KR100535809B1 - Air Cleaner And Controlling Method Of The Same - Google Patents

Abstract

The present invention relates to an air purifier for deodorizing and sterilizing using an ultraviolet lamp and a control method thereof. The present invention includes a deodorizing unit including a deodorizing filter and an ultraviolet lamp and a control unit for controlling the operation of the deodorizing unit to perform an air purifying operation. The control unit operates only a portion of the ultraviolet lamps for a predetermined time when the performance of the deodorizing filter is saturated, and operates the ultraviolet lamps to increase the performance of the deodorizing filter when the deodorizing filter is deteriorated. By performing the function well and limiting the driving of the plurality of ultraviolet lamps, the power consumption is reduced and the lamp life is extended.

Description

Air Cleaner And Controlling Method Of The Same

The present invention relates to an air purifier for deodorizing and sterilizing using an ultraviolet lamp and a control method thereof.

An air purifier is a device for supplying clean air by removing dust, bacteria, and contaminants in the air. An electric dust collector for collecting dust and the like is provided inside the air purifier.

An air purifier using an electrostatic precipitator filters out dust, bacteria, and contaminants, but does not have a deodorizing function or a sterilizing function. Therefore, there is a high possibility that unsterilized bacteria remain inside the air purifier and cause odor.

In view of this, air purifiers have been developed that allow deodorization and sterilization by irradiating ultraviolet rays to chemicals containing photocatalysts.

Conventional air purifiers drive lamps so that ultraviolet rays can be irradiated to chemicals containing a photocatalyst on the surface of the deodorizing filter to perform deodorization and sterilization as well as driving the fan motor during the air purifying operation.

However, in the conventional air purifier, the lamp is continuously driven when the air purifying operation is performed. Therefore, even if the performance of the deodorizing filter reaches a saturation state, the ultraviolet light is excessively irradiated. There was a problem that power is wasted.

An object of the present invention is to provide an air purifier and a method of controlling the same, which can extend the life of the lamp and reduce the power consumption by controlling the operation of the lamp according to saturation of the deodorizing filter performance.

The present invention for achieving the above object, Deodorizing unit for deodorizing the odor particles in the air; An air circulation unit for sucking the contaminated air in the indoor space and discharging the air purified by the deodorizing unit to the indoor space; And a control unit for controlling the operation of the deodorizing unit according to the deodorizing performance of the deodorizing unit when operating the deodorizing unit to perform an air purifying operation.

The deodorizing unit includes a deodorizing filter coated with a photocatalyst on the surface, and a plurality of lamps for irradiating light to activate the photocatalyst of the deodorizing filter.

The plurality of lamps are ultraviolet lamps.

When the deodorizing performance of the deodorizing filter is saturated, the control unit alternately operates only a part of the lamps for a predetermined time, and alternately driving the entire lamp when the deodorizing performance of the deodorizing filter is reduced.

And an operation time detection unit for detecting an operation time of the air circulation unit, wherein the control unit compares the operation time and the set time detected by the operation time detection unit to determine whether the deodorization performance is saturated. .

When the air circulation unit includes a fan motor for rotating the circulation fan, the operation time detection unit accumulates the drive time of the fan motor to detect the operation time of the air circulation unit.

The present invention for achieving the above object, in the control method of the air purifier, to drive the deodorizing unit and the air circulation unit to purify the air, it is determined whether the deodorizing performance of the deodorizing unit is saturated, the determination result Accordingly characterized by controlling the operation of the deodorizing unit.

The deodorizing unit includes a deodorizing filter coated with a photocatalyst on the surface, and a plurality of ultraviolet lamps for irradiating light to activate the photocatalyst of the deodorizing filter.

When the deodorizing performance of the deodorizing filter is saturated, only a portion of the ultraviolet lamps are driven for a predetermined time, and when the deodorizing performance of the deodorizing filter is reduced, the operation of driving the entire ultraviolet lamps is alternately performed.

The saturation of the deodorizing performance is determined according to the operating time of the air circulation unit.

When the air circulation unit includes a fan motor for rotating the circulation fan, the operation time of the air circulation unit is a time accumulated by the driving time of the fan motor.

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

1 is a view showing the appearance of an air purifier according to the present invention.

As shown, a cover 2 is provided on the front of the air purifier body 1, and a plurality of air inlets 3 are formed in the cover 2 to allow air to be sucked into the body 1. . When contaminated air is sucked through the air inlet 3, dust particles, harmful components, odors, etc. are removed and purified from the inside of the main body 1, and the purified air is an air outlet (not shown) at the rear of the main body 1. Is discharged through.

2 is a view schematically showing a filter structure of an air purifier according to the present invention, wherein the air purifier according to the present invention includes filters having various functions for purifying air in addition to the electric dust collector.

As shown, the prefilter 4, the electrostatic precipitating unit 5, the functional filter unit 6, and the deodorizing unit 7 for air purification are provided in order from the front of the main body 1 to the rearward direction. . In addition, a circulation fan 8 driven by the fan motor 8a is installed at the rear of the main body 1 in order to force circulation of air from the front of the main body to the rear direction. When the fan motor 8a is operated to perform the air purifying operation, as the circulation fan 8 rotates, airflow is formed from the front of the main body 1 to the rear direction so that the indoor air circulates.

The prefilter 4 is primarily for filtering relatively large dust particles.

The electrostatic precipitating unit 5 includes an ionizing portion 5a and a collecting portion 5b. In the ionizing section 5a, dust particles are charged to the positive polarity by corona discharge, and in the collecting section 5b, the dust particles having positive polarity flowing between the horizontal partition walls are adsorbed to the horizontal partition walls having the negative polarity. Is collected.

The functional filter unit 6 includes a metal filter 6a, a high efficiency particulate air filter 6b, and a replaceable filter 6c. The metal filter 6a filters out dust particles or contaminants not collected in the collecting part 5b, and the hepa filter 6b collects fine particles such as fine dust and bacteria. The replaceable filter 6c has a function of removing the contaminant according to the kind of the contaminant to be removed, and can be replaced.

The deodorizing unit 7 includes two deodorizing filters 7a which are disposed facing each other apart from each other and a plurality of ultraviolet lamps 7b which are arranged in the separation space between the deodorizing filters.

The deodorizing filter 7a is a filter which removes odor components in the air while the photocatalyst contained in the chemical coated on the filter surface reacts with ultraviolet rays.

The ultraviolet lamp 7b is provided in plural at regular intervals in a space formed by the deodorizing filters. In the embodiment, four ultraviolet lamps are provided in consideration of the size of the deodorizing filter. In other words, ultraviolet rays generated from one lamp are effectively irradiated to only a part of the deodorizing filter, and thus several lamps are required to cover the entire range of the deodorizing filter. When all four UV lamps are driven, maximum deodorization performance can be achieved as ultraviolet rays are effectively irradiated over the entire range of the deodorizing filter, and deodorization performance can be achieved because only a few UV lamps drive reduces the range of effective UV irradiation. Will be reduced.

When starting the air purification operation, all four ultraviolet lamps 7b are driven to exhibit the deodorizing function by the deodorizing filter. After the air purification operation is performed for a certain period of time, the performance of the deodorizing filter is saturated. When all the ultraviolet lamps are driven in this saturation state, it is necessary to limit the driving of the ultraviolet lamps because it consumes power consumption and shortens the lamp life. .

The control unit, which will be described later, operates only a portion of the ultraviolet lamps for a predetermined time when the performance of the deodorizing filter is saturated, and increases the performance of the deodorizing filter by driving all of the ultraviolet lamps when the performance of the deodorizing filter is reduced. By performing a deodorizing function well and limiting the driving of a plurality of ultraviolet lamps, it is possible to reduce the power consumption and extend the lamp life.

3 is a control block diagram of an air purifier according to the present invention.

The air purifier according to the present invention includes a control unit 30 for controlling the overall operation for performing the air purifying operation.

An input unit 10 for inputting a driving command by a user is connected to the control unit 30. An electrostatic precipitating drive unit 40 for driving the ionizing unit 5a and the collecting unit 5b to the control unit 30, a fan motor driving unit 50 for driving the fan motor 8a, and the fan motor. Fan motor driving time calculation unit 60 for accumulating the driving time of the ultraviolet rays, UV lamp driving unit 70 for driving the plurality of ultraviolet lamps 7b, and a display unit for displaying information on the operation state of the air cleaner ( 20) is connected.

The control unit 30 compares the driving time of the fan motor accumulated through the fan motor driving time calculation unit 60 with the set set time to determine whether the deodorization filter performance is saturated, and determines whether the deodorization filter performance is saturated. The controller 32 for controlling the driving of the control unit, and information on a set time for determining whether the deodorization filter performance is saturated, and an ultraviolet lamp driving to reduce the performance of the deodorization filter. It includes a storage unit 34 for storing information for determining the target.

The control method of the air purifier according to the present invention having the configuration as described above will be described with reference to the accompanying drawings.

When the driving power is supplied to the air purifier and the user inputs an operation command for performing the air purification operation through the input unit 10, the controller 32 operates to perform the air purification operation through the input unit 10. The command is input (101).

The controller 32 searches for the time taken until the operation target of the ultraviolet lamp stored in the storage unit 34 and the performance of the deodorizing filter are saturated, that is, a preset set time (103).

Then, the controller 32 controls the fan motor driver 40 to drive the fan motor 8a. Accordingly, as the circulation fan 8 is rotated by the driving of the fan motor 8a, air flow is formed from the front side of the main body 1 to the rear direction, thereby circulating the indoor air. In this case, the fan motor driving time calculator 60 accumulates the driving time of the fan motor, and the controller 32 receives the accumulated driving time of the fan motor through the fan motor driving time calculator 60 (105).

When the fan motor is driven, the controller 32 controls the electrostatic precipitating unit 40 to drive the ionizing unit 5a and the collecting unit 5b of the electrostatic precipitating unit 5 to be included in the air sucked by the circulation fan. The dust particles can be filtered out (107).

Together with the operation of the fan motor and the electrostatic precipitator, the controller 32 controls the ultraviolet lamp driving unit 70 to drive all four ultraviolet lamps 7b. Accordingly, as ultraviolet rays are effectively irradiated over the entire range of the deodorizing filter, the performance of the deodorizing filter 7a becomes high and leads to saturation (109) (see FIG. 5).

While driving all four UV lamps, the controller 32 compares the driving time of the accumulated fan motor with a preset setting time to determine whether the performance of the deodorization filter is saturated (111).

As a result, when the accumulated driving time of the fan motor does not reach the set time and the performance of the deodorizing filter is not saturated, the controller 32 returns to operation 105. As a result, when the accumulated driving time of the fan motor reaches the set time and the deodorizing performance is saturated, the controller 32 controls the ultraviolet lamp driver 70 to control some of the ultraviolet lamps, for example, odd or even ultraviolet rays. Only the lamps are driven for a period of time to the target (which was retrieved in operation 103), so that the performance of the deodorizing filter is reduced in saturation. Then, the controller 32 drives all of the four ultraviolet lamps for a certain time to increase the performance of the deodorizing filter, and thus the performance of the deodorizing filter is saturated (113, 115) (see FIG. 5). .

The controller 32 determines whether a driving stop command is input by the user through the input unit 10 (117), and if the driving stop command is not input as a result of the determination, the controller 32 alternately performs operations 113 and 115 to perform operation 113. Proceed.

As a result of the determination, when the operation stop command is input, the controller 32 controls the electrostatic precipitating drive unit 40, the fan motor driving unit 50, and the ultraviolet lamp driving unit 70 to stop the air purifying operation. Operation of the dust collector and the ultraviolet lamp is stopped (119).

In the above-described embodiment, as shown in FIG. 5, the time for driving some of the ultraviolet lamps and the time for driving all of the ultraviolet lamps are set to be the same during the first to third cycles t1 to t3. That is, if the number of UV lamps driven as shown in FIG. 6 is relatively small when driving some of the UV lamps, the slope of the deodorization filter's performance decreases rapidly, thereby increasing the time for driving the entire UV lamps and driving as shown in FIG. 7. If the number of UV lamps is relatively large, the slope of decreasing the performance of the deodorizing filter is gentle, thereby reducing the time for driving the entire UV lamp.

As described above, the present invention reduces the number of ultraviolet lamps that are driven when the performance of the deodorizing filter is saturated, and increases the number of ultraviolet lamps that are driven when the performance of the deodorizing filter is decreased, thereby reducing power consumption and reducing the power consumption. It can extend the life of the.

1 is a view showing the appearance of an air purifier according to the present invention.

2 is a view schematically showing a filter structure of an air purifier according to the present invention.

3 is a control block diagram of an air purifier according to the present invention.

4 is a flowchart illustrating a control method of the air purifier according to the present invention.

5 to 7 are graphs for explaining an operation of driving an ultraviolet lamp according to the performance of the deodorizing filter in the present invention.

* Description of the code for the main functions of the drawings

4: prefilter

5: electric dust collecting unit

6: functional filter

7: deodorizing unit

8: circulation fan

Claims (11)

Deodorization unit for deodorizing odor particles in air; An air circulation unit for sucking the contaminated air in the indoor space and discharging the air purified by the deodorizing unit to the indoor space; And When operating the deodorizing unit to perform an air purifying operation, a control unit for controlling the operation of the deodorizing unit according to the deodorizing performance of the deodorizing unit, The deodorization unit includes a deodorization filter coated with a photocatalyst on the surface, and a plurality of lamps for irradiating light to activate the photocatalyst of the deodorization filter, And the control unit drives only a portion of the lamps for a predetermined time when the deodorization performance of the deodorization filter is saturated, and alternately drives the entire lamps when the deodorization performance of the deodorization filter is reduced. delete The air cleaner of claim 1, wherein the plurality of lamps are ultraviolet lamps. delete The deodorization performance according to claim 1, further comprising an operation time detection unit for detecting an operation time of the air circulation unit, wherein the control unit compares the operation time detected by the operation time detection unit with a set time to perform the deodorization performance. Air purifier, characterized in that for determining whether the saturation of. 6. The method of claim 5, wherein when the air circulation unit includes a fan motor for rotating the circulation fan, the operation time detection unit accumulates the driving time of the fan motor to detect the operation time of the air circulation unit. Air purifier characterized. In the control method of the air purifier, Driving the deodorizing unit and the air circulation unit to purify the air, determining whether the deodorizing performance of the deodorizing unit is saturated, and controlling the operation of the deodorizing unit according to the determination result, The deodorization unit includes a deodorization filter coated on the surface of the photocatalyst, and a plurality of ultraviolet lamps for irradiating light to activate the photocatalyst of the deodorization filter, When the deodorizing performance of the deodorizing filter is saturated, only a portion of the ultraviolet lamp is driven for a predetermined time, and if the deodorizing performance of the deodorizing filter is reduced, the operation of alternately driving the entire ultraviolet lamp, characterized in that the control method of the air purifier. delete delete The method of claim 7, wherein the saturation of the deodorizing performance is determined according to the operating time of the air circulation unit. The air purifier control according to claim 10, wherein when the air circulation unit includes a fan motor for rotating the circulation fan, an operation time of the air circulation unit is a time accumulated by driving time of the fan motor. Way.