KR20120073924A - Adaptive control method of air cleaner - Google Patents

Abstract

PURPOSE: A method for adaptively controlling an air purifier is provided to maximally derive the functional efficiency of the air purifier and to reduce the inconvenience of users. CONSTITUTION: A method for adaptively controlling an air purifier includes the following: illuminance around an air purifier is measured to set sensitivity according to the range of the illuminance(100); noise values around the air purifier are measured to set the maximum fan revolution per minute(RPM) according to the range of the noise values(200); pollution degrees are verified based on the set sensitivity; and the air purifier is operated at an RPM which is lower than or equal to the set maximum fan RPM(300).

Description

Adaptive control method of air cleaner

The present invention relates to a method of adaptively controlling an air cleaner according to ambient noise and illuminance.

An air cleaner is a device that takes in contaminated air and filters it with various filters and then discharges it back to the surroundings.

As shown in FIG. 1, the air cleaner 10 includes an air inlet 11 through which air is sucked and an air outlet 12 through which filtered air is discharged. In addition, the blower 30 is provided to suck the air around the air cleaner 10 through the air inlet 11. The filter unit 20 is also provided to filter the sucked air. The filter unit 20 is provided with a dust removal filter or odor removal filter to filter the dust or odorous substances contained in the sucked air. In addition, the air cleaner 10 is also provided with a humidifier 40 that can supply moisture to the sucked air. And, as shown, there is also provided a dust sensor 70 for measuring the amount of dust around.

In addition, the air cleaner 10 may also be provided with a controller 60 for checking the state of the filter unit 20, the blower unit 30, or the humidifier unit 40 and controlling their operation as shown. have. In addition, an input unit and a screen display unit 50 capable of displaying the state of the filter unit 20, the blower unit 30, or the humidifier unit 40, or controlling their operations are also provided. Accordingly, the user may adjust the operation of the filter unit 20, the blower unit 30, or the humidifier unit 40 through the input unit and the screen display unit 50.

The present invention proposes a control method of the air cleaner that can adjust the maximum degree of operation of the air cleaner in consideration of the noise and the illumination of the air cleaner.

Adaptive air purifier control method according to an embodiment of the present invention for solving the above problems is a sensitivity setting process for measuring the illumination of the air purifier peripheral part and setting the sensitivity according to the illumination range, measuring the noise of the air purifier peripheral and noise A maximum fan RPM setting process of setting a maximum fan RPM according to a range, and an operation process of determining a pollution degree based on the set sensitivity and operating the air cleaner with a fan operating RPM less than the set maximum fan RPM.

The sensitivity setting process may set the sensitivity to the first sensitivity if the measured illuminance is greater than or equal to the first illuminance, and if the measured illuminance is less than or equal to the second illuminance, the sensitivity is set to the second sensitivity, and the measured illuminance is greater than the second illuminance. If it is less than the illuminance, the sensitivity is set as the third sensitivity, and the sensitivity is high in the order of the first sensitivity, the third sensitivity, and the second sensitivity.

The first illuminance and the second illuminance are set in consideration of a change in solar illuminance.

The maximum fan RPM setting process may set the sensitivity to the first fan RPM if the measured illuminance is greater than or equal to the first noise level, and sets the sensitivity to the second fan RPM if the measured illuminance is less than or equal to the second noise value, and the measured illuminance is set to 2 If the noise level is less than the first noise level, the sensitivity is set by the third fan RPM, and the fan RPM is high in the order of the first fan RPM, the third fan RPM, and the second fan RPM.

The first fan RPM is set in consideration of the power consumption and the dedicated area of the air cleaner.

The second fan RPM is set in consideration of the minimum operating RPM and the dedicated area of the air cleaner.

The adaptive air purifier control method of the present invention by the above solution means can adaptively control the air purifier according to the change of the surrounding environment, thereby maximizing the functional efficiency of the air purifier while reducing the inconvenience of the user.

1 is a view showing the structure of a general air cleaner.
2 is a flow chart showing the operational flow of the adaptive air purifier control method of the present invention.
3 is a flowchart illustrating a detailed flow of an embodiment of the sensitivity setting process of the adaptive air purifier control method of the present invention.
4 is a flowchart illustrating a detailed flow of an embodiment of the maximum fan RPM setting process in the adaptive air purifier control method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification.

In addition, when a part is said to "include" a certain component, this means that it may further include other components, except to exclude other components unless otherwise stated.

2 is a flow chart showing the operational flow of the adaptive air purifier control method of the present invention.

Referring to FIG. 2, the adaptive air purifier control method of the present invention may include a sensitivity setting process, a maximum RPM setting process, and an operation process.

In the sensitivity setting process 100, the illuminance around the air cleaner may be measured and the sensitivity may be set according to the illuminance range. This is because the amount of movement of dust may change depending on the illuminance of the surrounding environment. For example, in the daytime, the illuminance is high, and accordingly, not only increases the number of active bodies such as humans, but also activates the air flow by sunlight, thereby increasing the amount of dust moving. On the contrary, at night, the light intensity is low, and the movement of dust can be reduced by reducing the number of active objects and the effect of sunlight.

Therefore, if the sensitivity of the air purifier is kept constant, there is a fear that the air purifier may be excessively operated by judging the pollution degree by the dust continuously in a high illuminance situation. On the other hand, in low light conditions, the contamination level caused by dust is continuously judged to be low, and thus the air cleaner does not operate and may not function properly.

Accordingly, in the sensitivity setting process 100, the sensitivity of the air cleaner may be set differently according to the range of illumination by setting the range of illumination.

The maximum fan RPM setting process 200 may measure the noise around the air cleaner and set the maximum fan RPM according to the noise range. According to the noise level of the surrounding environment, the inconvenience caused by the rotation of the fan of the air cleaner may be different. For example, when the noise level of the peripheral portion is high, the noise caused by the rotation of the fan of the air cleaner is buried in the noise of the peripheral portion, which may be low to the user. On the contrary, when the noise level of the peripheral part is low, the noise due to the fan rotation of the air cleaner is greatly felt by the user, so that the noise of the air cleaner is excessive even when operated at a moderate operating RPM.

Therefore, if the maximum fan RPM of the air cleaner is kept constant, there is a concern that the noise caused by the fan rotation of the air cleaner is excessive in a situation where the ambient noise is low. In addition, in a situation where the noise of the surrounding part is high, the noise generated by the fan rotation of the air cleaner is hardly felt, so it may not be a problem to increase the maximum fan operation of the air cleaner.

In the maximum fan RPM setting process 200, the maximum fan RPM of the air cleaner may be set differently according to the amount of noise by determining a range of noise of the peripheral part.

In operation 300, the pollution level may be determined based on the set sensitivity, and the air cleaner may be operated at a fan operation RPM less than or equal to the set maximum fan RPM. In particular, during the automatic operation of the user, it is possible to control the air cleaner adaptively to the environment by using the set sensitivity and the maximum fan RPM.

In the operation process 300, the fan of the air cleaner is operated within a range not exceeding the maximum fan RPM, thereby minimizing inconvenience caused by the noise felt by the user, and detecting pollution of the surroundings using the set sensitivity to turn the fan of the air cleaner. You can set the total amount.

3 is a flowchart illustrating a detailed flow of an embodiment of the sensitivity setting process of the adaptive air purifier control method of the present invention.

Referring to FIG. 3, in the sensitivity setting process 100 of the present invention, the illuminance of the peripheral part may be measured, and the sensitivity of the air purifier may be set to a sensitivity corresponding to a range in which the measured illuminance belongs to a preset illuminance range.

In the sensitivity setting process 100, if the measured illuminance is greater than or equal to the first illuminance 101, the sensitivity may be set 103 as the first sensitivity. In particular, in the case of the first illuminance or more, it is determined that the amount of dust movement is large, so that the sensitivity is set to a low level to prevent excessive operation of the air cleaner.

In the sensitivity setting process 100, if the measured illuminance is less than or equal to the second illuminance 105, the sensitivity may be set 107 as the second sensitivity. In particular, in the case of the second illuminance or less, it is determined that the amount of dust movement is small, so that the sensitivity is set to a high level, thereby preventing the air cleaner from operating almost.

In the sensitivity setting process 100, if the measured illuminance is greater than the second illuminance but less than the first illuminance (101, 105), the sensitivity may be set as the third sensitivity (109). Referring to the above, the sensitivity may be set in the order of the first sensitivity, the third sensitivity, and the second sensitivity.

In particular, the first illuminance and the second illuminance may be set in consideration of a change in solar illuminance. That is, the first illuminance and the second illuminance may be determined by reflecting a change in dust movement amount due to daylight or night sunlight.

4 is a flowchart illustrating a detailed flow of an embodiment of the maximum fan RPM setting process in the adaptive air purifier control method of the present invention.

Referring to FIG. 4, in the maximum fan RPM setting process 200 of the present invention, the maximum fan RPM of the air cleaner may be set to a maximum fan RPM corresponding to a range in which measurement illuminance belongs to a noise level measured in a peripheral area. have.

In the maximum fan RPM setting process 200, if the measured noise level is greater than or equal to the first noise level 201, the maximum fan RPM may be set as the first fan RPM (203). In particular, when the noise level is greater than or equal to the first noise level, it is determined that the inconvenience caused by the rotation of the fan of the air cleaner is less, and the maximum fan RPM may be set to a high level to maximize the function of the air cleaner.

In the maximum fan RPM setting process 200, if the measured noise level is less than or equal to the second noise level 205, the maximum fan RPM may be set as the second fan RPM (207). In particular, in the case of the second noise level or less, it is determined that the inconvenience caused by the fan rotation of the air cleaner is large, so that the maximum fan RPM may be set to a low level to reduce user inconvenience caused by the operation of the air cleaner.

In the maximum fan RPM setting process 200, if the measured noise value is greater than the second noise value and less than the first noise value 201 and 205, the maximum fan RPM may be set as the third fan RPM (209). Referring to the above, the maximum fan RPM may be set higher in order of the first fan RPM, the third fan RPM, and the second fan RPM.

In particular, the first fan RPM may be set in consideration of the power consumption and the dedicated area of the air cleaner, and the two fan RPM may be set in consideration of the minimum operating RPM and the dedicated area of the air cleaner.

In addition, the first noise level and the second noise level may be set in consideration of the noise level and the dedicated area generated by the fan of the air cleaner.

Through the adaptive air purifier control method described above, it is possible to adaptively control the air purifier according to the change of the surrounding environment, thereby maximizing the functional efficiency of the air purifier while reducing the inconvenience of the user.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art.

10: air cleaner 11: air intake
12 air outlet 20 filter part
30: blower 40: humidifier
50: input unit and screen display unit 60: control unit
70: dust sensor

Claims (6)

A sensitivity setting process of measuring the illuminance of the air purifier periphery and setting the sensitivity according to the illuminance range;
A maximum fan RPM setting process of measuring a noise level around the air cleaner and setting a maximum fan RPM according to a noise level range; And
And determining a pollution level based on the set sensitivity and operating the air cleaner at a fan operating RPM less than or equal to the set maximum fan RPM.
The method of claim 1, wherein the sensitivity setting process is performed.
If the measurement illuminance is equal to or greater than the first illuminance, the sensitivity is set as the first sensitivity,
If the measurement illuminance is less than or equal to the second illuminance, the sensitivity is set as the second sensitivity,
If the measured illuminance is greater than the second illuminance but less than the first illuminance, the sensitivity is set to a third sensitivity,
An adaptive air purifier control method with low sensitivity in order of first sensitivity, third sensitivity, and second sensitivity.
The method of claim 2, wherein the first illuminance and the second illuminance are set in consideration of a change in solar illuminance.
According to claim 1, wherein the maximum fan RPM setting process
If the measured noise level is equal to or greater than the first noise level, the sensitivity is set to the first fan RPM.
If the measured noise level is less than or equal to the second noise level, the sensitivity is set by the second fan RPM.
If the measured noise level is greater than the second noise level and less than the first noise level, the sensitivity is set to the third fan RPM.
The method of controlling the adaptive air cleaner having the highest fan RPM in the order of the first fan RPM, the third fan RPM, and the second fan RPM.
The method of claim 4, wherein
The first fan RPM is set in consideration of the power consumption and the dedicated area of the air cleaner.
The method of claim 4, wherein
The second fan RPM is set in consideration of the minimum operating RPM and the dedicated area of the air cleaner.

Images