KR20050109819A - Apparatus and method for controlling of air cleaner - Google Patents

Abstract

The present invention relates to a control apparatus and a control method of an air purifier for compensating the deviation and characteristic change of the gas sensor for measuring the pollution degree, comprising a pollution detection unit, a temperature detection unit, and a humidity detection unit using a gas sensor An air purifier, comprising: comparing a pollution level detected by the pollution detection unit with a reference level previously stored in the memory unit when the user inputs a clean function command, and then updating the reference level of the memory unit according to the comparison result; Reading a current pollution concentration detected by the contamination detection unit and a reference level of the memory unit; And compensating for the read reference level according to the current room temperature and humidity detected by the temperature sensor and the humidity sensor, and performing a clean function according to the ratio of the compensated reference level and the read pollutant concentration. Is made of.

Therefore, the present invention changes the reference resistance (R _O ) of the memory according to the pollution level of the room at the time when the initial power is applied, and compensates the reference resistance (R _O ) according to the temperature and humidity of the room while performing the clean function By detecting more absolute changes in the indoor pollution level, the effectiveness of the air cleaning function can be improved.

Description

Apparatus and Method for Controlling of Air Cleaner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air purifier, and more particularly, to an apparatus for controlling an air purifier and a method of controlling the same, for compensating for deviations and characteristic changes of a gas sensor measuring pollution levels.

In recent years, modern people who spend most of their daily lives indoors, such as offices and residential areas, have increased the use of air purifiers to comfortably improve indoor or closed spaces and to artificially clean the indoor environment, as environmental concerns have increased. ought.

In general, air purifiers have a germicidal action to remove bacteria, fungi, and mites that remain in the room, a deodorizing action to remove smells of cigarettes and sweat, and volatile organic compounds (VOCs). It is a means of making contaminated indoor air pleasant through purifying action to remove contaminants.

As shown in FIG. 1, the air purifier according to the related art includes a pollution detector 1 for sensing a pollution level, and a controller 2 for controlling the entire system according to the pollution degree detected by the pollution detector 1. And a load driver 3 for selectively driving a blower motor (not shown) or a sterilization module (not shown) (such as an ozone generator) under the control of the control unit 2, and according to the control of the control unit 2; And a display unit 4 for displaying the pollution degree detected by the pollution detection unit 1.

At this time, the contamination detection unit 1 is connected to the heater (RH) and the heater (RH) in parallel with the heater (RH) that is preheated by applying power when a clean function driving command is input by the user as shown in FIG. It is composed of a gas sensor (1a) made of a variable resistor (Rs) that varies according to the degree of air pollution, the control unit (2) controls the distribution voltage by the variable resistor (R _S ) and the resistance (R _L ) of the gas sensor (1a) ) Is applied.

The voltage V _OUT input to the controller 2 is to be.

For example, if the resistance (R _L ) is 10㏀ and V _C is 5V V_OUT is determined according to the resistance value of the variable resistor R _S which varies with the indoor pollution degree.

Then, the control unit 2 receives the output signal of the contamination detection unit 1 to determine the pollution degree of the outside air and outputs a control signal corresponding to the pollution degree.

The display unit 4 displays the pollution level under the control of the control unit 2, and the load driving unit 3 selectively blows the motor or the sterilization module to purify and sterilize the contaminated indoor air according to the control signal. Drive it.

That is, the pollution detection unit 1 outputs an electrical signal according to the pollution degree of the indoor air to the control unit 2, and the control unit 2 determines the pollution level through the electrical signal of the pollution detection unit 1 to the outside. By displaying the contamination level on the display unit 4 and performing a clean function by selectively controlling the blower motor or the sterilization module according to the pollution level.

In the case of the gas sensor 1a described above, since the characteristic change of the sensor itself over time, that is, the estimation of the change over time, cannot be estimated, the relative value detection method in which the output voltage changes according to the gas change is used.

That is, in the case of the conventional gas sensor, the absolute concentration cannot be measured, and only the relative change in the pollution concentration can be detected.

In addition, the gas sensor 1a used in the contamination detection unit 1 has a problem in that the characteristics of the sensor change according to the crossover variation or the temperature / humidity (season).

In addition, the variation of the resistance value (3 저항 ~ 12㏀) occurs according to the surface area difference of the sensor itself or various production environments in the production process of the sensor.

Due to the change in the characteristic of the sensor or the variation of the resistance value according to the temperature / humidity, it is difficult to accurately measure the contamination level and also has a problem of degrading the effect of the cleaning function according to the pollution level.

Therefore, the present invention has been made to solve the above problems, an object of the present invention is to provide accurate contamination measurement by compensating for the characteristic change of the sensor according to the temperature and humidity of the room.

Another object of the present invention is to sense an absolute change in the degree of indoor pollution to realize a more effective air cleaning function.

Control device of the air purifier according to the present invention for achieving the above object is a pollution detection unit for detecting the pollution concentration of the indoor air, a temperature detection unit for detecting the indoor temperature, humidity detection unit for detecting the indoor humidity And a memory unit for storing a reference level to be compared with the contamination concentration detected by the pollution detection unit, and the contamination concentration detected by the pollution detection unit and the memory unit when power is applied according to a clean function command of a user. After comparing the reference level stored in the memory unit and updating the reference level of the memory unit according to the comparison result, the reference level is compensated by compensating the reference level according to the room temperature and humidity detected by the temperature sensor and the humidity sensor. And a control unit that performs a clean function according to the ratio of the present pollution concentration. There is.

In addition, in the air purifier control method according to the present invention for achieving the above object, in the air purifier having a pollution sensor, a temperature sensor, and a humidity sensor using a gas sensor, Comparing the contamination level detected by the contamination detector with a reference level previously stored in the memory unit, and updating a reference level of the memory unit according to the comparison result; Reading a current pollution concentration detected by the contamination detection unit and a reference level of the memory unit; And compensating for the read reference level according to the current room temperature and humidity detected by the temperature sensor and the humidity sensor, and performing a clean function according to the ratio of the compensated reference level and the read pollutant concentration. It is characterized by consisting of.

The updating of the reference level of the memory unit may include initializing a gas sensor of the pollution detection unit when a clean function command is input from a user, and detecting the contamination concentration through the pollution detection unit when the initialization process is completed. Comparing the contamination level with a reference level previously stored in the memory unit; updating the reference level stored in the memory unit to the detected contamination concentration level if the detected contamination concentration is equal to or greater than the reference level; If the concentration is less than the reference level is characterized in that it comprises the step of calculating the contamination rate of the detected contamination concentration and the reference level, and displaying the contamination level corresponding to the calculated contamination rate and performing a clean function.

The performing of the clean function may include determining whether the calculated pollution rate corresponds to a preset clean area, and if the current clean area does not correspond to the current clean area, periodically detecting a current pollution concentration through the contamination detection unit; And performing a clean function according to the ratio of the detected pollution concentration and the reference level.

When the calculated pollution rate corresponds to a preset clean area, a first step of reading the room temperature T1 and the humidity H1 detected by the temperature sensor and the humidity sensor, and a preset time elapsed. At the time point, the second step of reading the contamination concentration detected through the contamination detector and reading the detected room temperature (T2) and humidity (H2) through the temperature sensor and the humidity sensor, and the first step and Changing the reference level to a pollution concentration level read at the time when the set time has elapsed if the room temperature T2 read out in the second step decreases below T1 or the humidity H2 falls below H1. Step 3, a fourth step of maintaining the reference level if the room temperature (T1) and (T2), humidity (H1) and (H2) read in the first and second steps are the same, and the first The room temperature (T2) read in steps 2 and 2 is higher than (T1) Or if the humidity (H2) is higher than (H1), the fifth step of changing the reference level to the pollution concentration level read at the time when the set time elapses, and according to the pollution rate of the changed reference level and the current pollution concentration. And a sixth step of performing a clean function and repeating the first to sixth steps.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Referring to the accompanying drawings, a preferred embodiment of a control apparatus and a control method of the air purifier according to the present invention will be described.

First, Figure 3 is a block diagram showing a control device of the air purifier according to the present invention.

As shown, the control device of the air purifier according to the present invention; The pollution detector 10 for detecting the pollution concentration of the indoor air, the temperature detector 20 for detecting the indoor temperature, the humidity detector 30 for detecting the indoor humidity, the pollution detector 10 The memory unit 50 for storing the reference level to be compared with the contamination concentration detected through the contamination concentration, and the contamination concentration detected by the pollution detection unit 10 at the time when the power is applied according to the user's clean function command After comparing the reference levels stored in the memory unit 50 and updating the reference level of the memory unit 50 according to the comparison result, the room detected by the temperature sensor 20 and the humidity sensor 30. Compensating the reference level according to the temperature and humidity, the control unit 40 performs a clean function according to the ratio of the compensated reference level and the current pollution concentration.

At this time, the pollution detection unit 10 is connected to the heater (RH) and the heater (RH) is preheated and preheated when the clean function driving command is input by the user in parallel to vary the degree of pollution of the outside air The gas sensor 10a is formed of a first variable resistor Rs, and the distribution voltage by the first variable resistor R _S and the second variable resistor R _{L of} the gas sensor 10a is controlled by the control unit. 40).

In addition, the contamination detection unit 10 uses a variable resistor (second variable resistor, R _L ) adjustable in the production line to minimize the deviation between the sensors.

And, the voltage (V _OUT ) output from the contamination detection unit 10 is As this, it is input to the A / D port of the control unit 40, in which the control unit 40 recognizes the voltage level of the contamination detecting unit 10 input through the A / D port and thus the resistance value (hereinafter, referred to as contamination). It is used after converting into resistance).

That is, the controller 40 determines the current pollution concentration of the outside air according to the size of the pollution resistance converted therein.

In addition, the memory unit 50 stores the reference resistance R ₀ to be compared with the pollution resistance R ₁ input from the pollution detection unit 10, and updates the reference resistance R ₀ . Use a memory such as EEPROM to enable this.

In addition, the load driver 60 receives a control signal from the controller 40 to operate a sterilization related load (not shown) such as a blower motor or an ozone generator provided according to a model.

Referring to the control method of the air purifier according to the present invention configured as described above in detail.

When the clean operation command is input from the user, as shown in FIG. 4, the pollution detection unit 10 is initialized after applying power (S10).

In this case, the initialization process refers to a time (about 2 minutes) required for the heater RH in the gas sensor 10a to be heated and stabilized after power is applied.

After the initialization process, the voltage level input from the contamination detector 10 is read through the A / D port (S12), and converted into a resistance (pollution resistance) R ₁ (S12).

At the same time, after reading the reference resistance R ₀ pre-stored in the memory unit 50 (S13), the contamination resistance R ₁ is compared with the reference resistance R ₀ (S14).

As a result of the comparison, when the pollution resistance (R ₁ ) is greater than the reference storage (R ₀ ), that is, if the pollution concentration detected by the current contamination detection unit (10) is cleaner than the reference level stored in the memory unit (50), The reference resistance R ₀ of the memory unit 50 is changed to the value of the pollution resistance R ₁ and stored (S15).

When the current pollution resistance R ₁ is smaller than the reference resistance R ₀ , that is, when the current pollution concentration is more contaminated than the reference level, the ratio R of the pollution resistance R ₁ and the reference resistance R ₀ is determined. ₁ / R ₀ ) is calculated (S16).

Subsequently, as shown in FIG. 5, it is determined whether the current outside air corresponds to the clean zone according to the ratio R ₁ / R _{0 of} the pollution resistance R ₁ and the reference resistance R ₀ (S20). .

For example, if the ratio (R ₁ / R ₀₎ is 0.85 or more of the contamination resistance (R ₁₎ and a reference resistance (R ₀₎ is determined as a clean zone.

If the ratio (R ₁ / R ₀ ) of the contamination resistance (R ₁ ) and reference resistance (R ₀ ) does not correspond to a clean zone, the display unit 70 displays the pollution level corresponding to the ratio (R ₁ / R ₀ ). In addition to performing a clean function in accordance with the ratio (R ₁ / R ₀ ) to display through (S18).

At this time, the sterilization-related module such as a blower motor or an ion generator is selectively driven according to the ratio (R ₁ / R ₀ ) of the pollution resistance (R ₁ ) and the reference resistance (R ₀ ) to sterilize the indoor air. Perform.

On the other hand, when the ratio (R ₁ / R ₀ ) of the pollution resistance (R ₁ ) and the reference resistance (R ₀ ) is a clean zone, the reference read from the memory unit 50 according to the temperature and humidity of the indoor air. Performs a clean function while compensating for the resistance (R ₀ ).

In more detail, if it is determined that the current indoor air is a clean zone, the indoor temperature T1 and the humidity H1 are read from the temperature detector 20 and the humidity detector 30 (S21).

In addition, the pollution resistance (R ₁ ) detected by the contamination detection unit 10 is periodically read and it is determined whether or not a predetermined time has elapsed (S22) (S23).

Subsequently, the room temperature T2 and the humidity H2 are read again from the temperature sensing unit 20 and the humidity sensing unit 30 at the time when the set time elapses (S24).

In general, when the temperature and humidity of the room increases, the pollution resistance of the indoor air increases with time, and the pollution resistance (R ₁ ) decreases, and when the room temperature and humidity decreases, the pollution degree decreases and the pollution resistance (R ₁ ) increases. Will increase.

That is, when the room temperature T2 read in the clean zone is reduced compared to T1 or the humidity H2 is reduced compared to H1, the pollution resistance R ₁ is reduced as shown in ① of FIG. 6. Since it is increased, the reference resistance R ₀ read from the memory unit 50 is changed to the contamination resistance R ₁ (A) read at the time when the set time elapses (S25) (S26).

In addition, when there is no change in the room temperature (T1, T2) and humidity (H2, H1) in the clean zone, as shown in ② of FIG. 6, the pollution resistance (R ₁ ) remains almost the same as the level before the set time, so The resistor R ₀ is kept as it is (S27, S28).

And, if the room temperature (T2) read in the clean zone is increased compared to (T1) or the humidity (H2) is increased compared to (H1) as shown in ③ of Figure 6 pollution resistance (R ₁ ) before the set time It is lower than the level of, which means that the indoor air is more polluted than before the set time.

Therefore, when the room temperature and humidity increase than before the setting time, the reference resistance R ₀ read from the memory unit 50 is changed to the pollution resistance R ₁ (B) read at the time when the setting time elapses. (S29) or the contamination resistance (R ₁ ) (B) having the minimum value among the pollution resistance (R ₁ ) read within the set time.

As described above, the ratio (R ₁ / R ₀ ) of the reference resistance (R ₀ ) and pollution resistance (R ₁ ) changed according to the temperature and humidity of the indoor air is calculated (S30), and the ratio (R ₁ / R ₀ ). In addition to displaying the pollution level corresponding to the clean function (S18).

The clean function is performed by compensating the reference resistance R ₀ read from the memory unit 50 at a predetermined time period.

According to the present invention, the reference resistance R ₀ pre-stored in the memory unit 50 is updated according to the indoor pollution degree at the time when the initial power is applied, and the reference resistance R according to the room temperature and humidity while performing the clean function. ₀ ) to compensate and perform the cleaning function according to the comparison with the pollution resistance (R ₁ ).

As described above, the control apparatus and method of the air cleaner according to the present invention have the following effects.

First, by using the variable resistor as the reference resistance (R _L ) of the gas sensor, it is possible to adjust the deviation between the sensors in the production line through this.

Second, by changing the reference resistance (R _O ) of the memory according to the pollution degree of the room at the time when the initial power is applied, it is possible to detect the change of pollution more accurate, thereby maximizing the effect of air cleaning.

Third, while performing the clean function, it is possible to detect a more absolute indoor pollution degree by compensating the reference resistance (R _O ) according to the temperature and humidity of the room.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

1 is a block diagram showing the configuration of an air purifier according to the prior art.

2 is a diagram illustrating a gas sensor circuit diagram for a conventional pollution measurement.

Figure 3 is a block diagram showing a control device of the air purifier according to the present invention

4 and 5 is a flow chart showing a control method of the air purifier according to the present invention.

6 is a view showing the characteristic change of the pollution degree detection unit according to temperature and humidity

* Explanation of symbols for main parts of the drawings

10: contamination detection unit 10a: gas sensor

20: temperature sensing unit 30: humidity sensing unit

40: control unit 50: memory unit

60: load driving unit 70: display unit

Claims (5)

Pollution detector for detecting the pollution concentration of the indoor air, A temperature detector for detecting a room temperature, Humidity detector for detecting indoor humidity, A memory unit for storing a reference level to be compared with the pollution concentration detected by the contamination detection unit; When the power is applied according to a clean function command of the user, the pollution level detected by the contamination detection unit is compared with the reference level stored in the memory unit, and the reference level is updated according to the comparison result. And a controller configured to compensate for the reference level according to the indoor temperature and humidity detected by the sensor and the humidity sensor to perform a clean function according to the ratio between the compensated reference level and the current pollution concentration. Controller of the purifier. In the air purifier provided with a pollution sensor, a temperature sensor, and a humidity sensor using a gas sensor, When the user inputs a clean function command, comparing the contamination level detected by the contamination detection unit with a reference level previously stored in the memory unit, and updating the reference level of the memory unit according to the comparison result; Reading a current pollution concentration detected by the contamination detection unit and a reference level of the memory unit; And, Compensating for the read reference level according to the current room temperature and humidity detected by the temperature sensing unit and the humidity sensing unit, and performing a clean function according to the ratio of the compensated reference level and the read contamination level. Control method of an air purifier, characterized in that made by. The method of claim 2, Updating the reference level of the memory unit Initializing the gas sensor of the pollution detection unit when a clean function command is input from the user; Detecting the contamination concentration through the contamination detection unit when the initialization process is completed, comparing the detected contamination concentration with a reference level previously stored in the memory unit; Updating the reference level stored in the memory unit to the detected contamination concentration level if the detected pollution concentration is equal to or greater than a reference level; Calculating a contamination rate between the detected contamination concentration and the reference level if the detected contamination concentration is below a reference level; And displaying a pollution level corresponding to the calculated pollution rate, and then performing a cleaning function. The method of claim 3, wherein The steps to perform the clean function Determining whether the calculated pollution rate corresponds to a predetermined clean area; Detecting the current pollution concentration periodically through the pollution detection unit if it does not correspond to a current clean area; And performing a cleaning function according to the ratio of the detected pollution concentration to a reference level. The method of claim 4, wherein A first step of reading the room temperature T1 and the humidity H1 detected by the temperature detector and the humidity detector, when the calculated pollution rate corresponds to a preset clean region; A second step of reading the pollution concentration detected through the contamination detector and reading the detected room temperature (T2) and humidity (H2) through the temperature detector and the humidity detector at a time point when a preset time elapses; , When the indoor temperature T2 read out in the first and second steps is lower than (T1) or the humidity (H2) is lower than (H1), the pollution concentration read out at the time when the set time has elapsed. The third step of changing to a level, A fourth step of maintaining the reference level if the indoor temperatures T1 and T2, the humidity H1 and H2 read in the first and second steps are the same; If the indoor temperature T2 read in the first and second steps rises above T1 or the humidity H2 rises above H1, the pollution concentration read out at the time when the set time elapses. The fifth step of changing to a level, A sixth step of performing a clean function according to the changed reference level and the pollution rate of the current pollution concentration; Control method of the air purifier, characterized in that consisting of the steps of repeatedly performing the first to sixth steps.