KR0179609B1 - Humidifier vibrating device temperature supporting device and its operating control method - Google Patents

Abstract

The present invention relates to a method for controlling the operation of a vibrator temperature maintaining device of the humidifier of the present invention. In the related art, when a vibrator is operated in a strong mode and a fan is operated in a weak mode in order to increase the temperature of atomization (refers to the room temperature), The temperature of the water to be supplied was increased and the vibrator efficiency was lowered. According to the present invention, when the operation mode of the humidifier is set to the atomization temperature rising mode, the oscillator and the heater are operated in the strong mode, the fan is operated in the weak mode, and the DC motor is operated to supply the vibrator so that the vibrator can maintain the ideal temperature, It is possible to increase the temperature of the atomization discharged while maximizing the efficiency of the vibrator.

Description

Humidifier oscillator temperature maintaining device and its operation control method

1 is a block diagram according to an embodiment of the present invention.

2 is a block diagram of a humidifier according to an embodiment of the present invention.

3 is an enlarged view illustrating main parts of FIG. 2.

4 is a flowchart illustrating an operating state according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: temperature sensor 20: humidity sensor

30 float switch 40 key input unit

50: microprocessor 60: heater driving unit

70: oscillator drive unit 80: fan drive unit

90: light emitting diode driver 100: buzzer driver

110: DC motor drive unit 120: main body

130: water tank 140: humidification tank

150: vibrator 160: chamber

170: through-hole 180: DC motor

190: transfer pipe 200: heating tank

210: check valve 220: diaphragm

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidifier, and more particularly, to an oscillator temperature maintaining apparatus and an operation control method of a humidifier in which an ambient temperature of a vibrator converting water into an atomized state can maintain an ideal operating temperature regardless of the strength (operating environment) of the humidifier. It is about.

That is, the present invention controls the vibrator and heater to operate in a strong mode and the fan to operate in a weak mode when the operating mode of the humidifier is set to the atomization temperature rising mode, the temperature of the vibrator so that the vibrator can operate at the ideal temperature It relates to a vibrator temperature maintaining device of the humidifier and its operation control method to adjust the.

In general, in order to maintain a constant humidity in an enclosed indoor space such as a home or an office, a wet towel or laundry is hanged or watered on. In particular, homes and offices operate air-conditioning facilities to keep the temperature fluctuating according to the season. Therefore, the humidity in the indoor space is lower than the external humidity, which stimulates people's respiratory organs and causes various diseases including respiratory diseases. There was a problem.

In addition, the types of home appliances (such as television sets, refrigerators, air conditioners, video, cassettes, recorders, and audio equipment) used in homes and offices are diversified, and as the number thereof increases, The temperature of the is raised, thereby lowering the humidity of the indoor space. When the air in the indoor space is dried, it hurts the health of people (healthy people), and in particular, it may have a fatal effect on sick people such as children, the elderly or patients.

As a result, various measures are taken to keep the humidity constant in homes and offices, and especially in homes with children and the elderly or hospitals that accommodate patients. There are many ways to do this, one of which is the humidifier.

Humidifier is a device that can control the humidity of a certain space, which is installed in a confined space such as home or office to control the humidity by converting it into water vapor or atomized state.

These humidifiers are roughly divided into two types according to the principle of operation, one of which is a humidification method of heating water to generate steam (hereinafter referred to as a heating humidifier), and the other is a method of humidifying by operating a vibrator (hereinafter referred to as a humidifier). Is called).

In the general configuration of the heated humidifier, a water storage supply means for supplying water to the heating means by a predetermined amount while storing water for humidifying the indoor space is configured, and the water supplied by the water storage supply means is heated to steam The heating means for generating a is configured, the discharge means for discharging the steam generated by the heating means to the outside of the humidifier is configured to control the humidity of the indoor space.

Thus, the heated humidifier is configured to convert the water supplied from the water storage supply means into water vapor by supplying operating power to the heating means, which is the main body of the humidifier, to heat the water, and thus converting the water vapor into the discharge means. By controlling the humidity of the indoor space to be humidified while being discharged to the outside of the humidifier.

In addition, the vibrating humidifier is configured with a water storage supply means for supplying a predetermined amount while storing the water that can be humidified, and a vibration means for converting the water supplied from the atomized state is configured, generated by the vibration means A discharging means configured to discharge the atomization to the outside of the humidifier is configured.

The vibrating humidifier is different from the heated humidifier in that the above-mentioned heating humidifier converts the water into the submerged state by the heating means, while the vibrating humidifier converts the water into the atomized state by the vibrating means. Can be.

That is, the vibrating humidifier supplies the water by a certain amount and discharges the generated atomization to the outside of the humidifier as in the heating humidifier, but the method of converting the water into the atomization state is performed by the heat generated by the heating means in the heating humidifier. The vibrating humidifier converts water into an atomized state by vibrating means while converting water into water vapor.

Although there is a slight difference in configuration, the principle of the heated humidifier or vibratory humidifier is similar, and the humidity of the indoor space can be controlled by spreading the discharged vapor or atomized indoor space. In addition, the temperature of the indoor space can also be adjusted by the temperature of the steam discharged from the humidifier.

Looking at the humidifier utilizing both the characteristics of the heated humidifier and the vibrating humidifier, a key input unit for setting the desired humidity value of the space to be humidified is configured, the humidity sensor and the humidity sensor for detecting the humidity of the indoor space to be humidified The temperature sensor is configured to sense the internal temperature, and the float switch unit is configured to switch on / off by the water level flowing into the humidification tank having the vibrator, and to maintain the desired humidity value set by the key input unit. The microprocessor is configured to control the overall operation of the humidifier, such as controlling the operation of the heater driving unit for driving the heater and the vibrator driving unit for driving the vibrator, and the atomization generated by the heater and the vibrator to the outside of the humidifier. The fan drive unit which drives the fan which discharges is comprised The hall switch which switches ON / OFF by the presence or absence of the chamber seated on the upper end of the humidification tank which has a vibrator is comprised.

In the conventional humidifier configured as described above, when the operating power of the humidifier is supplied by operating a power switch, the state of the float switch unit is checked to determine whether there is water in the humidifier tank in which the vibrator is installed, and the water in the humidifier tank is dehydrated according to the result. If the water is in the water state, the operation of the humidifier is stopped, while the display unit is operated to indicate that the humidification tank is in a dry state, and if there is water, the indoor humidity value is detected and contrasted with the desired humidity value set by the operation of the key input unit.

If the indoor humidity value is higher than the set desired humidity value, the humidity mode is detected while keeping the operation mode of the humidifier in the standby state, and the contrast is continuously contrasted with the set desired humidity value.If the indoor humidity value is lower than the desired humidity value, the heater and the vibrator are And while operating the fan to humidify the indoor space while detecting the indoor humidity value and contrast with the desired humidity value.

At this time, the microprocessor that controls the overall operation of the humidifier determines the humidifier operating time by counting time data applied from the timer IC while controlling the normal operation of the humidifier.

That is, it is determined whether the humidifier has been operated for the preset reservation time in comparison with the arbitrarily set reservation time and the operation time counting the time data applied from the timer IC.

As a result, the driving signal is continuously output to the heater driving unit, the vibrator driving unit and the fan driving unit if the set reservation time has not elapsed. On the contrary, if the reservation time has elapsed, the driving is applied to the heater driving unit, the vibrator driving unit and the fan driving unit. By blocking the signal, the humidifier is switched to the standby state, so the operation of the humidifier can be controlled automatically.

In addition, the microprocessor that determines whether or not the chamber is mounted on the basis of the microprocessor as the hall switch unit for detecting the seating state of the chamber seated on the upper part of the humidifier is applied to the microprocessor. When it is not seated on the upper part, it outputs a driving signal to the display unit so that it can be notified while switching the operation mode of the humidifier to the standby state in order to prevent the humidifier from operating without the chamber resting on the humidifier tank. will be.

In addition, in the humidifier having the above characteristics, it is possible to set the humidification strength of the humidifier and to control the driving of the vibrator, the heater, and the fan accordingly.

That is, by operating the keys of the key input unit to set the operating strength (to say the degree of discharge of atomization) of the humidifier, the microprocessor that recognizes this properly controls the driving of the vibrator, heater and fan. Therefore, the amount of atomization discharged from the humidifier gradually increases as the operating intensity of the humidifier is set to the weak, medium, and strong modes.

When the operation mode for raising the temperature of the atomization discharged from the humidifier (the operation mode for raising the room temperature by the atomization discharged from the humidifier) is set, the microprocessor recognizes that the vibrator and the heater operate in the strong mode. While controlling the operation of these, the fan is operated in the weak mode to control the operation of the fan to discharge the atomization to a high temperature. When the vibrator, heater, and fan are operated so that the humidifier can discharge a large amount of high temperature, more atomization is discharged than usual, but since the fan operates in a weak mode, the temperature of the vibrator increases and the efficiency of the vibrator decreases. Of course, this has the drawback that the coating or packing surrounding the vibrator is peeled off.

An object of the present invention for solving the problems of the prior art as described above, it is possible to maximize the efficiency of the humidifier by maintaining the ideal operating temperature regardless of the operating intensity of the humidifier to convert the water to the atomized state It is an object of the present invention to provide a vibrator temperature maintaining device and a method of controlling the operation of the humidifier.

That is, an object of the present invention is to change the ambient temperature of the vibrator that converts water into the atomized state to a constant temperature (referring to an ideal temperature value or a normal temperature value) even when the operation mode of the humidifier is switched to an operation mode for raising the temperature of the atomization. The purpose of the present invention is to provide a method for controlling the operation of a vibrator temperature maintaining device of a humidifier to maintain the vibrator in advance to prevent damage by the ambient temperature.

The present invention for achieving the above object is to set the desired humidity value to be humidified, to detect the external humidity of the humidifier and to operate the heating means and vibration means while reaching these humidity values to reach the desired humidity value In controlling the humidity of the indoor space, determining whether the operation mode of the humidifier is the atomization temperature rise mode, and if the atomization temperature rise mode is set, operate the vibrator, heater, and fan according to the current humidity value and the operation state of the float switch unit. While driving the oscillator cooling the DC motor is characterized in that it is made to perform the step of maintaining a constant temperature around the vibrator.

That is, the present invention is a temperature sensing means configured to be configured inside the humidification tank to detect the temperature inside the humidification tank, a humidity sensing means to detect the humidity of the space to be humidified, and introduced into the humidification tank Switching means configured to operate on / off according to the water level, input means for setting the operating environment of the humidifier including the desired humidity value of the space to be humidified, and converting the water flowing from the heater driving control means into the atomized state Oscillator drive control means for controlling the driving of the vibrator, heater driving control means for controlling the driving of the heater with a humidification tank equipped with a vibrator by heating the water flowing in the water tank, and the vibrator driving control means Fan drive control means for controlling the drive of the fan for discharging the atomization converted by the control-driven oscillator to the atmosphere; In the humidifier comprising a control means for controlling the overall operation of the humidifier having the configuration as described above, the cooling fan is provided with a motor to operate in the humidification temperature operating mode of the humidifier, The control means of the cooling fan having a motor for vibrating means cooling to maintain the temperature of the vibrator while maintaining the temperature of the vibrator while the operating mode of the humidifier in the atomization temperature rising mode, the oscillator and the heater in the strong mode, the fan in the weak mode. It is characterized by being configured to control the driving.

Hereinafter, the configuration according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

As shown in FIG. 1, the present invention includes a temperature sensor 10 configured to detect a temperature inside a humidifier tank, a humidity sensor 20 to detect humidity of a space to be humidified, Float switch unit 30 to be turned on and off in accordance with the water level flowing into the humidifier tank (it refers to the space in which the vibrator is installed) and the desired humidity value of the space to be humidified or the operating strength of the humidifier A key input unit 40 for setting an operating environment, a heater driver 60 for controlling driving of a heater for heating water supplied to a humidification tank, and a vibrator driver for controlling driving of a vibrator for converting heated water into an atomized state 70, a fan drive unit 80 for controlling the driving of the fan for discharging the atomized gas converted by the vibrator to the atmosphere, and a microprocessor for controlling the overall operation of the humidifier having the above configuration. In the humidifier having a 50, a cooling fan 110 having a motor is configured to operate in a humidification temperature rise mode of the humidifier, and the microprocessor 50 has a humidification temperature rise in the operation mode of the humidifier. In the mode, the vibrator and the heater operate in the strong mode, while the fan operates in the weak mode, and configured to control the driving of the cooling fan 110 having a motor used for cooling the vibrator to maintain the temperature at a constant temperature. will be.

2 to 3 are schematic configuration diagrams of a humidifier for realizing the present invention, in which heat generating means such as a heater is provided while receiving and storing a predetermined amount of water from the main body 120 and the water tank 130 of a predetermined shape. It is installed in the heating tank 200 for sterilizing and treating the water stored therein, and the humidifying tank 140 to which the water of the heating tank 200 is supplied, and the water heated to a predetermined temperature is vibrated to evaporate the atomization of the fine particles. In the humidifier comprising a vibration means (150: vibrator), a chamber 160 for discharging the atomization of the fine particles into the room, the DC motor 18 having a fan and the fan of the DC motor 180 Transfer pipe 190 connected between the fan and the vibration means 15 and the plate 220 provided between the transfer pipe 190 and the vibration means 150 to deliver the air generated by the vibration means 150 It further comprises a through-hole 17 for supplying the air transferred to the vibrating means (150) It is made.

In this case, the check valve 210 is installed in the through hole 170 communicated with the vibrating means 150 and the transfer pipe 190 so that the water introduced into the humidification tank 140 flows into the transfer pipe 190. Allow to block.

4 is a flow chart according to the present invention, which sets the desired humidity value to be humidified, detects the external humidity of the humidifier, and operates the heating means and the vibration means while contrasting these humidity values to achieve the desired humidity value. In controlling the humidity of the humidifier, it is determined whether the operation mode of the humidifier is the atomization temperature rising mode. As a result, when the atomization temperature rising mode is set, the vibrator cooling while operating the vibrator, heater, and fan according to the current humidity value and the operation state of the float switch unit. It shows that it controls to maintain constant temperature of vibrator by driving DC motor.

Hereinafter will be described in detail the effect according to an embodiment of the present invention.

The present invention manipulates the keys of the key input unit 40 to operate a humidifier such as a desired humidity value and an operating strength of the humidifier (a humidification strength generally refers to a strong, medium, weak mode, and atomization temperature rising mode). When the operating environment of the microprocessor 50 is recognized, the microprocessor 50 stores these data in a memory connected to the microprocessor 50, and outputs a driving signal to a display unit not shown in order to inform this. In other words, the operating environment of the humidifier set by the key input unit 40 can be input while checking through the display unit.

The microprocessor 50 outputs control signals to the heater driver 60, the vibrator driver 70, and the fan driver 80 so that the humidifier can operate normally. At this time, the microprocessor 50 detects the temperature value in the humidification tank detected by the temperature sensor 10 and the humidity value of the space to be humidified detected by the humidity sensor 20 and the float switch unit 30. A signal is applied to inform the state of the water flowing into the humidification tank.

Therefore, the microprocessor 50 determines the temperature inside the humidification tank based on the applied temperature value, and outputs a control signal to the heater driving unit 60 so that the water flowing into the humidification tank can be supplied while maintaining a constant temperature. The humidity value detected by the sensor 20 may be used to determine the humidity value in the air (that is, the space to be humidified) and maintain the desired humidity value set by the operation of the key input unit 40. While outputting a control signal to the vibrator drive unit 70 so as to determine whether there is water supplied to the humidification tank by a signal applied from the float switch unit 30, that is, whether the humidification tank is in a dry state, the water is being supplied normally. In this case, the LED driver outputs a control signal to the vibrator driver 70, the heater driver 60, and the fan driver 80, and notifies the user when the humidification tank is in a low water state. A driving signal is output to the 90 and the buzzer driver 100 to drive the light emitting diode and the buzzer.

Then, the fan is driven by outputting a control signal to the fan driver 80 to adjust the rotation speed of the fan so that the humidification can be performed at the operating intensity set by the operation of the key input unit 40. That is, the operating speed (intensity) of the vibrator, the heater, and the fan is controlled to realize the strong, medium, and weak modes set by the operation of the key input unit 40.

Particularly, if the operation mode of the humidifier is the atomization temperature rising mode, the vibrator and the heater operate in the strong mode, and the fan operates in the weak mode so that the temperature of the indoor space can be controlled while humidifying. While rising, it is possible to discharge a large amount of atomization into the atmosphere. At this time, in order to increase the efficiency of the vibrator by outputting a drive signal to the DC motor driving unit 110 to operate the DC motor 180, the air generated therefrom to the vibrator 150 through the transfer pipe 190 and the through hole (17). By supplying, the vibrator 150 may operate at an ideal operating temperature regardless of the temperature of the water supplied to the humidification tank 140.

Referring to the operation of the microprocessor 50 for controlling the operation of the humidifier as described above with reference to Figure 2, when operating the power switch to supply the operating power of the humidifier, the microprocessor 50 is the humidity sensor 20 Recognizing the humidity value detected by the temperature value and the temperature value in the humidification tank 140 detected by the temperature sensor 10 checks the switching state of the float switch unit 30 to the water in the humidification tank 140 in which the vibrator is installed. Will be judged.

As a result, when the water supplied from the water tank 130 is depleted and the humidification tank is in a low water state, the heater driving unit 60, the vibrator driving unit 70, and the fan driving unit 80 to prevent the humidifier from performing excessive operations. Blocking the control signal output to the, and outputs the drive signal to the LED driver 90 and the buzzer driver 100 so that the humidification tank is in the low water state to drive the light emitting diode and the buzzer.

Subsequently, when the desired humidity value of the humidifier is set, the desired humidity value is controlled to maintain the set desired humidity value by controlling the operation of the vibrator, the heater, and the fan in contrast to the desired humidity value and the present humidity value detected by the humidity sensor 20. Control the operation.

If the operation mode of the humidifier is switched to the atomization temperature rising mode while controlling the operation of the vibrator, heater, and fan to maintain the set desired humidity value, the present humidity value detected by the humidity sensor 20 as described above is changed. While recognizing, the light emitting diode and the buzzer are driven in accordance with the on / off state of the float switch unit 30 to display the dry state of the humidification tank.

Further, while operating the vibrator and the heater in the strong mode, the fan in the weak mode, it is judged whether the ambient temperature of the vibrator is the ideal operating temperature of the vibrator according to the temperature value of the humidification tank detected by the temperature sensor 10 for cooling the vibrator. The driving signal is output to the DC motor driver 110 to drive the DC motor 180. That is, while driving the DC motor 180 to increase the temperature of the atomization discharged from the humidifier to maintain the operating temperature at which the vibrator can operate ideally, the air generated therefrom passes through the transfer pipe 190 and the air. Since 170 is supplied, the temperature of the vibrator maintains a constant temperature regardless of the water temperature.

Therefore, since the water supplied from the heating tank 200 is supplied at a high temperature, is converted into an atomization in the humidifying tank 140, and discharged to the outside with a predetermined time delay in the chamber 160, the temperature of the atomized discharged is increased. This can be heated while humidifying the indoor space.

As described above, according to the present invention, when the operation mode of the humidifier is set to the atomization temperature rising mode, the vibrator and the heater are operated in the strong mode, the fan is operated in the weak mode, and the DC motor is operated to supply the vibrator to maintain the ideal temperature. By doing so, there is an effect that can increase the temperature of the atomization discharged while maximizing the efficiency of the vibrator. In addition, by maintaining the temperature of the vibrator at the most ideal temperature for the vibrator to operate, there is a feature that can prevent in advance that the packing or coating surrounding the vibrator falls.

Claims (2)

Vibrator drive control means for adjusting the driving of the vibrator for converting the incoming water into the atomized state according to the control signal, and heater drive for adjusting the driving of the heater for heating the water supplied from the water tank to the humidification tank equipped with the vibrator according to the control signal. A fan drive control means for adjusting, according to a control signal, a drive of a fan for discharging atomization converted by the vibrator driven by the control of the vibrator drive control means to the atmosphere, and an operation mode according to a user's request In the humidifier comprising a central control means for inputting a control signal to each of the control means: The central control means controls the drive control means of the vibrator and heater when the operation mode according to the user's request is the atomization temperature rising mode Input the signal to allow the vibrator and the heater to perform the maximum operation, driving to prevent the oscillator heating Output a signal; It operates by receiving the drive signal output from the central control means in the temperature increase mode of atomization, and during operation, the fan is rotated to transfer the surrounding air directly to the vibrator through the lower surface of the vibrator to heat the vibrator. DC motor having a fan to prevent the; A transfer tube connected between the fan and the vibrating means to transfer air generated by the rotation of the fan provided in the DC motor to the vibrating means; and the air transferred by being punched in a plate installed between the transfer tube and the vibrating means. Humidifier vibrator temperature maintaining device characterized in that it comprises a through-hole supplied to the vibrating means. Operating method in humidifier that sets the humidity value to be humidified and detects the external humidity of the humidifier and controls the humidity of the indoor space to reach the desired humidity value by operating heating means and vibration means while preparing for the humidity values. A first step of determining whether the operation mode of the humidifier according to the user's request is the atomization temperature rising mode: if it is determined that the atomization temperature rising mode is set through the first step the operation of the heating means and the vibration means And a second step of maintaining the maximum state; and a third step of controlling the temperature increase of the vibrating means by blowing wind to the periphery of the vibrating means using the blowing means at the same time as performing the second step. How to maintain the oscillator temperature.