KR100727678B1 - Method for detecting the exchange period of air-cleaner filter and air-cleaner using the same - Google Patents

Abstract

A method and an air cleaner for detecting the exchange period of an air cleaner filter are provided to accurately detect the exchange period of the air cleaner filter irrespective of fluctuations in drive voltage of a motor. A method for detecting the exchange period of air cleaner filter comprises: a step(S130) of detecting a first drive voltage that is a drive voltage of a motor and a first rotation control signal that is a rotation control signal of the motor at a time point when start operating the air cleaner after the filter is mounted on the air cleaner; a step(S140) of detecting a second drive voltage that is a drive voltage of the motor and a second rotation control signal that is a rotation control signal of the motor while the air cleaner is used; a step(S150) of converting the first rotation control signal into a first rotation control signal at a reference drive voltage preset according to the first drive voltage, and converting the second rotation control signal into a second rotation control signal at the reference drive voltage according to the second drive voltage; and a step(S160) of determining that it is the filter exchange period if a difference between the converted first rotation control signal and the converted second rotation control signal is larger than the preset reference value.

Description

Detection method of filter replacement time of air purifier and air purifier using the same {METHOD FOR DETECTING THE EXCHANGE PERIOD OF AIR-CLEANER FILTER AND AIR-CLEANER USING THE SAME}

1 is a flow chart for detecting a filter replacement time of the air purifier according to the present invention.

2 is a block diagram of an air cleaner according to the present invention.

<Description of the symbols for the main parts of the drawings>

210: motor 220: fan

230: drive voltage detection unit 240: rotation speed detection unit

250: rotation control unit 260: motor driving unit

270: memory section 280: display section

290: control unit

The present invention relates to a method for detecting a filter replacement cycle of an air purifier and an air purifier using the same. More particularly, the rotation control signal of the air purifier motor, which is varied according to the driving voltage and the degree of blockage of the filter, is controlled at the reference driving voltage. The present invention relates to a method for detecting a filter replacement cycle of an air purifier capable of accurately detecting a filter replacement time using a variable size of a converted control signal converted into a signal and a device thereof.

In general, an air purifier is a sanitary device that filters only contaminants, fine dust, and the like in the air sucked into the inlet in the process of forcibly circulating the indoor air by blowing, and discharges only the clean air to the outlet.

The inlet of the air cleaner is provided with a filter for collecting, sterilizing and deodorizing contaminated indoor air. Such filter should be replaced when the filter is clogged after a certain period of use. In order for the air cleaner to be effective, the filter should be replaced properly.

The conventional method for determining the timing of replacement of a clogged filter is to receive a clock signal generated when a fan motor for sucking external polluted air rotates, calculate a rotation amount or rotation time of the fan motor, When the rotation amount or rotation time was larger than the preset value by comparing with the preset filter replacement value, it was determined as the filter replacement time.

Such a conventional filter replacement time determination method is determined as the filter replacement time when the air cleaner is operating in a low pollution level even if there is no need to replace the filter. It was judged that there was a problem that the reliability of the filter replacement time judgment is low.

In order to solve this problem, a method of determining the replacement cycle of the filter by comparing the PWM duty ratio for controlling the rotational speed of the fan motor of the air cleaner with a predetermined value has been developed.

The fan motor in the air cleaner has a high speed when the air inflow of the filter is low, and a low PWM duty ratio to adjust the speed to the proper speed. Greater filter contamination reduces air inflow, which results in higher fan motor speeds and lower PWM duty ratios. At this time, the replacement time of the filter can be known by comparing the PWM duty ratio with a preset value.

However, even in such a method, the PWM duty ratio varies depending on the driving voltage of the motor. In an operating environment in which voltage fluctuations are severe, the PWM duty ratio also fluctuates so that it is impossible to accurately detect the filter replacement time. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems of the prior art, and an object thereof is to provide a method and apparatus for detecting a filter replacement cycle of an air cleaner that can accurately detect a filter replacement time regardless of a change in the drive voltage of a motor. There is.

In order to achieve the above technical problem, the present invention, a method for detecting the filter replacement time of the air cleaner to purify the air by rotating the motor according to the rotation control signal which is variable according to the driving voltage of the motor and the filter clogging state. And detecting the first driving voltage which is a driving voltage of the motor and the first rotation control signal which is a rotation control signal of the motor at the time when the operation of the air cleaner is started. Detecting a second driving voltage, which is a driving voltage of the motor, and a second rotation control signal, which is a rotation control signal of the motor, during the use of the air cleaner, and converting the first rotation control signal to the first driving voltage. According to the first rotation control signal at a predetermined reference driving voltage, and converting the second rotation control signal to the second driving voltage at the reference driving voltage according to the second driving voltage. Converting to a pre-control signal and determining the filter replacement time when the difference between the converted first rotation control signal and the converted second rotation control signal is greater than a predetermined reference value. Provides a method for detecting filter replacement time.

The present invention also relates to an air purifier in which the motor is rotated to purify the air by a rotation control signal that is changed according to the driving voltage of the motor and the clogging state of the filter, wherein the motor and the driving voltage of the motor are detected. A power supply detection unit, a rotation speed detection unit for detecting the rotation speed of the motor, a rotation control unit for generating a rotation control signal that is variable according to the driving voltage of the motor and the blockage state of the filter, and the motor according to the rotation control signal. A motor driving unit for driving the motor to maintain a constant number of revolutions of the motor, and a first driving voltage and a first rotation control signal of the motor driving voltage and the rotation control signal at the time of starting operation after the filter is replaced. The driving voltage and the rotation signal of the motor at the time of detecting the blocked state of the filter are respectively stored as the second driving voltage and the second driving voltage. A memory unit for storing a pre-control signal, and converting the first rotation control signal into a first rotation control signal at a predetermined reference driving voltage according to the first driving voltage, and converting the second rotation control signal into the second rotation control signal. When the difference between the converted first rotation control signal and the converted second rotation control signal is greater than the predetermined reference value, the filter replacement time is determined by converting the second rotation control signal at a predetermined reference driving voltage according to the driving voltage. And a display unit for indicating that the replacement time of the filter has elapsed under the control of the control unit and the control unit.

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

1 is a flowchart illustrating a method of detecting a filter replacement time of an air cleaner according to the present invention.

Referring to Figure 1, S110 is a step of replacing the filter, S120 is a step of turning on the power switch of the air cleaner. S130 is a step of detecting the first driving voltage and the second rotation control signal of the air cleaner, S140 is a step of detecting the second driving voltage and the second rotation control signal. S150 is a step of converting the first rotation control signal and the second rotation control signal into a rotation control signal at a reference drive voltage, respectively, and S160 is the converted first rotation control signal and the converted second rotation control signal. And determining whether the difference between the first rotation control signal and the converted second rotation control signal is greater than the predetermined reference value. It's a step.

2 shows a block diagram of an air cleaner according to the present invention.

2, the air purifier according to the present invention, a motor 210 driven by a rotation control signal that is variable according to the drive voltage, a fan 220 that rotates in accordance with the drive of the motor 210, A power detection unit 230 for detecting a driving voltage of the motor 210, a rotation speed detection unit 240 for detecting a rotation speed of the motor 210, and a clogging state of a driving voltage and a filter of the motor 210. Rotation control unit 250 for generating a rotation control signal that is variable according to the motor control unit 250 for driving the motor 210 in accordance with the rotation control signal to maintain a constant number of revolutions of the motor 210 And after the filter is replaced, the first driving voltage which is the driving voltage of the motor 210 and the first rotation control signal which is the rotation control signal at the starting point of operation after the filter is replaced, and when the clogging state of the filter is detected. The second driving voltage which is the driving voltage of the motor 210 and the rotation A memory unit 270 storing a second rotation control signal which is an fish signal, and converting the first rotation control signal into a first rotation control signal at a predetermined reference driving voltage according to the first driving voltage; Converting the second rotation control signal into a second rotation control signal at the reference driving voltage according to the second driving voltage, such that a difference between the converted first rotation control signal and the converted second rotation control signal is greater than a preset reference value; If large, the control unit 280 and the first rotation control signal stored in the memory unit 270 to determine the filter replacement time is converted into a rotation control signal at a predetermined reference driving voltage, respectively, and the converted first rotation control When the difference between the signal and the converted second rotation control signal is greater than a predetermined reference value, the control unit 280 determines that the filter replacement time, and the control time of the control unit 280 indicates that the filter replacement time has elapsed The display unit 290 is included.

The motor 210 may be a BLDC motor (brushless DC motor) capable of precisely adjusting the rotation speed.

Hereinafter, with reference to the accompanying drawings will be described in more detail the operation and effect of the present invention.

1 and 2, the filter replacement method of the air cleaner according to the present invention starts from the step S110 of replacing the filter. If the power switch is turned on after the new filter is replaced (S120), the operation of the air cleaner is started. When the operation of the air cleaner is started after the filter is replaced, the first driving voltage and the first rotation control signal of the motor of the air cleaner are detected at the start of operation of the air cleaner (S130).

The present invention is to determine the degree of filter clogging of the air cleaner according to the difference between the rotation control signal immediately after the filter is replaced and the rotation control signal during use of the air cleaner. Therefore, if the air cleaner is operated after the filter is replaced, it is essential to detect and store the rotation control signal at the start of operation.

The air cleaner rotates the fan 220 in accordance with the driving of the motor 210 to suck the outside air through the suction port, and discharges the air from which the pollutant is removed by the filter to the discharge port. As the degree of clogging of the filter increases, the amount of air sucked into the suction port decreases, so that the rotation speed of the motor 210 increases, and the rotation for driving the motor 210 to maintain a constant rotation speed of the motor 210. The magnitude of the control signal is reduced.

In addition, since the rotation speed of the motor 210 is increased even when the driving voltage of the motor 210 increases, the rotation control signal also changes when the driving voltage is changed. Therefore, after the filter is replaced, the first driving voltage which is the driving voltage of the motor 210 is measured together with the first rotation control signal.

To this end, after the filter is replaced, the driving voltage detection unit 230 of the air cleaner detects the first driving voltage which is the driving voltage of the motor 210 and stores it in the memory unit 270. At the same time, the first rotation control signal, which is a rotation control signal from the rotation control unit 250, is stored in the memory unit 270.

The rotation control signal is a signal for controlling the rotational speed of the motor and is a signal for causing the motor to rotate at a constant rotational speed. The rotation control signal may be a PWM signal having a PWM duty ratio. When the driving voltage increases, the rotational speed of the motor is increased, so the PWM duty ratio is lowered, and the rotation speed of the motor is reduced. In addition, clogging the filter increases the speed, which in turn lowers the PWM duty ratio.

A new filter is mounted and the air cleaner is used to detect the second driving voltage, which is the driving voltage of the motor, and the second rotation control signal, which is the rotation control signal of the motor, at the time when the air cleaner is detected. ).

When an air cleaner is used in a contaminated indoor environment, fine dust, dust, and the like of the air sucked through the intake port pass through the filter and the filter starts to become clogged. When the degree of clogging increases, the amount of air passing through the filter decreases, thereby increasing the rotation speed of the motor 210. In order to keep the rotation speed of the motor 210 constant, the magnitude of the rotation control signal is reduced.

After the rotation speed detector 240 detects the rotation speed of the motor 210, the controller 290 rotates the rotation to maintain a constant speed when the rotation speed of the motor 210 is higher than a preset rotation speed. The control unit 250 controls the size of the rotation control signal. The motor driver 260 drives the motor 210 according to the rotation control signal, and the rotation speed of the motor 210 decreases as the magnitude of the rotation control signal supplied to the motor driver 260 decreases. Done.

Therefore, the greater the degree of blockage of the filter, the smaller the magnitude of the rotation control signal, so that the degree of blockage of the filter can be determined according to the difference between the second rotation control signal and the first rotation control signal.

Since the rotation speed and the rotation control signal of the motor 210 vary according to the driving voltage of the motor 210, the voltage detection unit 230 determines the second driving voltage of the motor 210 when the second rotation control signal is detected. ) And store the second driving voltage and the second rotation control signal in the memory unit 270.

After the second driving voltage and the second rotation control signal are detected, the first rotation control signal and the second rotation control signal are converted into rotation control signals at the reference driving voltage (S150).

As described above, the rotation control signal of the motor 210 varies depending on the driving voltage of the motor 210 even if the degree of clogging of the filter is the same. When comparing the first rotation control signal and the second rotation control signal without considering that the same driving voltage is different, it is difficult to accurately determine the degree of clogging of the filter. Therefore, in order to compare the first rotation control signal and the second rotation control signal at the same driving voltage, it is necessary to convert the first rotation control signal and the second rotation control signal into rotation control signals at the same reference driving voltage, respectively. Do.

As the driving voltage of the motor increases, the size of the rotation control signal decreases. When the driving voltage of the motor decreases, the magnitude of the rotation control signal increases. Accordingly, the rotation control signal has a predetermined relationship when the driving voltage is changed, and the controller 290 refers to the relationship between the driving voltage and the rotation control signal to drive the first rotation control signal to the first drive. The first rotation control signal at the reference driving voltage is converted according to the voltage, and the second rotation control signal is converted to the second rotation control signal at the reference driving voltage according to the second driving voltage. The reference driving voltage is a predetermined value and may be the first driving voltage or the second driving voltage.

The control unit 290 converts the first rotation control signal and the second rotation control signal into a rotation control signal at the reference driving voltage, respectively, and then converts the converted first rotation control signal and the converted second rotation. The difference of the control signal is compared with a preset reference value (S160). When the difference between the converted first rotation control signal and the converted second rotation control signal is smaller than the reference value, the steps S130 to S160 are repeated. When the difference between the converted first rotation control signal and the converted second rotation control signal is larger than the reference value, it is displayed that the replacement time of the filter is reached (S170).

The controller 290 displays a filter replacement time on the display unit 280 when the converted difference between the converted first rotation control signal and the converted second rotation control signal is greater than the reference value.

The reference value is the magnitude of the rotation control signal which is reduced until replacement of the filter is required by use after replacement with a new filter, and depends on the driving voltage of the motor.

Thus, by converting the rotation control signal after the filter is replaced with the rotation control signal after the filter is replaced with the rotation control signal at the same reference drive voltage, the same conditions are used even in an environment in which the drive voltage of the motor is changed. The rotation control signal can be compared. In this way, it is possible to measure the exact contamination state of the filter without being influenced by the drive voltage of the motor.

The present invention is not limited by the above-described embodiment and the accompanying drawings, but by the appended claims. Therefore, it will be apparent to those skilled in the art that various forms of substitution, modification, and alteration are possible without departing from the technical spirit of the present invention described in the claims, and the appended claims. Will belong to the technical spirit described in.

As described above, according to the present invention, there is an effect that it is possible to accurately detect the replacement time of the filter irrespective of the change in the driving voltage applied to the motor of the air cleaner.

Claims (8)

In the method for detecting the filter replacement time of the air cleaner in which the motor is rotated to purify the air by a rotation control signal that is variable according to the driving voltage of the motor and the clogging state of the filter, Detecting a first driving voltage, which is a driving voltage of the motor, and a first rotation control signal, which is a rotation control signal of the motor, at the starting point of operation of the air cleaner after the filter is mounted to the air cleaner; Detecting a second driving voltage which is a driving voltage of the motor and a second rotation control signal which is a rotation control signal of the motor during use of the air cleaner; Converting the first rotation control signal into a first rotation control signal at a preset reference driving voltage according to the first driving voltage, and converting the second rotation control signal at the reference driving voltage according to the second driving voltage Converting to a second rotation control signal; And Determining the filter replacement time when the difference between the converted first rotation control signal and the converted second rotation control signal is larger than a preset reference value. Filter replacement time detection method of the air cleaner, characterized in that it comprises a. The method of claim 1, wherein the rotation control signal, A filter replacement time detection method of an air purifier, characterized in that the PWM duty signal having a PWM duty ratio. The method of claim 1, wherein the reference value, The filter replacement time detection method of the air cleaner, characterized in that it is set to a different value according to the value set as the reference drive voltage. The method of claim 1, If it is determined that the filter replacement time, indicating that the replacement time of the filter has elapsed Filter replacement time detection method of the air cleaner further comprises a. In the air purifier for purifying the air by rotating the motor by a rotation control signal that is variable depending on the driving voltage of the motor and the clogging state of the filter, A power detector detecting a driving voltage of the motor; A rotation speed detection unit detecting a rotation speed of the motor; A rotation control unit which generates a rotation control signal that varies according to a driving voltage of the motor and a blockage state of the filter; A motor driver for driving the motor in accordance with the rotation control signal to maintain a constant number of revolutions of the motor; After the filter is replaced, the driving voltage of the motor and the rotation control signal are stored as the first driving voltage and the first rotation control signal, respectively, at the time of operation start, and the use of the filter at the time of detecting the blocked state of the filter. A memory unit for storing the driving voltage and the rotation signal of the motor as a second driving voltage and a second rotation control signal, respectively Converting the first rotation control signal into a first rotation control signal at a reference driving voltage preset according to the first driving voltage, and converting the second rotation control signal at a reference driving voltage preset according to the second driving voltage A control unit for converting the second rotation control signal into a filter replacement time when the difference between the converted first rotation control signal and the converted second rotation control signal is greater than a preset reference value; And Display unit indicating that the replacement time of the filter has elapsed under the control of the controller Air cleaner to detect the replacement time of the filter, characterized in that it comprises a. The method of claim 5, wherein the motor, An air purifier for detecting the replacement time of the filter, characterized in that the BLDC motor. The method of claim 5, wherein the rotation control signal, An air purifier for detecting the replacement time of the filter, characterized in that the PWM signal having a PWM duty ratio. The method of claim 5, wherein the reference value, The air purifier for detecting the replacement time of the filter, characterized in that set to a different value according to the value set as the reference drive voltage.

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