KR20060035908A - Aircleaner having a dust sensor and control method of it - Google Patents

Abstract

According to the present invention, an air cleaner having a dust sensor 410 capable of achieving perfect cleanness of indoor air in measuring dust pollution of indoor air sucked into the air cleaner and automatically adjusting the clean speed of the air cleaner accordingly. And a control method, the control method comprising: calculating a dust pollution degree of indoor air, controlling an air volume of the air cleaner 100 in response to the dust pollution degree, and the dust pollution degree being "upper" Or when the dust pollution decreases in the state of "medium", after maintaining the existing air volume for the set time, the air volume is changed in response to the reclaimed dust pollution, and the dust pollution degree increases in the state of the dust pollution "low". If so, characterized in that it comprises the step of changing the air volume immediately corresponding thereto. Therefore, the polluted air located far from the air purifier can be completely purified, thereby maintaining a clean air condition throughout the indoor area.

Air Purifier, Dust Sensor, Pollution Degree, Filter, Dust Hole

Description

Air cleaner with dust sensor and its control method {Aircleaner having a dust sensor and control method of it}

1 is a perspective view showing a general air cleaner.

2 is a perspective view illustrating an air cleaner having a dust sensor according to an embodiment of the present invention.

3 is a block diagram of an air cleaner having a dust sensor according to the present invention.

4 is a flowchart illustrating a control method of the air cleaner having the dust sensor according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: air cleaner 110: front panel

112: front inlet port 114: electric charge inlet port

116: right side inlet 210: rear panel

212 rear suction port 214 rear lower suction port

310: discharge panel 400: dust hole

410: dust sensor 500: control unit

510: power supply 520: display

530: filter unit 540: fan drive unit

550: storage unit

The present invention relates to an air purifier and a control method thereof. In particular, in setting a pollution degree of indoor air using a dust sensor and automatically adjusting a fan speed accordingly, a predetermined value is changed when a pollution level is changed from a high state to a low state. The present invention relates to an air purifier having a dust sensor and a control method thereof, which maintains the existing fan speed for a time and then changes the fan speed according to the changed pollution degree to achieve perfect air cleaning throughout the indoor area.

An air cleaner is a device that purifies contaminated air and converts it into fresh air. The air cleaner is a device that sucks contaminated air into a fan to collect or filter fine dust or bacteria, and smells of life or smells cigarettes. It functions to deodorize odors.

1 is a perspective view showing a general air cleaner.

When power is supplied to the air cleaner 10 and the buttons of the operation unit 18 formed on the upper panel 16 are operated to operate the clean function, a fan (not shown) mounted inside the air cleaner 10 is provided. While starting the rotation, the outside (ie, indoor) air is sucked into the inside of the air cleaner through the suction grille 14 formed at the lower end of the front panel 12. The inhaled air passes through a filter assembly (not shown) mounted at the rear of the intake grill 14, and the dust or odor contained therein is filtered to change into clean air. The air changed into clean air is guided to the discharge grill 20 by the rotational force of the fan (not shown) and then discharged to the outside of the air cleaner (ie, indoor).

At this time, in Figure 1, the black arrow indicates the flow of air sucked into the air cleaner, the white arrow indicates the flow of air discharged inside the air cleaner.

As described above, the air cleaner generally cleans the air by removing the fine dust or odor in the room while repeating the suction step of the indoor air into the air cleaner, the cleaning step by filtering, and the discharge step of the filtered air. .

In such an air purifier, controlling the speed of the fan properly according to the degree of pollution in the room is an important factor in increasing the cleanliness of the indoor air.

However, the existing air purifier adjusted its operation by adjusting the speed of the fan by manipulating the buttons of the operation unit 18 formed on the upper panel 16 after the user senses the degree of contamination of the room with the five senses. For example, when the pollution of the indoor air suddenly increases due to cleaning, cooking, or a visit by many customers, the user who feels it directly controls the speed of the fan to "strong" by operating a button on the operation unit 18. Reduce the pollution rapidly by speeding up the circulation of air, and adjust the fan speed to "weak" when the room air maintains a certain degree of cleanliness, such as after ventilation, or when there is no major change in cleanliness. As a result, the effect of air cleaning was continuously kept weak.

In this manual method of controlling the air cleaner, since the actual pollution of the indoor air and the fan speed of the air cleaner do not coincide with each other, despite the high pollution of the indoor air, the clean function works weakly to make the user feel uncomfortable or, conversely, the indoor air. Despite the low pollution level, the clean function works strongly and raises the power consumption.

Therefore, by using various sensors that can measure the pollution level, the pollution level of the indoor air is accurately measured, and the fan speed of the air cleaner is automatically adjusted accordingly, that is, the clean speed is controlled in response to the actual pollution level of the indoor air. There is a need for research on how to do this.

An object of the present invention is to measure the dust pollution of the indoor air sucked into the air cleaner and to adjust the clean speed of the air cleaner accordingly according to the air cleaner equipped with a dust sensor that can achieve a perfect clean of the indoor air To provide.

Another object of the present invention is to provide a control method most suitable for an air cleaner having the dust sensor.

In order to achieve the above object, the first air purifier equipped with a sensor according to the present invention, the dust sensor 410 mounted to the position where the unfiltered air flows to calculate the dust pollution degree of the indoor air, and the air cleaner 100 Filter unit 530 to filter and clean the indoor air sucked into), the fan drive unit 540 to suck the indoor air into the air cleaner 100 to guide the filter unit 530, and the fan according to the dust pollution degree It characterized in that it comprises a control unit 500 for controlling the speed of.

In one embodiment of the present invention, the dust sensor 410 is mounted to the rear of the dust hole 400 to measure the degree of contamination of the unfiltered air sucked through the dust hole 400 formed on the front of the air cleaner. have.

In another embodiment of the present invention, the dust sensor 410 is mounted near the intake port so as to measure the degree of contamination of unfiltered air drawn through the intake port of the air cleaner.

In order to achieve the above object, a control method of an air purifier having a dust sensor according to the present invention includes a first step of measuring the amount of dust in the dust sensor 410, and a second step of calculating the dust pollution degree of the indoor air. And a third step of setting the air volume according to the calculated dust pollution degree, and a fourth step of changing the air volume differently to correspond to the change of the dust pollution degree.

At this time, in the fourth step, when the dust pollution degree is changed from the state of "high" or "medium", the air volume set in the third step according to the dust pollution degree calculated after maintaining the existing air volume for the set time. If the dust pollution degree changes from rising to the "lower" state, it is preferable to proceed to the process of changing to the air volume set in the third step according to the calculated dust pollution degree immediately.

In addition, the dust pollution degree calculates a cumulative time for detecting dust in the dust sensor 410 as a ratio with respect to the predetermined time.

On the other hand, in the third step, when the calculated dust pollution degree is "phase", the air volume is set to "strong", and when the calculated dust pollution degree is "medium", the air volume is set to "medium", and the calculated dust When the pollution degree is "low", it is preferable to set the air volume to "weak".

Therefore, according to the present invention, the polluted air located far away from the air purifier can be completely purified, thereby maintaining a clean air state throughout the indoor area.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail an air cleaner with a dust sensor and a control method thereof according to the present invention.

Figure 2 is a perspective view showing an air cleaner having a dust sensor according to an embodiment of the present invention, Figure 3 is a schematic configuration diagram of an air cleaner having a dust sensor according to the present invention.

Air purifier according to the present invention is largely characterized in that the power supply unit 510 for supplying power to the main body of the air cleaner 100, the dust sensor 410 for calculating the dust pollution degree of the indoor air, and the operating state of the air cleaner The display 520 to display, the filter unit 530 for filtering and cleaning the indoor air sucked into the air cleaner 100, and the indoor air is sucked into the air cleaner 100 to guide the filter unit 530. A fan drive unit 540, a storage unit 550 made of a storage device such as EEPROM, which stores operation data of the air cleaner, and detects basic data in the event of a power failure; It consists of a control unit 500 for controlling the.

The air cleaner 100 is formed by the front panel 110 installed at the front, the rear panel 210 installed at the rear, and the discharge panel 310 on the upper surface. In front of the air cleaner 100, the front suction port 112 formed at the center of the front panel 110, the charge stage suction port 114 formed at the lower end of the front panel 110, the front panel to suck the indoor air near the front The right side suction port 116 is formed on the side of the 110, the rear intake port 212 formed in the center of the rear panel 210, the rear panel 210 to suck the indoor air in the vicinity of the rear The rear lower suction port 214 formed at the lower end of the rear panel 210, the left side suction port (not shown) is formed on the side, the upper discharge port for discharging the indoor air sucked into the air cleaner (not shown) The discharge panel 310 having a) is formed.

Therefore, according to the air cleaner 100, the indoor air is sucked from all directions like the front, rear, left, and right sides (see the solid arrow in FIG. 2), and discharged in one direction, that is, upward (dashed line in FIG. 2). Arrow).

Behind the front panel 110, a filter unit 530, which is an assembly of filters such as a pre-filter, a hepa filter, a deodorization filter, a carbon nanoball filter, an ozone removal filter, a nanosilver filter, and the like, is formed. At the rear of the), a fan (not shown) for sucking and discharging indoor air into the air cleaner and a fan driver 540 for driving the air are installed.

On the other hand, the air cleaner 100 is provided with a dust sensor 410 for measuring the dust pollution of the indoor air. The dust sensor 410 is mounted to the rear of the dust hole 400 provided outside the filter unit 530 so as to suck the air that has not passed through the filter unit 530.

When the fan (not shown) starts to rotate, the air in the room is sucked in all directions (front inlet 112, electric charge inlet 114, right inlet 116, rear inlet 212, rear lower inlet ( 214 and the left side suction port (not shown) and the dust hole 400 start to be sucked into the air cleaner 100. At this time, the indoor air (see the solid arrow) sucked through the intakes of the four sides is passed through the filter unit 530, the various kinds of dust or odor contained therein is filtered, but is sucked through the dust hole 400 Indoor air (see black arrow) flows to the dust sensor 410 without passing through the filter unit 530. Accordingly, the dust sensor 410 may measure the pollution degree of unfiltered indoor air, that is, the pollution degree by the dust of the indoor air (hereinafter referred to as "dust pollution degree").

At this time, the air cleaner 100 according to an embodiment of the present invention is provided with a dust sensor 400 separately from the intake ports to measure the dust pollution of the indoor air and then installed a dust sensor 410 behind the Although shown, the dust pollution of the indoor air can be measured by installing only the dust sensor 410 in a state in which the dust hole 400 is not provided separately. At this time, the installation position of the dust sensor 410, for example, the indoor air that is not filtered, such as near the inlet (for example, left inlet (not shown)) of any one of the inlet or front of the filter unit 530. Any position is possible if the position is along the way.

The dust sensor 410 is a device for calculating the dust pollution degree by detecting the amount of dust contained in the indoor air, the time of accumulating the time that the dust is detected in the sensor during the interval time for the preset interval time Calculate by ratio. For example, when the section time is 30 seconds, the dust detection time accumulated for 30 seconds is calculated as the ratio for the 30 seconds, and if this ratio is 0.046 or more, it is determined that the dust pollution degree of the indoor air is "phase", and is 0.02 or more. If it is, it is determined as "medium", and if it is less than 0.02, it is determined as "low". At this time, the dust pollution degree "high" means that more dust is contained in the indoor air than when "medium", and the dust pollution degree "medium" means that more dust is contained in the indoor air than when "low". Means.

On the other hand, the display 520 is installed on the front of the air cleaner 100. The display 520 is for showing the operating state of the air purifier, and displays the state of the air purifier by displaying a normal operation mode, a fan air volume, room temperature, humidity, or dust pollution degree using a graph or numerical value. Lets you recognize at a glance.

Hereinafter, the operation of the air cleaner equipped with a dust sensor according to an embodiment of the present invention will be described.

When the user inputs a control signal for the operation after supplying power to the air cleaner 100, the fan (not shown) starts to rotate by the operation of the fan driver 540 mounted inside the air cleaner. Accordingly, indoor air is sucked into the air cleaner 100 through the intake holes of all directions (see solid arrow). The indoor air sucked into the air cleaner 100 passes through the filter unit 530 installed at the rear of the front panel 110, and the dust, odors, etc. contained therein are removed and filtered with clean air. Subsequently, the air cleaned by the filtering is discharged into the room through a discharge port (not shown) formed in the discharge panel 310 (see dotted arrow).

At this time, the indoor air starts to be sucked into the dust hole 400 in addition to the intakes of the four sides, the dust sensor 410 is the amount of dust contained in the unfiltered indoor air sucked through the dust hole 400 The dust pollution degree is calculated and shown on the display 520.

On the other hand, the control unit 500 controls the rotational speed (that is, air volume) of the fan (not shown) to "strong" according to the dust pollution degree calculated by the dust sensor 410 "phase", and the dust pollution degree When it is "medium", the rotational speed of the fan is controlled to "medium", and when the dust pollution degree is "low", the rotational speed of the fan is controlled accordingly to "about". Since the amount of indoor air sucked into the air cleaner 100 when the air volume is "strong" is greater than when the air volume is "medium", the rate of purification of the indoor air is faster than when it is "medium".

At this time, when the air volume is "strong" or "medium", the dust pollution degree calculated by the dust sensor 410 is one or more steps, for example, in the "medium" state in the "phase" state, in the "medium" state When descending from the "lower" state or from the "upper" state to the "lower" state, the air flow rate is correspondingly "high" to "medium", "medium" to "weak" or "high" to "weak". It is not immediately changed, but is changed according to each changed dust pollution degree after further maintaining the existing air flow amount for a set time, for example, 2 minutes and 30 seconds, while, when the air flow amount is "weak", the dust sensor 410 When the calculated dust pollution level rises, the air volume is also changed correspondingly immediately. For example, when the dust pollution level is calculated as "phase" while the air volume is "weak", the air volume is immediately changed from "weak" to "strong" and the air To increase the purification rate.

Therefore, the air purifier according to the present invention attempts to change the air volume according to the reclaimed pollution degree after maintaining the existing air flow for a certain time even if the reclaimed pollution degree is somewhat reduced in the state of dust pollution "phase" or "medium". By doing so, it is possible not only to prevent system anxiety caused by frequent changes of air volume in response to changes in dust pollution, but also to reduce the pollution of air located somewhat farther than the pollution of air around the air cleaner. By changing the air volume can be solved the problem that the purification of indoor air is not complete.

On the other hand, when the dust pollution degree is "low", the air volume can be changed immediately in response to the increase in the pollution level, so that the response according to the increase in the pollution degree of the indoor air can be quickened.

4 is a flowchart illustrating a control method of an air cleaner having a dust sensor according to the present invention.

First, when the power is applied to the air cleaner (100 in FIG. 2), and the user inputs an operation control signal, a clean cycle of air intake → filtering → air discharge is implemented and at the same time, the control unit (500 in FIG. 3) provides a corresponding signal. The operation of the air cleaner according to step (S100).

The dust sensor 410 of FIG. 2 starts to operate after the sensor stabilization time, for example, about 3 minutes has passed after the power is supplied to the air cleaner (step S110). Based on the dust detection time detected by the dust sensor, the control unit calculates the dust pollution degree of the indoor air (S120). In this case, the dust pollution degree is usually calculated as the ratio of the accumulated time of the dust detected by the sensor during the interval time to the preset interval time. For example, when the section time is 30 seconds, the dust detection time accumulated for 30 seconds is calculated as the ratio for the 30 seconds, and if this ratio is 0.046 or more, it is determined that the dust pollution degree of the indoor air is "phase", and is 0.02 or more. If it is, it is determined as "medium", and if it is less than 0.02, it is determined as "low". At this time, the dust pollution degree "high" means that more dust is contained in the indoor air than when "medium", and the dust pollution degree "medium" means that more dust is contained in the indoor air than when "low". Means.

Subsequently, after determining whether the calculated dust pollution degree is "phase" or "medium" (step S130), when the dust pollution degree is "phase", the air volume of the air cleaner is controlled according to "strong", and the dust pollution degree " Middle ", the air volume is also controlled according to" medium "(step S140). If the air volume of the air cleaner is adjusted hard in the state where the indoor pollution is high, the indoor air pollution is lowered within a short time because the amount of air that is sucked into the air cleaner and filtered is increased.

Meanwhile, the dust sensor continues to periodically detect dust in the indoor air regardless of whether the air cleaner is operated until the power supply of the air cleaner is stopped, and accordingly, the controller periodically calculates a dust pollution level, in step S140. If it is determined that the dust pollution degree after the fall (step S150), after further maintaining the existing air volume for a set time, for example, about 2 minutes 30 seconds (step S160), the newly calculated dust pollution degree after the set time In response to the air volume of the air purifier is also changed (step S170).

For example, when the air volume is "strong" or "medium", the newly calculated dust pollution level is one or more levels, such as "high" to "medium", "medium" to "low". When descending from the "up" to the "low" state, the air volume does not change directly from "river" to "medium", "medium" to "weak", or "river" to "weak", After further maintaining the existing air volume for a set time, for example, about 2 minutes 30 seconds, the air volume is changed in accordance with the changed dust pollution.

This means that if the dust pollution degree is "high" or "medium", even if the reclaimed pollution level decreases slightly, the existing air flow rate is maintained for a certain time, and then the air volume change is attempted according to the reclaimed pollution degree, thereby reducing the change in the dust pollution degree. In addition, it is possible to prevent system anxiety caused by frequent changes of air volume, and to reduce indoor air quality even when the air pollution around the air cleaner is lowered, but the air pollution is located at some distance from the air cleaner. It can solve the problem that the air purification is not perfect.

This will be described in more detail.

When the air cleaner starts to operate, it repeats the clean cycle in which the indoor air is sucked and filtered and discharged. The air cleaner first sucks and filters the surrounding air from the surrounding air. Usually, indoor air starts circulation by the said clean cycle, and after predetermined time passes, the air circulation of all indoor areas is performed by the said air circulation.

However, the air that is filtered out of the air cleaner may be re-intake into the air cleaner again by the suction force of the fan instead of flowing to other areas of the room, in which case, the air remains unfiltered in the other areas of the room. In spite of the large amount of polluted air, the dust sensor detects only dust in the surrounding clean air, and as a result, the air cleaner may determine that the dust pollution in the room is lowered.

Therefore, in order to solve the problem that the air purification of the entire indoor area is not made completely by calculating that the dust pollution degree is lowered even though the dust pollution degree of the indoor air is not actually lowered, in the present invention, For example, if the air cleaner operates in the "high" or "medium" state and detects that the dust pollution level is lowered, it is possible to maintain the existing air volume for a set time without changing the air volume immediately in response to the dust pollution level. The above problem is solved by completely purifying polluted air located far from the air cleaner.

On the other hand, in the step S130, when it is determined that the dust pollution degree is not "up" or "medium", it is determined that the dust pollution degree is "low", and accordingly controls the air flow rate "about" (step S180).

Subsequently, when a certain amount of time has elapsed, when it is determined that the dust pollution level is increased (step S190), unlike the case where the dust pollution level is lowered, the air volume of the air cleaner is immediately changed in response to the change of the dust pollution level. Change (step S170). In other words, when the air volume is "weak", if the reclaimed dust pollution increases, the air volume also changes immediately in response to the increase in the amount of indoor air by allowing the air volume to be changed immediately in response to the increased dust pollution. As the pollution level rises, the response can be accelerated.

According to the air purifier having the dust sensor and the control method thereof according to the present invention, the dust pollution degree is "high" or "medium" in the state, even if the reclaimed pollution degree is somewhat lowered after maintaining the existing air flow for a certain time By attempting to change the air volume according to the pollution level, it is possible to prevent the system anxiety caused by the frequent change of the air volume in response to the change of the dust pollution degree, and also located somewhat far away from the air pollution around the air cleaner. The air pollution can be solved the problem that the purification of the indoor air is not made completely by changing the air volume in the state does not fall.

In addition, when the dust pollution degree is "low", the air volume can be changed immediately in response to the increase in the pollution level, so that the response according to the increase in the pollution degree of the indoor air can be quickened.

Claims (7)

A dust sensor 410 mounted at a position where unfiltered air flows to calculate a dust pollution degree of indoor air; A filter unit 530 which filters and cleans indoor air sucked into the air cleaner 100; A fan driving unit 540 for sucking indoor air into the air cleaner 100 and guiding the filter unit to the filter unit 530; And Air cleaner with a dust sensor, characterized in that it comprises a control unit 500 for controlling the speed of the fan according to the degree of dust pollution. The method of claim 1, The dust sensor 410 is a dust sensor, characterized in that mounted on the back of the dust hole 400 to measure the degree of contamination of the unfiltered air sucked through the dust hole 400 formed on the front of the air cleaner Air cleaner equipped with. The method of claim 1, The dust sensor 410 is an air cleaner having a dust sensor, characterized in that it is mounted near the inlet so as to measure the degree of contamination of the unfiltered air sucked through the inlet of the air cleaner. A first step of measuring the amount of dust in the dust sensor 410; Calculating a dust pollution level of the indoor air; A third step of setting the air volume according to the calculated dust pollution degree; And And a fourth step of changing the air volume differently so as to correspond to the change of the dust pollution degree. The method of claim 4, wherein In the fourth step, when the dust pollution degree is changed from being lower in the "phase" or "medium" state, the existing air volume is maintained for a predetermined time and then changed to the air volume set in the third step according to the calculated dust pollution degree. If the dust pollution degree changes from the lower state to the rising state, the air purifier with the dust sensor is characterized in that the process proceeds to the air volume set in the third step according to the calculated dust pollution degree immediately. Control method. The method of claim 4, wherein The dust pollution degree is a control method of an air purifier having a dust sensor, characterized in that for calculating a cumulative time the dust is detected in the dust sensor (410) for a predetermined time. The method of claim 4, wherein In the third step, when the calculated dust pollution degree is "phase", the air volume is set to "strong", and when the calculated dust pollution degree is "medium", the air volume is set to "medium", and the calculated dust pollution degree The control method of the air cleaner with the dust sensor characterized by setting the air volume to "weak" when "low".

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