention relates to a heater control method of a humidifier to reduce power consumption by controlling the on and off of the heater at the thermal saturation point.

The present invention includes a first process of detecting a water level with a water level detection sensor when the power is supplied and driving the heater when a predetermined water level is reached; A second step of detecting a water temperature after driving the heater, storing the water temperature as the first water temperature, and counting a predetermined time by driving a timer; A third step of turning off the timer, detecting the water temperature, and storing the water temperature as a second water temperature after a predetermined time elapses after the timer is driven; Comparing the result value of subtracting the first water temperature from the stored second water temperature and the set value set to turn off the heater, if the result value is less than or equal to the set value, the fourth step of sequentially turning off the heater for the set time is performed.

Description

Humidifier Heater Control Method

1 is a system configuration of the humidifier to which the present invention is applied.

2 is a flowchart illustrating a heater control process of the humidifier according to the present invention.

3 is a heater control graph for explaining a heater control method in the present invention.

4 is a relationship between the water temperature and the heater driving time in the present invention.

* Explanation of symbols for main parts of the drawings

1: temperature sensor 2: water level detection sensor

3: memory 4: micom

5: heater driving unit 6: heater

The present invention relates to a heater control of the humidifier, and more particularly, to a heater control method of the humidifier to control the on and off of the heater at the thermal saturation point to reduce the power consumption.

In general, a humidifier using a vibration humidification method using a vibration and a heating humidification method using a heater.

Here, the humidifier of the vibration humidification method is generated by a water bottle for storing water in the main body, a water supply pipe for transmitting water stored in the water bottle to the vibrator, a vibrator for generating water vapor by vibrating water transmitted by the water supply pipe, and a vibrator. And a discharge pipe for discharging the guided steam.

The humidifier of the vibration humidification method configured as described above is humidified by supplying the water stored in the water bottle to the vibrator through the water supply pipe, converting the water into water vapor by vibrating the vibrator, and discharging the water to the discharge port.

In addition, the humidifier of the heating humidification method includes a water reservoir for storing water in the main body, a water supply pipe for transmitting the water stored in the water bottle to the vibrator, a heater including a heating plate for heating the water delivered by the water supply pipe to generate water vapor; It consists of a guide tube for guiding the steam generated by the heater to the top, and a discharge port for discharging the guided steam.

The humidifier of the heating humidification method configured as described above generates a heat source by driving a heater, heats the heating plate with the heat source, and boils water guided through the water supply pipe to generate steam.

The generated water vapor is guided upward through the guide tube and humidified by being discharged to the outside through the discharge port.

At this time, the control of the heater is to set the water temperature to turn the heater on, off, detect the water temperature of the humidification tank using a temperature sensor, and when the detected water temperature reaches the temperature to turn on the heater to turn on the heater and turn off the heater When the temperature is reached, the heater is controlled by turning off the heater.

In the general humidifier, the vibrating humidifier using the vibrator has the advantage of high spray volume and low power consumption, while it does not remove the bacteria generated in the water stored in the water container and discharges it as it is not good for health. Is mainly used.

However, the humidifier of the heating humidification method has a problem in that the power loss is large because the heater is turned off only when the temperature of the saturation point is reached and the heater is completely turned off without reaching the saturation point.

That is, the saturation point refers to a state where there is almost no temperature change per unit time. In this case, although the water temperature is little changed even when the heater is driven, the heater is continuously driven until the water temperature reaches the temperature at which the heater is turned off. Will occur.

Therefore, the present invention is to solve the problems of the general heating humidifier as described above, an object of the present invention is to provide a heater control method of the humidifier to reduce the power consumption by controlling the on and off of the heater to the thermal saturation point. .

The method for achieving the object of the present invention, the first step of detecting the water level with a water level detection sensor when the power is supplied to drive the heater when a certain level is reached; A second step of detecting a water temperature after driving the heater, storing the water temperature as the first water temperature, and counting a predetermined time by driving a timer; A third step of turning off the timer, detecting the water temperature, and storing the water temperature as a second water temperature after a predetermined time elapses after the timer is driven; A fourth process is performed to turn off the heater for a set time when the result value is less than or equal to the set value by comparing the result value obtained by subtracting the first water temperature from the stored second water temperature and the set value set to turn off the heater.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

1 is a system configuration diagram of a heating humidifier to which the present invention is applied.

As shown, the heating humidifier to which the present invention is applied stores a temperature sensor 1 for detecting the water temperature in the water tank, a water level detection sensor 2 for detecting the water level in the water tank, and reference set point data for controlling the heater. When the water level detected by the memory 3 and the water level detection sensor 2 reaches a predetermined water level, the driving control of the heater is compared by comparing the water temperature detected by the temperature sensor 1 with a reference set value stored in the memory 3. It consists of the microcomputer 4 which generate | occur | produces a signal, and the heater drive part 5 which drives the heater 6 according to the heater drive control signal output from the microcomputer 4.

2 is a flowchart illustrating a heater control process of the humidifier according to the present invention.

As shown, the heater control process of the humidifier according to the present invention includes a first process (S1-S3) to detect the water level with a water level detection sensor when the power is supplied and to drive the heater when a predetermined water level is reached; A second process (S3-S5) of detecting a water temperature after driving the heater and storing the water temperature as a first water temperature (T1) and counting a predetermined time by driving a timer; A third process (S6 to S8) of turning off the timer, detecting the water temperature, and storing the water temperature as the second water temperature T2 when a predetermined time elapses after the timer is driven; Compare the resultant value T2-T1 obtained by subtracting the first water temperature T1 from the stored second water temperature T2 with the set value set to turn off the heater, and when the result value is smaller than or equal to the set value, the heater is set for the set time. The fourth process (S9, S10) to turn off.

Referring to the drawings 1 to 4 attached to the heater control method of the humidifier according to the present invention with reference to the system of the humidifier to which the present invention configured as described above is as follows.

First, when the power is supplied (S1), the water level detection sensor 2 detects the water level in the tank, and when the detected water level reaches a certain level, it informs the microcomputer 4 that the water level has reached a certain level (S2). ).

As described above, the microcomputer 4 generates a control signal to the heater driver 5 to drive the heater 6 when the water level reaches a predetermined level (S3), and simultaneously detects the water temperature by the temperature sensor 1. do.

That is, the temperature sensor 1 detects the water temperature in the water tank and applies it to the microcomputer 4, and the heater driving unit 5 drives the heater 6 in accordance with the applied control signal.

When the heater is driven in this way, the water temperature in the water tank increases gradually, and the microcomputer 4 stores the water temperature in the initial water tank detected as described above as the first water temperature T1 and drives the internal timer (S4 and S5). .

Then, the counting value is searched and the driven timer is turned off when the set time elapses (S6 and S7).

After that, the temperature sensor 1 detects the water temperature in the water tank again and stores the detected water temperature as the second water temperature T2 (S8).

In addition, the first water temperature T1 is subtracted from the stored second water temperature T2, and the resultant values T2-T1 are compared with a reference set value for turning off the heater according to a preset time in the memory 3. It is determined whether or not the control of (6) is performed (S9).

When the result of the determination (T2-T1) is smaller than or equal to the reference set value, it is determined that the water temperature has reached the saturation point, and the heater 6 is turned off for about 10 seconds through the heater driver 5 (S10). ).

That is, as shown in FIG. 3, the water temperature gradually increases as time passes when the heater is driven, and reaches a saturation point after a certain time xt.

When the saturation point is reached in this way, the thermal temperature does not change at any temperature (see FIG. 4) due to thermal saturation even if the heater continues to be driven.

Therefore, when the heater is turned off at the saturation point, the water temperature can obtain the same water temperature as before, and the power is relatively reduced since the heater is turned off faster than the existing off point.

In other words, turn off the heater at the moment of thermal saturation of the water temperature (hold the temperature change over time), maintain the holding time (for 10 seconds), then detect the water temperature and lower the temperature below the set temperature for driving the heater. Will be driven.

As described above, according to the present invention, when the heater is controlled by using the water temperature saturation point, the heater is driven in a relatively short time than the existing heater driving time, and the water temperature can be maintained as it is. Can be reduced.

Claims (1)

A first process (S1-S3) of detecting a water level with a water level detection sensor when the power is supplied and driving the heater when the water level is reached; A second process (S3-S5) of detecting a water temperature after driving the heater and storing the water temperature as a first water temperature (T1) and counting a predetermined time by driving a timer; A third process (S6 to S8) of turning off the timer, detecting the water temperature, and storing the water temperature as the second water temperature T2 when a predetermined time elapses after the timer is driven; Compare the resultant value T2-T1 obtained by subtracting the first water temperature T1 from the stored second water temperature T2 with the set value set to turn off the heater, and when the result value is smaller than or equal to the set value, the heater is set for the set time. Method for controlling the heater of the humidifier, characterized in that consisting of a fourth step (S9, S10) to turn off.