KR20100053206A - Air cleaner having noise sensor and method for controlling the same - Google Patents

Abstract

PURPOSE: An air cleaner and a control method thereof are provided to reduce noise of the air cleaner while rapidly removing contaminants by adjusting air volume according to a pollution level and noise. CONSTITUTION: A control method of an air cleaner includes the following steps: measuring a pollution level by a contamination detecting sensor(122); measuring a sound level by a noise sensor(124); determining a level of air volume discharged according to the pollution level; and adjusting the air volume according to the noise level. In a correction step, when the noise level is low, the air volume is reduced. When the noise level is high, the air volume is increased.

Description

Air cleaner with noise sensor and control method {AIR CLEANER HAVING NOISE SENSOR AND METHOD FOR CONTROLLING THE SAME}

The present invention relates to an air cleaner that purifies polluted air and converts it into fresh air.

In general, an air purifier includes a main body having a suction port and a discharge port formed therein, and the main body includes a blower that provides a blowing force for introducing contaminated air into the main body through the suction port and discharging the purified air to the outside of the main body through the discharge port; And a filter for removing contaminants in the air introduced into the main body.

The air purifier also has a pollution level sensor such as a dust sensor or an odor sensor, and the air pollution level is measured by the pollution level sensor. When the air pollution level is large, the air cleaner increases the air volume by increasing the output of the blower, and the air pollution level When low, the output of the blower is lowered to reduce the air volume of the air cleaner.

Table 1 is a diagram showing a method of controlling the air volume of the conventional air purifier according to the pollution degree of the indoor air.

TABLE 1

Referring to Table 1, if the pollution degree is in the nth predetermined range, the air volume is set to n stages. That is, if the pollution degree is the first pollution degree range, the air volume is set to one stage, and if the pollution degree is the second pollution degree, the air volume is set to two stages. It has the effect of removing material quickly.

However, the method of controlling the air volume of the air cleaner only based on the air pollution degree in this way takes into account that the air cleaner may generate more noise as the air volume increases, which may cause inconvenience to the user. I'm not doing it.

For example, if the air purifier operates in a space where a quiet environment is required, such as a reading room, increasing the air volume of the air purifier according to the degree of air pollution in the room may cause the noise from the air purifier to distort the indoor atmosphere and study. It can harm people.

On the contrary, in a crowded and large space such as a gym or an auditorium, it is more important to maintain comfortable indoor air than to reduce the noise generated by the air cleaner.

The present invention was devised to solve the problems of the prior art, and an object of the present invention is to provide an air purifier that improves noise dissatisfaction while quickly purifying polluted air in consideration of noise levels as well as pollution levels.

According to a first aspect of the present invention for achieving the above object, in the control method of the air cleaner to discharge the purified air, measuring the pollution level of the room by the pollution degree sensor, the noise of the room by the noise sensor Measuring the level, determining the number of stages of the amount of air discharged according to the degree of pollution, and correcting the number of stages of the quantity of air determined according to the degree of pollution according to the noise level of the room. It provides a control method of the air purifier, characterized in that it comprises the step of correcting the lowering, and the step of increasing the number of stages of air volume if the indoor noise level is high.

According to the second aspect of the present invention, if the indoor noise level is lower than the reference noise level range, the lowering of the stage of the air volume is corrected, and if the indoor noise level is within the reference noise level range, the stage of the air volume is maintained, If the noise level is higher than the reference noise level range is characterized in that the correction to increase the number of wind volume.

According to a third aspect of the present invention, the reference noise level range is characterized in that the noise level range generated when driving the air cleaner with the singular number of the air volume determined according to the pollution degree.

According to the fourth aspect of the present invention, if the number of stages of air volume determined according to the pollution level is the lowest stage and the noise level of the room is low, the number of stages of air volume determined to the lowest stage is maintained, and the number of stages of air volume determined according to the degree of pollution is the highest stage and If the noise level is high, the number of stages of air flow is maintained at the highest stage.

According to a fifth aspect of the present invention, an amount of air discharged based on a pollution level sensor measuring pollution level in a room, a noise sensor measuring noise level in a room, and a noise level measured by a pollution level measured by the pollution level sensor and a constant noise sensor A control unit for determining the number of stages, and a driving unit for driving to discharge the air volume in the number of stages determined by the control unit, wherein the control unit determines the number of stages of the air volume to be discharged according to the pollution degree, and if the noise level is low, The air purifier is characterized in that the correction is made to lower the number of stages of the air volume, and if the noise level is high, the stage is corrected to increase the stage of the air volume determined according to the pollution degree.

According to the present invention, even when the pollution degree is large, if the noise in the room is small, the user's noise satisfaction is improved by reducing the number of stages of the air volume to reduce the noise generated by the air cleaner. On the contrary, even if the pollution level is small, if the noise in the room is high, the number of air flows is increased to increase the purification performance of the air purifier, thereby achieving a pleasant environment.

In particular, by comparing the indoor noise level and the noise level of the air purifier, when the noise level of the air purifier is expected to be greater than the indoor noise level, by lowering the number of air flow stage of the air cleaner, the user's noise complaints are eliminated. If the noise level of the air purifier is expected to be smaller than the indoor noise level, the fresh air is quickly provided by increasing the air flow stage.

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

1 is a block diagram of a configuration of an air cleaner according to an embodiment of the present invention. Referring to FIG. 1, the air cleaner 100 includes a sensor unit 120, a control unit 140, and a driving unit 160.

The sensor unit 120 includes a pollution degree sensor 122 and a noise sensor 124. Pollution degree sensor 122 may be one or both of a dust sensor and an odor sensor. The pollution degree sensor 122 measures the pollution degree of the indoor air and transmits the measured value to the controller 140. The noise sensor 124 measures the noise level of the room and transmits the measured value to the controller 140.

The controller 140 determines the air flow rate stage of the blower based on the measured values received from the pollution degree sensor 122 and the noise sensor 124, and transmits the air flow stage to the drive unit 160.

The driving unit 160 drives the blower in accordance with the number of air flow rates received from the control unit 140.

Next, a method of controlling the air volume of the air cleaner 100 according to the embodiment of the present invention will be described.

Table 2a is a diagram showing a method of determining the air volume of the air cleaner 100 according to the embodiment of the present invention according to the pollution degree of the indoor air.

TABLE 2a

Referring to Table 2a, the pollution level is divided into the first pollution range to the fifth pollution range, and the air volume is divided into 1 to 5 stages. The air volume is determined in proportion to the pollution degree. If the pollution degree is in the first pollution degree range, the air volume is determined in one stage, and if the pollution degree is in the second pollution degree range, the air volume is determined in two stages. That is, when the pollution degree is the nth pollution degree range, the air volume is determined by n stages (n = 1, 2, 3, 4, 5). In this way, the greater the degree of contamination, the higher the number of stages of the air volume of the air purifier, thereby making it possible to quickly remove contaminants in the air.

Table 2b is a diagram showing a method of correcting the air volume of the air cleaner 100 according to the embodiment of the present invention according to the indoor noise level.

TABLE 2b

Referring to Table 2b, the noise level is divided into a low level range, a reference level range, and a high level range. The air volume correction value is -1 stage when the noise level is in the low level range, the air volume correction value is 0 when the noise level is in the reference level range, and the air volume correction value is +1 stage when the noise level is in the high level range. That is, if the noise in the room is small, the air purifier is sensitive to the noise of the air volume, so it is controlled to lower the number of stages, and if the noise in the air is not sensitive to the noise of the air cleaner, the air volume is to control the number of stages.

Table 2c is a chart showing the air volume of the air cleaner 100 finally determined based on Tables 2a and 2b.

TABLE 2c

Referring to Table 2c, it can be seen from Table 2a that the results of the correction of the air flow rate determined by the pollution level according to the noise level of Table 2b. For example, when the pollution degree of the indoor air is in the fourth pollution degree range, the air flow rate stage according to the pollution degree becomes four stages. However, if the noise level is in the low level range, the room is in a quiet state, and if the air volume is set to four stages, the indoor atmosphere may be disturbed due to the noise of the air cleaner. Therefore, by applying the air flow rate correction value -1 stage corresponding to the low level range and setting the air flow stage to three stages, the indoor air can be purified without increasing the noise of the air cleaner. On the other hand, when the pollution degree is the fourth pollution degree range and the noise level is a high level range, the air flow stage number according to the pollution degree is four stages, but the user is not disturbed by the noise generated by the air cleaner because the room is noisy. Therefore, by applying the air flow rate correction value +1 stage corresponding to the high level range and setting the air flow stage to five stages, the indoor air can be purified more quickly.

However, when the pollution degree is the first pollution degree range and the noise level is the low level range, one level of air volume correction value -1 level according to the noise level is not applied to one stage of the air volume stage according to the pollution level, and thus, one level of air volume is maintained to maintain pollutants. Remove it. Similarly, when the pollution degree is the fifth pollution degree range and the noise level is the high level range, the air volume correction value +1 stage according to the noise level cannot be applied to the fifth stage of the air volume according to the pollution level, so that the air volume is driven to the fifth stage.

As such, even if the indoor air is in the same pollution state, when the room is quiet, a correction is made to reduce the number of air flows in consideration of the noise generated by the air cleaner, and when the room is noisy, the pollutants are removed rather than the noise produced by the air cleaner. It is possible to create a pleasant environment more quickly by making corrections to increase the number of stages of air volume with specific gravity.

Next, the method of calculating the reference level range for determining the air volume correction value will be described.

Correcting the air flow rate stage of the air cleaner according to the noise level is to prevent the user from inconvenience caused by the noise of the air cleaner. Therefore, it is necessary to determine whether the user can hear the noise of the air cleaner, and if the user can hear the noise of the air cleaner and feel uncomfortable, it is necessary to lower the air flow rate to reduce the noise of the air cleaner and the user can reduce the noise of the air cleaner. If you do not hear, you can safely increase the number of winds.

However, the user does not hear or hear the noise of the air cleaner depends on the noise level in the room. That is, if the noise of the air cleaner is less than the noise of the room, the noise of the air cleaner is not heard, and if the noise of the air cleaner is greater than the noise of the room, the noise of the air cleaner is heard and the inconvenience caused by the noise is felt. Therefore, the air volume correction value of the air cleaner is preferably calculated by comparing the noise generated in the air cleaner with the noise in the room.

First, the air purifier stores in the memory a range of noise levels that may occur when driven by each stage of air volume. That is, it stores the noise level range that the air cleaner makes when the air volume is one stage, the noise level range which the air cleaner makes when the air volume is two stage. This value can be entered the first time the air purifier is set, or it can be changed later by running a test. Pollution degree sensor measures the pollution level of the indoor air, and determines the air flow rate stage of the air purifier according to the pollution degree. Then, the control unit calculates the noise level range of the air purifier that can be generated when driven by the air flow rate stage determined according to the pollution degree as the reference level range. For example, when the pollution degree is the fourth pollution degree range, the air flow rate stage of the air cleaner is four stages, and the reference level range is a noise level range generated when the air cleaner is driven in four stages. The noise level range generated when driving in four stages is stored in the memory, so this value should be adopted. Then, a level lower than the reference level range becomes a low level range, and a level higher than the reference level range becomes a high level range.

The reference level range thus determined is compared with the noise level of the room measured by the noise sensor and the air volume correction value is determined. When the indoor noise level is in the small level range, the user may feel uncomfortable with the noise of the air cleaner because the noise level is smaller than the noise generated when driving the air cleaner with the single air volume determined according to the pollution degree. Therefore, the air volume is corrected and driven by one stage to maintain quiet and comfortable indoor air. If the indoor noise level is in the high level range, the user does not hear the noise of the air cleaner because it is greater than the noise generated when driving the air cleaner with the single air volume determined according to the pollution degree. Therefore, strong air purification is performed by driving by correcting the air volume by one step.

In this way, by setting the reference level range for calculating the air volume correction value as the noise that can be generated in the air cleaner when the air flow rate is determined according to the pollution degree, the noise generated in the air cleaner can be compared with the noise in the room. It is possible to eliminate noise complaints that a user may feel by adjusting the amount of air flow based on the volume of air flow.

In this embodiment, the pollution degree is divided into five pollution degree ranges, and the noise level is divided into three level ranges, but this is only one example. Precise control

1 is a block diagram of a configuration of an air cleaner according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100 air purifier 120 sensor unit

122 Pollution Degree Sensor 124 Noise Sensor

140 control unit 160 driving unit

Claims (5)

In the control method of the air cleaner to discharge the purified air, Measuring the pollution level of the room by a pollution degree sensor; Measuring a noise level in the room by a noise sensor; Determining the number of stages of the amount of air discharged according to the pollution degree; And Compensating the number of stages of air volume determined according to the pollution level according to the indoor noise level. If the indoor noise level is low, the stage of the air volume is lowered. If the indoor noise level is high, the stage of air volume is corrected. Control method of an air purifier, characterized in that it comprises a. The method according to claim 1, If the indoor noise level is lower than the standard noise level range, the lower stage of the air volume is corrected. If the indoor noise level is within the standard noise level range, the stage of the air volume is maintained, and the indoor noise level is higher than the standard noise level range. The control method of the air purifier characterized by performing the correction which raises the number of stages of air volume when it is high. The method according to claim 2, The reference noise level range is a noise level range generated when driving the air cleaner with a single stage of the air volume determined according to the pollution degree. The method according to any one of claims 1 to 3, If the number of stages of air volume determined by pollution degree is the lowest stage and the indoor noise level is low, the stage of air volume is kept at the lowest stage, A control method of an air purifier, characterized in that, if the number of stages of the air volume determined according to the pollution degree is the highest stage and the noise level of the room is high, the stage of the air volume is maintained at the highest stage. Pollution degree sensor 122 for measuring the degree of pollution in the room; A noise sensor 124 for measuring a noise level in the room; A controller 140 for determining the number of stages of the amount of air to be discharged based on the pollution degree measured by the pollution degree sensor 122 and the noise level measured by the noise sensor 124; And And a driving unit 160 which drives to discharge the air volume in the number of stages determined by the controller 140. The control unit 140 determines the number of stages of the amount of air discharged according to the degree of pollution, and if the noise level is low, corrects to reduce the number of stages of the quantity of air determined according to the degree of pollution, and if the noise level is high, increasing the number of stages of the amount of air determined according to the degree of pollution. An air purifier, characterized in that for correcting.

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