KR19980083623A - How to control the spray rate of the humidifier - Google Patents

Abstract

The present invention relates to a method for stopping the humidification or resetting the spraying amount according to the difference between the desired humidity and the current humidity when the room temperature is lower than the reference temperature in the humidifier, and in detail, a humidifier driving means for generating mist ( 500, a humidifier having a humidity detecting means 100 for measuring the current humidity in the room, a display means 600 for displaying the operating state of the humidifier, and a control means 300 for controlling various operations of the humidifier. In the method for controlling the spray amount, the first step of detecting the current humidity with the humidity detecting means 100 and the temperature of the room using the predetermined temperature detecting means 200, and the detected in the first step If the control means 300 provides a spray amount control method comprising a second process of driving the humidifier driving means 500 on the basis of the numerical values, as the room temperature falls This prevents the phenomenon of exceeding the proper humidity or condensation.

Description

How to control the spray rate of the humidifier

The present invention relates to a method for controlling the spray amount of the humidifier, and in particular, in order to prevent the phenomenon of excess dew or condensation as the room temperature falls, if the room temperature is lower than the reference temperature, the humidification is stopped or It relates to a method of controlling the spray amount according to the difference between the desired humidity and the current humidity.

As is well known, homes and offices operate air-conditioning facilities (e.g., air conditioners, boilers, fans, etc.) to keep the temperature fluctuating according to the season. To cause various diseases including respiratory diseases.

Accordingly, various means are used to make the indoor space more comfortable, and one of them is a humidifier.

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 the electrical energy into thermal energy to supply heat to the water of the humidifier to generate mist, and in the case of the ultrasonic vibrator, mist is generated by converting the supplied electrical energy into the form of ultrasonic vibration energy. Let's do it.

In a conventional humidifier, a user sets a desired humidity with a predetermined key input means and selects a humidification mode. Humidifiers usually differ in the amount of mist sprayed in the humidification mode, i.e. in the weak, medium, strong and turbo modes. When the user selects the weak mode among the various humidification modes, about 250 cc / h (250 mg of water per hour) is sprayed, and in the strong mode, about 500 cc / h is sprayed.

There are various ways to adjust the amount of spray per hour, for example, there is a method of increasing or decreasing the current flowing through the heater or the ultrasonic vibrator. However, the conventional humidifier supplies a constant power to the humidifier according to the selected spray amount humidification mode, thereby generating a constant spray amount per hour. The constant spray rate per hour continues until the current humidity in the room, measured by the humidity sensor, reaches the desired humidity (usually at most 70%).

By the way, humidifiers are often used during dry seasons (especially winter), but when the weather is dry, there is a large difference in daylight, and thus the temperature drops significantly at dawn compared to the evening. However, relative humidity is expressed as a ratio of the amount of water vapor present in the unit volume space to the amount of saturated water vapor. The amount of saturated water vapor decreases as the temperature is lower.

Therefore, if the room temperature drops sharply (more than 10 ° C), the relative humidity increases, so for example, the actual amount of water vapor is greatly increased when sprayed in the strong mode to create the desired humidity of 70%, resulting in saturation and condensation. Sometimes. In particular, as the bedtime is closed and the indoor temperature decreases due to the fall of the outside temperature at dawn, this phenomenon is severely under the conditions where the diffusion of moisture is not good.

Thus, in contrast to the purpose of using a humidifier to create a comfortable indoor environment, when the humidity suddenly changes in accordance with the change in the room temperature as described above, the floor or the blanket of the room becomes wet, thereby degrading the comfort. Moreover, in order to avoid the cold, such as humidification, but rather there is a problem that causes respiratory diseases such as cold by sudden over-humidity.

Conventional humidifiers have a timer function to ensure that humidification is performed only for a predetermined time in preparation for the above-described humidification problem. However, since it is usually impossible to know when the temperature will rise sharply, the timer function to stop humidification after a certain time is not a fundamental solution.

The present invention for solving the problems described above, in order to prevent the excessive humidity or dew condensation as the room temperature falls, stop the humidification when the room temperature measured by the temperature sensor is lower than the reference temperature. In addition, the purpose is to provide a function for resetting the spray amount in accordance with the difference between the desired humidity and the current humidity measured by the humidity sensor.

1 is a configuration of a control system for the spray amount control method of the humidifier of the present invention.

2 is a flowchart according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: humidity sensor unit 200: temperature sensor unit

300: microprocessor 400: memory

500: humidifier driving unit 600: display unit

The present invention for achieving the above object, the drive means 500 for driving the humidifier for generating mist, the humidity detection means 100 for measuring the current humidity of the room, and the display means for displaying the state of the humidifier ( In the method of controlling the spray amount in the humidifier having a 600 and a control means 300 for controlling various operations of the humidifier, the humidity detecting means 100 detects the current humidity, the predetermined temperature sensing means 200 It consists of a first process of detecting the temperature of the room, and a second process of the control means 300 drives the humidifier driving means 500 based on the values detected in the first process. There is a characteristic.

Additional features of an embodiment of the present invention for achieving the above object, the second process includes the step of resetting the amount of humidification according to the difference between the detected current humidity and the desired humidity desired by the user (S60) If the detected room temperature is less than a predetermined reference temperature, the method further includes displaying a low indoor temperature to the user through the display means (S51).

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a configuration of a control system for a spray amount control method of the humidifier of the present invention, the humidity sensor unit 100 for measuring the current humidity of the room, the temperature sensor unit 200 for measuring the temperature of the room, and the mist A humidifier driving unit 500 for driving a heater or an ultrasonic vibrator to be generated, a display unit 600 for displaying a state of the humidifier, and a microprocessor 300 for controlling various operations of the humidifier including the humidifier driving unit and the display unit. And a memory unit 400 for storing various data processed by the microprocessor.

The temperature sensor unit measures the physical quantity that changes with heat, that is, the pressure, the expansion, the resistance, the thermal voltage, and the like in principle. In the present invention, a dummy thermometer, which is a kind of resistance thermometer, is suitable because it is compact, highly sensitive, easy to handle, and inexpensive.

The dummy is an element whose electrical resistance changes with temperature, and has a negative temperature coefficient (NTC) and a positive temperature coefficient (PTC). However, the PTC dummyist maintains a very low constant resistance value at 80 ° C or lower, and thus is not suitable for the present invention considering the effect of room temperature (since 40 ° C or lower) on the relative humidity. NTC dummyist is exponentially decreased from 10 kΩ at −20 ° C. to 200Ω at 100 ° C., and thus is an element suitable for the temperature sensor of the present invention. Hereinafter, a preferred embodiment of the operation process according to the present invention with reference to the accompanying drawings, Figure 2 is as follows.

When the humidifier is connected to a power source, the microprocessor 300 checks the desired humidity input by the user through the key input means (S10). The user should pay attention to setting the desired humidity, because if set too high, condensation may occur depending on the sharp drop in the room temperature as described above. The comfortable humidity value at 18 ° C. is about 60%, and at 24 ° C., about 40% is the comfortable humidity value.

Then, the process to be described next is repeated until the identified desired humidity is reached.

The humidity sensor unit 100 detects the current humidity in the room and inputs the detected value to the microprocessor 300 (S20). Then, the microprocessor compares the desired humidity with the current humidity (S30).

As a result of the comparison, if the current humidity of the room is higher than the desired humidity (for example), since the humidification is not necessary, the humidification is stopped (S90). If the current humidity is less than the desired humidity (no), the temperature sensor unit 200 detects and inputs an indoor temperature value (S40). In operation S50, the microprocessor 300 compares the room temperature with a predetermined reference temperature.

The reference temperature may be set to an appropriate value at the time of manufacture of the humidifier, but it is preferable that the user can change the temperature since the temperature varies greatly depending on the season. As this reference temperature, it may be appropriate to make it slightly smaller than the temperature at which it is most comfortable (about 17 ° C). In cold winters this figure should be smaller.

If the detected indoor temperature is less than the reference temperature (eg), the display unit 600 (via the light emitting diode or the liquid crystal display) informs the user that the indoor temperature is less than the reference temperature (S51). ). And, since there is a risk that the water vapor is saturated, and sends a control signal to the humidifier driving unit 500 to stop the humidification (S90). If the room temperature is greater than the reference temperature (no), the flow proceeds to step S60 of resetting the spray amount.

Change of spray amount is set according to difference between desired humidity and current humidity. Since the humidification is performed until the present humidity reaches the desired humidity, the difference between the desired humidity and the current humidity varies with time. If the difference is large, the spray amount is increased as in the steel mode. If the difference between the desired humidity and the current humidity is small, reduce the spray amount.

The method of resetting the spray amount according to the difference between the desired humidity and the current humidity can be seen as similar to the spray amount of the conventional purge humidification mode. The purge mode repeats the strong / medium / weak mode in the order of normal / reverse for each predetermined time according to the number of sheets of indoor space.

In the present invention, the degree to which the spray amount is small or large according to the difference between the desired humidity and the current humidity cannot be uniformly determined as in the strong / medium / weak mode, and may be given as a data value according to an experiment (experience). The data can be represented mathematically as a function at all times, but since the data in this case becomes a very complicated function, it is preferable to store the values corresponding to each case as they are. The data necessary to reset the spray amount is stored in the memory unit 400 and accessed whenever necessary. This data may also be set to an appropriate value at the time of manufacture of the humidifier, or in some cases, to be changed by the user as desired.

Before supplying power to the humidifier according to the reset spray amount, it is determined whether the humidification time (real time), which is a conventional function, exceeds the time set by the user (S70). If the result of the determination exceeds the time (Yes), the humidification is stopped (S90). If the time has not exceeded (no), humidification is performed until the time is reached (S80).

As mentioned, the present invention returns to the step (S20) of measuring the indoor humidity while performing humidification, and continuously checks the room temperature, so that the spray amount can be reset so as not to saturate as the indoor humidity changes.

According to another embodiment for achieving the object of the present invention, the process of measuring the indoor humidity and comparing with the desired humidity (S20, S30), and the process of measuring the indoor temperature and comparing with the reference temperature (S40, S50 Alternatively, the order of the step S70 of determining whether the humidification time is exceeded may be changed. The important thing is to measure the current humidity and reset the spray volume accordingly. Various applications will be possible to those skilled in the art.

The present invention operated as described above, the humidity of the room is lower than the reference temperature to stop the humidification effect of preventing condensation due to the saturation of humidity, and the humidity controlled by the amount of spray according to the difference between the desired humidity and the current humidity pleasant humidity While achieving the effect that can prevent the case of over-humidification according to the temperature change.

Therefore, in the humidifier used to create a comfortable environmental condition, the present invention, so as to perform the humidification function well while preventing the above adverse effects, there is an effect that the user's satisfaction is increased.

Claims (4)

Drive means 500 for driving a humidifier for generating mist, humidity detection means 100 for measuring the current humidity in the room, display means 600 for displaying the operating state of the humidifier, and various operations of the humidifier. In the method of controlling the spray amount in a humidifier having a control means 300 for controlling, A first process of detecting a current humidity by the humidity detecting means 100 and a temperature of a room using a predetermined temperature detecting means 200; Spray control method of the humidifier, characterized in that the control means (300) comprises a second process for driving the humidifier driving means (500) based on the value detected in the first process. The method of claim 1, wherein the second process includes resetting the humidification amount according to a difference between the detected current humidity and a desired humidity desired by the user (S60). The method of claim 1, wherein the second process comprises stopping the humidification (S90) when the detected room temperature is lower than a predetermined reference temperature (S90). The method of claim 1 or 3, wherein the second process further comprises the step (S51) of indicating to the user that the room temperature is low through the display means if the detected room temperature is less than a predetermined reference temperature. Spray amount control method of the humidifier characterized in that.