KR0182740B1 - Method for air cleaning of airconditioner - Google Patents

Abstract

The present invention relates to a method for controlling air cleaning of an air conditioner, and more particularly, by setting an initial stabilization time of a gas sensor and setting a reference value in consideration of adsorption of gas due to continuous operation of the gas sensor. The present invention relates to an air cleaning control method of an air conditioner that accurately determines and determines the pollution level of air and the conditions for driving the electrostatic precipitator. An air cleaning control method of an air conditioner according to the present invention includes an electrostatic precipitator, a pollution detecting unit, and a fan, and the air cleaning control method of the air conditioner which drives the fan at a set speed proportional to the pollution degree of indoor air. In the step S10, S16 to determine whether the predetermined time required to stabilize the pollution detector after the power is supplied to the air conditioner; If a predetermined time has passed after the power is supplied to the air conditioner, detecting the pollution degree of the indoor air (S18); If the detection voltage of the gas sensor according to the pollution degree of the room detected in step S18 is maintained within a predetermined range for a predetermined time, setting the detection voltage as a reference voltage (S20); After the reference voltage is set in step S20, the detection voltage according to the pollution degree of the indoor air detected is compared with a reference value set by adding a preset compensation voltage to the reference voltage Vref, thereby driving the electrostatic precipitator 41 according to the comparison result. Determining whether or not (S22); According to the magnitude of the detection voltage is characterized in that it comprises a pollution degree determination step (S26) to determine the pollution degree 'strong', 'medium', 'weak'.

Description

Air cleaning control method of air conditioner

The present invention relates to a method for controlling air cleaning of an air conditioner, and more particularly, sets an initial stabilization time of a gas sensor and drives an electrostatic precipitator in consideration of a small amount of gas continuously adsorbed to the gas sensor by driving the gas sensor. By setting a reference value for determining the condition, it is possible to accurately detect the pollution level of the indoor air, and to clean the air conditioner of the air conditioner to accurately determine the conditions for driving the electrostatic precipitator according to the detected pollution level of the indoor air. It relates to a control method.

In general, the air conditioner is equipped with functions such as cooling, heating and dehumidification to perform the air conditioning, and in recent years, the dust and dust that is a source of indoor air by using an electrostatic precipitator to provide a more comfortable environment and convenience to users. There is provided an air conditioner having an air cleaning function to remove tobacco smoke and keep indoor air clean.

The electrostatic precipitator used to perform the air cleaning function of the air conditioner is installed in the air circulation passage of the indoor unit of the air conditioner to collect fine dust or suspended matter contained in the air. And a high voltage generator for boosting the voltage to a high voltage by a transformer and a double voltage circuit, and a dust collector plate connected to one output terminal of the high voltage generator and installed at an evaporator front end between an evaporator and an indoor air inlet to collect ionized pollutants and the high voltage. In addition to being connected to the other output terminal of the generator portion is disposed between the dust collector and the evaporator is composed of an ion generator for ionizing the contaminants by high voltage discharge. Oxygen in the air is ionized during the corona discharge of the ion generating unit, and the ionized oxygen ions combine with oxygen molecules to generate ozone.

Referring to the operation of the conventional air conditioner and electrostatic precipitator configured as described above are as follows.

First, when the indoor fan of the air conditioner is operated, the air in the harmonic space is sucked through the suction unit, is in contact with the indoor heat exchanger, heat exchanges, and is then discharged into the harmonic space through the discharge port. At this time, when the user selects the clean operation key during the air conditioning operation, the corona discharge is first performed at the ion generating unit, and the contaminants including the dust and the like contained in the air passing through the ion generating unit are ionized by the corona discharge. In addition, oxygen in the air is ionized during the corona discharge of the ion generating unit, and the ionized oxygen ions combine with other oxygen molecules in the air to generate ozone. When the air containing the pollutants ionized by the air circulation cycle is discharged into the room and sucked back into the air conditioner, the pollutants ionized by the magnetic field formed by applying a voltage to the dust collector of the electrostatic precipitator are collected on the dust collector. . In addition, the surface of the evaporator is a good environment for bacteria, etc. due to the moisture is formed, ozone generated by the corona discharge to sterilize these bacteria and at the same time acts to deodorize the odor generated by the bacteria.

However, the conventional air conditioner that performs the air cleaning function such as the user to operate the electric cleaning device by operating the air cleaning function key of the operation panel provided on one side of the front of the main body to collect the pollutants contained in the indoor air, Since the electrostatic precipitator is driven irrespective of the degree of pollution of indoor air, there is a problem in that it does not perform an effective air cleaning function.

In view of the above-mentioned problems, an air conditioner having a pollution detection unit has been invented to perform a clean operation of the air conditioner according to the detected pollution level, but in this case, the air conditioner ignores the characteristics of the gas sensor. The degree of contamination of the space was detected.

That is, the gas sensor used in the pollution detection unit needs a stabilization time at the initial stage after turning on the power, and needs to be compensated when comparing the detected voltage of the gas sensor according to the pollution degree of the indoor air with a set reference voltage.

However, in the conventional air conditioner, the clean operation is performed based on the output value of the gas sensor which is detected immediately after the power is turned on without considering the characteristics of the gas sensor, and the compensation is not performed on the detection amount or the reference value. The prior art had a problem of low reliability in determining the pollution level and contamination of indoor air.

The present invention is to solve the conventional problems as described above, an object of the present invention by considering the characteristics of the gas sensor for detecting the pollution of the indoor air, by detecting and determining the pollution and contamination of the indoor air, effective air It is to provide an air cleaning control method of an air conditioner to perform a clean operation.

In order to achieve the above object, the present invention provides an electrostatic precipitator for collecting and removing contaminants by applying a high voltage, a pollution detection unit having a gas sensor to detect dust and suspended matter contained in indoor air, and heat exchanged with indoor air. A fan for discharging the air into the room to determine whether the indoor air is contaminated and to control the driving of the electrostatic precipitator, and to drive the fan at a set rotational speed proportional to the degree of contamination of the room. A clean control method comprising: determining whether a preset gas sensor stabilization time has elapsed from when a power is supplied to an air conditioner so as to prevent a gas sensor from malfunctioning (S10); When the predetermined gas sensor stabilization time elapses after the power is supplied to the air conditioner, detecting the pollution degree of the indoor air by the gas sensor (S18); When the detection voltage Vsen is maintained within a predetermined voltage ± 0.01V range for a preset time by determining the detection voltage Vsen of the gas sensor according to the pollution level input in step S18, the constant voltage is set as the reference voltage Vref. Setting step (S20); After setting the reference voltage (Vref) for determining the pollution level of the indoor air in step S20, to determine whether the electrostatic precipitator is driven, the detection error due to a small amount of gas continuously adsorbed to the gas sensor 21 In addition to the reference voltage Vref set in step S20, the preset compensation voltage 0.03V to compensate is compared with the detection voltage Vsen of the gas sensor according to the pollution degree of the indoor air, and thus the detection voltage Vsen is the reference value. An electrostatic precipitator operating condition determination step of driving the electrostatic precipitator when greater than (Vref + 0.03V) (S22); In addition, if the sensing voltage (Vsen) of the gas sensor is less than the reference voltage (Vref) + 0.03V or more than the reference voltage (Vref) + 0.15V, the pollution level of the current indoor air is 'weak pollution' stage, the reference voltage (Vref) +0.15 If the reference voltage (Vref) + 0.20V or less V or less, and the reference level (Vref) + 0.20V or more, it is characterized in that it comprises a pollution degree determination step (S26) determined as a "strong pollution" step.

1 is a control block diagram of an air conditioner according to the present invention.

2 is a view showing a change in the output value according to the contamination amount of the contamination detection unit according to the present invention.

3 is a timing diagram illustrating a pollution detection step after powering on according to a preferred embodiment of the present invention.

4 is a flow chart according to the air cleaning control method of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

20: pollution detection unit 21: gas sensor

22: heater 30: indoor fan drive unit

31: indoor fan 40: dust collection unit

41: electrostatic precipitator

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

As shown in FIG. 1, the air conditioner according to the present invention receives a pollution detection unit 20 and a pollution detection signal from the pollution detection unit 20 for detecting the amount of dust and suspended matter contained in the indoor air. The control unit 10 for determining the degree of contamination, the dust collecting mechanism 40 for controlling the driving of the electrostatic precipitator 41 by receiving the control signal of the control unit 10, and the indoor fan driving unit for controlling the driving of the actual fan ( 30), the power input unit 50 for supplying the power required to drive the control unit 10, the user to receive the air conditioning heating, cooling, dehumidification, clean function and discharge resistance air flow, wind direction, desired room temperature, etc. The key input section 60 is configured.

The pollution detection unit 20 is well implemented as a semiconductor gas sensor. In general, the semiconductor gas sensor is a contact combustion type sensor, in which SnO ₂ , ZnO, aFe ₂ added Pt, Pd, etc. to the alumina sintered body as a sensitization catalyst. O _3, etc. is replaced with an oxide semiconductor made by sintering.

The semiconductor gas sensor using SnO ₂ is one in which the electrical conductivity of the semiconductor is changed as the gas is adsorbed and desorbed on the semiconductor surface, that is, the electrical resistance is changed according to the amount of gas adsorbed on the oxide semiconductor surface. The sensor has a built-in heater, and the sensor heats the gas of the gas by heating the sensing part of the semiconductor to about 200-300 ° C. using the heater.

The pollution detection unit 20 according to the present invention, as shown in FIG. 1, is connected in parallel with the gas sensor 21 having the heater 22, the gas sensor 21, and the gas sensor 21. A variable resistance VR connected in parallel with the gas sensor 21 having a sensitivity of and adjusting the initial reference voltage of the gas sensor 21 to a predetermined voltage (for example, 2.5 V). And a resistor R2 connected in series with the variable resistor VR.

2 is a view showing a change in the output value according to the contamination amount of the contamination detection unit according to the present invention. 2 is a view illustrating a change in the detection voltage Vsen of the gas sensor 21 detected by the pollution detecting unit 20 according to the amount of cigarettes smoked in the indoor space, that is, the amount of gas generated by smoking. For example, when one cigarette is smoked, the detection voltage of the gas sensor 21 is about 82 mV. When two cigarettes are smoked, the detection voltage is about 178 mV. When three cigarettes are smoked, the detection voltage is about 244 mV. The voltage will change. Therefore, the controller 10 can determine the degree of contamination in the air conditioning space based on the change in the detection voltage of the pollution detection unit 20.

The indoor fan driver 30 rotates the indoor fan by controlling the driving voltage of the indoor fan in multiple stages according to the pollution degree of the indoor air determined by the controller 10 based on the detection result of the pollution detecting unit 20. Variable speed

The air cleaning control method of the air conditioner according to the present invention having the above configuration will be described with reference to FIGS. 3 and 4. 3 is a timing diagram showing a pollution detection step after powering on according to a preferred embodiment of the present invention, and FIG. 4 is a flowchart showing an air cleaning control method of an air conditioner according to the present invention.

First, it is determined whether a predetermined time has elapsed after the power is supplied to the air conditioner in step S10.

If the predetermined time has not elapsed, the process proceeds to step S12, in which the user selects the desired functions such as the desired room temperature, the type of cooling and heating operation, the discharge air volume and the wind direction by the user through the key input unit 60. Determine if driving is on.

If the user selects a function for the air conditioning operation and the operation of the air conditioner is turned on, the process proceeds to step S14 to perform the selected air conditioning operation.

Then, the process proceeds to step S16 while performing the selected air conditioning operation to determine whether a predetermined time has elapsed after the power is supplied to the air conditioner.

If the operation of the air conditioner is not turned on in step S12, step S10 is repeated.

As described above, the reason for determining whether a predetermined time has elapsed in steps S10 and S16 is that as shown in FIG. 3, the instability state of the gas sensor 21 of the pollution detection unit 20 in the initial stage A when the power is turned on. This is because the contamination level in the harmonized space is not accurately detected. That is, since the gas detection part of the semiconductor is not sufficiently heated by the heater, the adsorption and desorption speed of the gas is low, so it is difficult to determine that the amount of gas initially detected by the gas sensor 21 is an accurate pollution degree value. Therefore, the controller 10 determines the pollution degree of the harmonic space from the data by the pollution degree signal input after a predetermined time (section A of FIG. 3) has elapsed. The stabilization time of the gas sensor 21 varies slightly depending on the size and type of the sensor, but in the case of a gas sensor used in an air conditioner, a stabilization time of about 5 minutes is generally required.

As a result of the determination in step S10 or S16, if a predetermined time has elapsed after the power is supplied to the air conditioner, the flow proceeds to step S18 to detect the indoor pollution level. The output voltage of the pollution detection unit 20 according to the pollution degree detected by the driving of the gas sensor 21 is input to the one input terminal of the control unit 10, and the control unit 10 detects the input gas sensor 21. Based on the voltage Vsen, it is determined whether the indoor air is polluted or not. The sensing voltage Vsen of the gas sensor 21 is analog / digital (A / D) converted. In the case of an 8-bit microcomputer, a digital value of 0 to 255 can be counted, and thus the highest voltage that can be applied to the gas sensor. When this voltage is adjusted to 2.5V, the digital conversion value 1 corresponds to about 0.01V.

While detecting and determining the pollution level as described above, the process proceeds to step S20 to set a reference value for determining whether the indoor air is polluted. In step S20, the control unit 10 determines the contamination level detected in step S18, that is, the detection voltage Vsen input to the control unit 10 for a predetermined voltage value for a predetermined time (Section B of FIG. 3), for example, for 40 seconds. If the voltage is kept within the range of ± 0.01 V (corresponding to digital value 1 due to A / D conversion), the reference voltage Vref is set to determine whether the indoor air is contaminated.

After the reference voltage Vref is set, the detection voltage Vsen input from the gas sensor 21 is determined to continuously determine the pollution degree of the indoor air.

In step S22, the sensing voltage Vsen sensed by the gas sensor 21 is compared with a predetermined reference value Vref + 0.03V to determine whether the electrostatic precipitator 41 is driven, and at this time, the degree of pollution of the indoor air. If the corresponding sensing voltage Vsen does not reach the reference value Vref + 0.03V, it is determined in step S36 whether the electrostatic precipitator 41 is currently being driven. If the electrostatic collector 41 is in the off state, the process is repeated from step S18. If the electrostatic precipitator 41 is in the running state, the process proceeds to step S38 to provide the discharge air volume input by the user in step S14. The fan is driven at the set constant speed.

However, if the sensing voltage Vsen of the gas sensor 21 is equal to or greater than the predetermined reference value Vref + 0.03V in step S22, the degree of contamination of the indoor air is such that the condition for driving the electrostatic precipitator 41 is satisfied. In step S24, power is supplied to the electrostatic precipitator 41 to start the air cleaning operation.

In order to determine the driving conditions of the electrostatic precipitator in step S22, the sensing voltage Vsen of the gas sensor 21 is compared with the reference value Vref + o.o3V which is added to the reference voltage Vref set in step S20 by 0.03V. The reason is that since the gas adsorbed to the gas sensor 21 is not completely dropped by the continuous driving of the gas sensor 21 and some traces are continuously adsorbed to the gas sensor 21, the gas is thus judged whether or not it is contaminated. This is for judging in consideration of the detection voltage by the gas continuously adsorbed to the sensor 21. That is, 0.03 V added to the reference voltage Vref in the reference value for determining whether the indoor air is contaminated may be a compensation value for a small amount of gas continuously adsorbed without falling from the gas sensor 21.

Therefore, according to the pollution detection method as described above according to the present invention, it is possible to more accurately determine whether the indoor air pollution.

In step S26, the degree of contamination in the room is determined by comparing the sensed voltage by the gas sensor 21 with the pollution discrimination voltage set in the multi-level (Vsen). For example, if the sensing voltage (Vsen) is less than the reference voltage (Vref) + 0.03V or more than the reference voltage (Vref) + 0.15V, the current pollution level of the indoor air corresponds to the 'weak pollution' stage (section C in FIG. 3). If the reference voltage (Vref) + 0.15V or more, if the reference voltage (Vref) + 0.2V or more, the 'heavy pollution' stage (section D in Fig. 3), if the reference voltage (Vref) + 0.2V or more 'It is determined that it corresponds to the step (section E of FIG. 3).

Then, in step S28 by varying the rotational speed of the indoor fan 31 in proportion to the pollution degree of the indoor air determined in step S26, the dust and floating matter contained in the indoor air according to the pollution degree of the indoor air electrostatic precipitator 41 It is possible to improve the collection efficiency by promoting the circulation of the indoor air to be easily collected by the drive of. For example, in the case of the 'weak pollution' step, the rotation speed of the indoor fan 31 is driven at a rotation speed one step higher than the predetermined predetermined rotation speed to provide a discharge air volume set by the user in step S14. In addition, in the 'heavy pollution' stage, the indoor fan 31 is driven at a rotational speed two steps higher than the set rotation speed, and in the 'strong pollution' phase, the indoor fan at a rotational speed three steps higher than the set rotation speed ( 31).

However, the above description is based on the premise that the air conditioner operation is in progress. If the air conditioner operation signal is not input even after a predetermined time has elapsed after the initial power is applied to the air conditioner, the gas sensor 21 is detected in step S28. The rotational speed of the indoor fan is determined based on the reference voltage Vref set by the result.

When the pollutant contained in the indoor air is removed by driving the electrostatic precipitator 41 by performing the air cleaning operation as described above, in step S30, the detection voltage Vsen by the gas sensor 21 is set to the reference value Vref + 0. / 03V) to determine whether to drive off the electrical collector 41. That is, as a result of comparing the sensing voltage Vsen of the gas sensor 21 with a reference value, that is, the reference voltage Vref + 0.03V, the sensing voltage Vsen of the gas sensor 21 becomes the reference value Vref + 0.03V. If less than, it is determined that the pollution level of the indoor air satisfies the condition for stopping the operation of the electrostatic precipitator 41, and the air cleaning operation is terminated by cutting off the power applied to the electrostatic precipitator 41 in step S32. G section of 3 degrees).

In addition, in step S34, the indoor fan 31, which was driven by receiving a predetermined rotational speed proportional to each pollution degree, is driven at a preset rotational speed to provide a discharge air volume set by the user. If not, the indoor fan is driven at a rotational speed lower by a predetermined step than the rotational speed determined according to the reference voltage Vref in step S28.

As described in detail above, according to the air cleaning control method of the air conditioner of the present invention, after a predetermined time for stabilization of the gas sensor 21 elapses, the degree of pollution of indoor air is based on a signal input from the gas sensor. In addition, when setting the reference value (Vref + 0.03V) to determine the driving condition of the electrostatic precipitator, the compensation voltage 0.03V is added to compensate for the detection error of the gas sensor, thereby controlling the pollution of the indoor air and the driving conditions of the electrostatic precipitator. More accurate judgment can be made. In addition, the present invention is to operate the electrostatic precipitator automatically according to the degree of pollution of the indoor air to perform the air cleaning operation, it is effective to give a user convenience and create a comfortable environment.

Claims (1)

The electrostatic precipitator 41 collects and removes pollutants by applying a high voltage, the pollution detector 20 having a gas sensor 21 to detect dust and suspended matter contained in the indoor air, and the indoor air flows into and exchanges heat. It is provided with a fan 31 for discharging air into the room, to determine whether the indoor air is contaminated, to control the driving of the electrostatic precipitator, and to drive the fan 31 at a set rotation speed proportional to the degree of contamination of the room A method for controlling air cleaning of an air conditioner, the method comprising: determining whether a preset gas sensor stabilization time has elapsed from a time point at which power is supplied to the air conditioner so as to prevent the gas sensor 21 from malfunctioning (S10); Detecting a pollution level of indoor air by the gas sensor 21 when a preset gas sensor stabilization time elapses after the power is supplied to the air conditioner (S18); When the detection voltage (Vsen) is maintained within a predetermined voltage ± 0.01V range for a predetermined time by determining the detection voltage (Vsen) of the gas sensor 21 according to the pollution degree of the room input in the step S18, the constant voltage Setting the reference voltage to Vref (S20); After setting the reference voltage (Vref) for determining the pollution degree of the indoor air in the step S20, to determine whether the electrostatic precipitator 41 is driven, to a small amount of gas continuously adsorbed by the gas sensor 21 The detection voltage Vsen of the gas sensor 21 is compared with the reference value set in addition to the reference voltage Vref set in step S20 to compensate for the detection error caused by the air. An electrostatic precipitator operating condition determination step (S22) for driving the electrostatic precipitator when the detected voltage Vsen is greater than the reference value Vref + 0.03V; The sensing voltage Vsen of the gas sensor 21 is equal to or greater than the reference voltage Vref + 0.03V and the reference voltage Vref + 0.15V so as to variably drive the rotational speed of the fan 31 according to the intensity of pollution. If less than the current pollution level of the indoor air in the 'weak pollution' phase, reference voltage (Vref) + 0.15V or more, if the reference voltage (Vref) + 0.20V or less, the 'medium pollution' phase, reference voltage (Vref) + 0.20V or more Air pollution control method for an air conditioner, characterized in that it comprises a pollution degree determination step (S26) to determine the 'strong pollution' step.