KR20090035375A - Method of computing a useful life of an air cleaner - Google Patents

Abstract

A method for computing service life of a filter of an air cleaner is provided to compute the service life of the filter according to a degree of contamination. A method for computing service life of a filter of an air cleaner comprises the following steps of: storing setup information about a total service life of the filter, a stage number of a fan driving part and weight of a dust pollution level(302); grasping an action level of the fan driving part(304); storing the dust pollution level after analyzing a degree of dust contamination of the filter(306); storing operation time of the air cleaner(308); and outputting the service life of the filter by using the operation time(310).

Description

METHODS OF COMPUTING A USEFUL LIFE OF AN AIR CLEANER

The present invention relates to a method of operating an air cleaner, and more particularly, to a method for calculating the life of a filter used in the air cleaner.

An air purifier is a device that purifies polluted air and converts it into fresh air. The air cleaner passes air through a filter to remove dust and germs and to remove odors.

Air pollution is getting serious due to the increase of yellow dust or harmful dust, and the necessity and demand for air purifiers are greatly increased due to the social atmosphere such as the increase of respiratory diseases and the increase of public interest in health.

A general air cleaner includes an air discharge device for sucking and discharging air to be purified and a filter assembly for purifying the air. In particular, the filter assembly includes a plurality of filters having various pore sizes, a filter frame for supporting the filters, and the like. Examples of the filter include a pretreatment filter using a antibacterial material to remove large dust and mold, pet hair, and the like, a flush filter to remove odors, a HEPA filter, and the like. In addition, the air purifier may further include a humidification filter capable of supplying humidified air having a constant humidity by humidifying the air in addition to the filter.

On the other hand, the life of the air purifier is directly connected to the life of the filter, if the air purifier is used in the state that the end of the filter life is rather various harmful substances may be discharged into the air by the air cleaner.

Therefore, various methods for indicating the filter life of the air cleaner have been proposed.

Conventional methods for reporting the life of a filter include, firstly, accumulating the frequency of the supplied power supply or simply accumulating the operating time of the motor to determine the operating time of the product and calculating the life of the filter. As the life of the filter expires, a method of calculating the life of the filter by measuring the differential pressure of the filter generated by the dust collected by the filter with a pressure sensor is used.

However, the conventional method as described above has a problem that an unreliable result can be generated because the user does not consider the actual operation mode of the user who uses the air cleaner or the use effect of the product.

For example, the first method overlooks the fact that the power supplied to the air cleaner does not capture all the dust, but the amount of dust collected varies depending on the degree of contamination.

In addition, the second method requires an expensive pressure sensor to be used to measure an increase in the differential pressure generated as the replacement life of the filter arrives, which increases the cost of the product and increases the burden on the consumer. As the filter is clogged, the air purifying performance of the air purifier is drastically reduced, and the filter clogging phenomenon cannot be well understood until the end of life.

That is, the conventional methods as described above overlook the fact that as the dust adheres to the filter, the amount of wind passing through the filter decreases, and that the amount of dust collected in the filter varies according to the degree of pollution, and thus, There is a problem that these problems are overlooked and the calculated value for the calculated filter life is difficult to be trusted.

An object of the present invention for solving the above problems, the filter of the air cleaner, which can calculate the life of the filter of the air cleaner by using the difference in the amount of wind and dust passing through the filter according to the degree of pollution, It is to provide a life calculation method.

The present invention for achieving the above object, in the filter life calculation method of the air cleaner applied to the air cleaner including a filter unit, a fan drive unit, a control unit, a storage unit, an input unit, the output unit, the control unit, through the input unit Storing input information on the total life of the filter, the number of stages of the fan driving unit, and the dust pollution degree weight in the storage unit, and when the fan driving unit is driven, the controller grasps and stores the number of operation stages of the fan driving unit; The control unit may analyze the dust pollution degree of the filter unit to calculate and store a dust pollution weight value corresponding to the dust pollution degree, and the controller may include the operation stage of the fan driver, the dust pollution degree weight, and the fan driver. After calculating the life of the filter using the drive time of and outputs the filter life through the output unit And a step.

The present invention has an excellent effect that the user can accurately know when to replace the filter by calculating a more accurate filter life in consideration of both the amount of wind passing through the filter and the amount of dust.

In addition, the present invention, by calculating the correct filter life, can be used to compensate for the problem of replacing the filter even though the filter life is not low because the frequency of use or contamination of the air cleaner is low, the degree of contamination is high and the frequency of use is high There is an excellent effect that the filter can be effectively replaced when the filter is shorter than the life indicated.

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

1 is an exemplary view showing an external configuration of an air cleaner to which the present invention is applied.

An air cleaner is installed to purify polluted air generated in a home, office, industrial site, etc. As shown in FIG. 1, a housing 10 and a housing cover having an inlet for inflow of air and an outlet for outflow of air are formed. (20), the air filter 30 is stacked in the housing to filter the air flowing through the inlet and the air contained in the housing to introduce the outside air into the housing and the air purified by the air filter through the outlet through the room It is configured to include an air fan 50 to induce the flow of air to flow out. Therefore, the indoor air contaminated by dust or various bacteria is introduced into the housing through the inlet port by the suction force of the air fan 50, and then filtered through the air filter 30 stacked in a multi-layer, and then the outlet port. Through the room.

The housing 10 and the housing cover 20 form an appearance of the air cleaner, and a plurality of air filters 30 are mounted therein.

The air filter 30 is for filtering the air flowing through the air inlet, and at least one or more are stacked between the housing and the housing cover. As the air filter, filters used in a general air cleaner may be used. That is, the air filter 30 is a pre-filter for removing a relatively large dust contained in the air sucked into the housing, a deodorizing filter for removing odors, a dust collecting filter for collecting dust by an electrical action, hepa filter for removing fine dust, At least any one of ultraviolet filters that perform a function of disinfecting air using ultraviolet rays, and in addition, various types of air filters may be stacked.

The air fan 50 is located at a position corresponding to the outlet in the housing, so that contaminated air in the room is introduced into the housing 10 through the inlet, and the air purified by the air filter is discharged again. It performs the function of causing the flow of air to flow out through the room.

2 is an exemplary view showing the internal configuration of the air cleaner shown in FIG.

The external appearance of the air cleaner to which the present invention is applied is configured as shown in FIG. 1, and the internal configuration thereof is necessary for driving the input unit 110 and the air cleaner to receive various control signals from the user, as shown in FIG. 2. Storage unit 130 for storing a variety of information, the output unit 120 for outputting information on the operation state of the air cleaner, the fan drive unit 160 for driving the fan 50, the operation of the fan drive unit The fan detecting unit 170 for detecting a state, the dust detecting unit 150 for detecting the amount of dust filtered by the filter unit 30 and the control unit 140 for controlling the functions of the components It is configured to include.

The input unit 110 is for receiving various control signals from the user and may be configured in the form of a plurality of buttons in the housing. In addition, the input unit may be configured as a wireless communication device, for example, an infrared sensor so as to receive various control signals through a remote control not shown.

The storage unit 130 is for storing various kinds of information necessary for driving the air cleaner, and is mounted in the housing.

The output unit 120 is for outputting information on an operation state of the air cleaner, and the like, and in particular, may be configured as a lamp or a liquid crystal display device to display the filter life calculated according to the present invention. That is, the output unit not only provides basic operating state information of the air cleaner, but may also be configured as a lamp or a liquid crystal display device to display the filter life calculated according to the present invention in numbers or graphs.

The fan driver 160 performs a function of driving the fan 50. The fan drive unit is composed of a motor, and the present invention should know the operating speed of the motor, or should be able to determine the rotating speed or the number of stages being operated. Therefore, a brushless DC motor suitable for such a function is preferably used. . Meanwhile, as described above, since the fan driver 160 is configured of a motor, the fan driver 160 will be used in the same concept as the motor for convenience of description.

The fan detecting unit 170 is for detecting an operating state of the fan driving unit. For example, the fan detecting unit 170 may detect a rotation speed, an operation stage, an operating time, and the like of the fan driving unit. The fan detecting unit may use various sensors currently used generally to obtain the above information, and the fan detecting signal detected by the fan detecting unit 170 is transmitted to the control unit. However, the fan detecting unit 170 does not necessarily need to be provided. In this case, the control unit 140 may directly detect the operating state of the fan driving unit.

The dust detector 150 is for detecting the amount of dust filtered by the filter unit 30, and various sensors currently used to obtain the information may be used, and the dust detector detects the amount of dust. The dust detection signal is transmitted to the control unit.

3 is a flowchart illustrating a method of calculating a filter life of an air cleaner according to the present invention, and illustrates a filter life calculation process performed in the air cleaner having the configuration as shown in FIG. 2.

In order to implement the present invention, first, weights for the total life of the filter, the number of stages of the fan driving unit, and the dust pollution degree must be set and stored in the storage unit (302). That is, the present invention is a method for calculating the life of the filter by using the weight of the rotational stage and the dust pollution degree of the fan drive, to implement the method, the weight of the total life of the filter, the rotational stage and the dust pollution degree of the fan drive Must be set in advance. Therefore, the user should calculate the number of rotations of the fan driving unit in consideration of the number of rotations of the fan driving unit and the amount of power applied, and store the number of rotations of the fan driving unit in the storage unit. A button should be provided. In addition, the filter unit 30 should be disposed in the dust detector to detect the amount of dust filtered by the filter, the user can determine the dust pollution of the filter in consideration of the amount of dust and the state of the filter detected by the dust detector While converting numerically, the weight of each dust pollution degree should be set and stored.

After the above values are set, the user drives the air cleaner by selecting a button of the input unit 110. At this time, the fan detecting unit 170 grasps the number of stages of the fan driving unit and stores it in the storage unit (304). That is, the fan detecting unit 170 analyzes the number of rotations of the fan driving unit, the supplied power, and the like to determine the number of stages of the fan detecting unit and transmits the number of stages to the control unit 140. However, the number of stages of the fan drive unit may be grasped directly by the controller. That is, when the button for selecting the number of stages of the fan driving unit is provided in the input unit as described above, the control unit may directly determine the number of stages of the fan driving unit matched to the button selected through the input unit in the manual mode. In addition, when the air cleaner is operated in the automatic mode, the control unit may directly select the number of stages of the fan driving unit according to the amount of dust in the dust detection unit. That is, in the automatic mode, since the control unit adjusts the rotation speed of the fan drive unit and the like according to the amount of dust in the dust detection unit, if the rotation speed and the number of stages of the fan drive unit are matched in advance, the control unit can directly determine the number of stages of the fan drive unit. .

On the other hand, the control unit receives the dust detection information that can determine the amount of dust from the dust detection unit to calculate the dust pollution degree, and grasps the dust contamination weight matched with the calculated dust pollution degree and stores it in the storage unit (306) .

In addition, the controller grasps the operation time of the air cleaner and stores it in the storage unit (308). The control unit not only knows the operation time of the air purifier from the fan detection information transmitted from the fan detection unit, but also can be determined by counting the time from the input of the air purifier driving request signal to the stop signal through the input unit. have.

The control unit calculates the calculated value of the filter life using the number of stages, the dust pollution weight and the operating time stored in the fan driving unit, and outputs the value through the output unit (310).

Meanwhile, in the above description, the present invention is configured in the order of grasping the number of stages of the fan driving unit 304 and grasping the weight of the dust pollution degree 306, but the present invention is not limited thereto. Therefore, the weight of the dust pollution degree may be first determined, and then the number of stages of the fan driving unit may be determined, and at the same time.

Hereinafter, with reference to specific examples will be described the content of the present invention as described above.

For example, assuming that the life of the filter is 100 and that the fan drive of the air cleaner is operable in four steps, it is assumed that the air flow rate for each stage is 10, 20, 30, 40 per hour (302). .

Therefore, if the fan drive unit of the air cleaner is operated in the first stage (304) for 10 hours (308), 10 (1 stage air volume) x 10 (time) = 100, so the control unit should notify the filter replacement through the output unit ( 310). If the fan drive of the air cleaner is operated in four stages (304) instead of one stage (304) for two hours (308), 40 (four stage air volume) x 2 (hours) = 80, so the control unit still has a filter life of 20. As long as the remaining must be output through the output (310).

On the other hand, when the air cleaner is driven in the automatic mode as described above, the control unit, by using the dust detection information transmitted through the dust detector to analyze the pollution degree of dust in 1 to 4 steps (steps 4 to 4) (step) by the fan drive unit Step 304 automatically changes the number of stages, through which the controller can determine the life of the filter (310). In addition, even when the air cleaner is driven in the manual mode, as described above, the controller may determine the number of stages of the fan driving unit 304 and calculate the life of the filter 310.

However, the above process only has the air flow rate of the fan drive unit, calculates the total life of the filter, and does not consider the amount of dust flowing into the filter at all. That is, even if the amount of air sucked into the filter is increased by operating the fan drive at a high speed, the life of the filter may not be directly proportional to the operation speed and time of the fan drive if there is not much dust in the sucked air. In detail, since the process uses only the operating speed and time of the fan drive unit, the user may feel that the filter is clogged, even though the output unit indicates that the filter replacement cycle remains. This may occur.

Therefore, the present invention utilizes a method 306 in which the amount of dust collected by the filter is converted into the dust pollution degree and then applied to the number of stages of the fan drive unit by weight.

For example, assuming that the set life of the filter is 100 and the fan drive unit is operable in four steps, it is assumed that the air flow rate for each stage of the fan drive unit is 10, 20, 30, 40 per hour. In addition, the amount of dust measured by the dust detector may be divided into four stages, which is converted into a dust pollution degree, and weighted for each stage (302). In other words, if the dust pollution degree is 1, the weight is 1, if the dust pollution is 2, the weight is 2, if the dust pollution is 3, the weight is 3, and if the dust pollution is 4, Is assigned a weight of 4 (302).

Therefore, if the pollution degree of dust is displayed in three stages (306), and thus the fan drive is operated in three stages (304) for one hour (308), 30 (three stages of air volume) x 1 (hours) x 3 (dust pollution) Weight) = 90, the controller should output through the output unit that the life of the filter is still 10. That is, the control unit calculates 90 by multiplying the air volume 30 of the three stages of the fan driving unit by the dust pollution weight 3 and the operating time 1, and then indicates that the remaining life of the filter is 10 minus 90, which is the total life of the filter. Output

If the air cleaner is in manual mode, the user forcibly sets the fan drive unit to the second stage (304), but if the dust pollution is determined to be the fourth stage (306), and the air cleaner is used for one hour (308), the control unit Is calculated by multiplying the air volume 20 of the second stage of the fan drive unit by the weight 4 and the driving time 1 of the fourth stage of the dust pollution, and calculating 80. Output to

That is, as described above, the present invention can calculate the life of the filter more accurately and reliably by considering both the flow rate through the filter and the dust amount according to the dust pollution degree.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

1 is an exemplary view showing an external configuration of an air cleaner to which the present invention is applied.

Figure 2 is an exemplary view showing the internal configuration of the air cleaner shown in FIG.

Figure 3 is a flow diagram of one embodiment of a filter life calculation method of the air purifier according to the present invention.

<Description of Major Symbols in Drawing>

110: input unit 120: output unit

130: storage unit 140: control unit

150: dust detection unit 160: fan drive unit

170: fan detection unit

Claims (4)

In the filter life calculation method of the air cleaner applied to the air cleaner including a filter unit, fan drive unit, control unit, storage unit, input unit, output unit, Storing, by the control unit, setting information about the total life of the filter, the number of stages of the fan driving unit, and the dust pollution weight inputted through the input unit, in the storage unit; When the fan driving unit is driven, storing and storing the operation stage of the fan driving unit; Analyzing, by the controller, a dust pollution degree of the filter unit, calculating and storing a dust pollution weight corresponding to the dust pollution degree; And And calculating, by the controller, the life of the filter using the operation stage of the fan driving unit, the dust pollution degree weight, and the driving time of the fan driving unit, and outputting the filter life through the output unit. How to calculate filter life of purifier. The method of claim 1, Calculating and outputting the life of the filter, Storing, by the controller, a value generated by arithmetically multiplying an operation stage of the fan driver, a dust pollution degree weight, and a driving time of the fan driver; Storing, by the controller, the filter lifetime stored in the storage, the value obtained by subtracting the value generated through the arithmetic process as the filter lifetime; And And the control unit outputs the filter life through the output unit. The method of claim 1, The number of stages of the fan drive unit, the filter life calculation method of the air cleaner, characterized in that divided by each step according to the rotation speed of the fan drive unit. The method of claim 1, The dust pollution weight weights, the filter life calculation method of the air cleaner, characterized in that the divided by the amount of dust detected in each step, each step is given to each step.

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