KR20150120247A - Apparatus for measuring amount of accumulated dust infilter - Google Patents

Abstract

The present invention relates to an apparatus for measuring an amount of accumulated dust in a filter, capable of measuring an amount of accumulated dust in a filter by using infrared rays. The apparatus for measuring an amount of accumulated dust in a filter includes the filter which filters the dust in the air flowing in, an infrared ray generator which outputs the infrared rays to the filter by operating by a preset control signal inputted from the outside, an infrared ray receiver which outputs a preset signal by receiving the infrared rays passing through the filter, and a control unit which outputs the preset control signal to the infrared ray generator by an accumulated dust measurement signal inputted from the outside and determines the replacement time of the filter by receiving the preset signal outputted from the infrared ray receiver. Therefore, a user can grasp the accurate replacement time of the filter.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for measuring a dust accumulation amount of a filter,

The present invention relates to an apparatus for measuring a dust accumulation amount of a filter, and more particularly to a dust accumulation amount measuring apparatus for a filter capable of measuring the amount of dust accumulated in a filter using infrared rays.

Background Art [0002] Generally, household appliances including a processor for sucking indoor air including dust, such as an air cleaner and a vacuum cleaner, have a function of filtering dust. In the case of an air cleaner, there is a filter system, a precipitation system using water, and an electric dust collection system.

Until now, most air purifiers have used sedimentation method or electrostatic dust collection method using water, but the sedimentation method using water is a method of depositing contaminants by contacting the inhaled air with water. When water is used, Dust can be effectively collected, but if water management is neglected, bacterial growth may occur in the water. Add a disinfectant to the water. As such, the precipitation method using water is advantageous because it uses water, but it is also difficult to manage.

The electric dust collection system uses the electric discharge principle and purifies the contaminated air by the dust collecting plate having strong collecting power. An air purifier using an electric dust collection system instantaneously incinerates the suspended air of the air sucked by the electric field generated when a voltage of several thousands to tens of thousands of volts is applied to a hairdrier. Since this method removes fine dust, it is effective in a place where many fine dusts are present. However, when ozone and anion are generated, a sour smell is produced. When ozone is generated excessively, it is harmful. Such an electrostatic dust collecting type air purifier can be used semi-permanently if the dust collector is cleaned well, and there is no need to replace the filter, but if the cleaning is not performed in time, the dust dust may be discharged.

The filter method is a method of purifying polluted air by using a filter, and most of the recent air purifiers use this method.

FIG. 1 shows the structure of an air purifier using a conventional filter system. As shown in FIG. 1, when the power is applied and the fan 6 is driven by the motor 5, Is filtered while passing through the front end filter 2, the HEPA (High Efficiency Particulate Air Filter) 3 and the activated carbon filter (or the odor elimination filter) 4 and exits through the air outlet 7.

The front end filter 2 functions to filter out large dust in the air entering through the inlet 1 and the HEPA filter 3 functions to filter fine dust. The activated carbon filter 4 removes odors Function.

Of course, the air purifying function is improved to use more than four-stage filter, and in the case of high-end product, the filter of more than ten stages may be used.

The HEPA filter (3) filters fine dust less than 1 [mu] m, which is the main cause of respiratory disease, and removes 99.97% of dust having a size of 0.3 to 1 [mu m].

The filter method has the advantage of cleanly filtering out dust or impurities, but it has a disadvantage that the filter must be replaced periodically, thereby incurring an additional cost. For example, the shear filter (2) should be replaced every 6 months, and the HEPA filter (3) should be replaced every 1 to 2 years. Also, the activated carbon filter 4 and the added VOC (volatile organic compound) removing filter are replaced with the HEPA filter 3. When the filter is replaced after the filter replacement time, dust or bacteria collected in the filter It may pollute the air because it is breeding and discharging. It is therefore important to know when to replace the filter.

A method of determining the replacement time of the conventional filter includes a method of counting the accumulated cumulative operation time of the air cleaner, indicating a replacement time when a predetermined time is used, and a method of measuring the amount of dust collected in the filter by measuring the flow rate before and after the filter. In this method, the amount of dust in the air is measured and the operation time is multiplied. This is because when the surrounding environment is clean, the replacement time is increased, and when the surrounding environment is contaminated, . Such a method basically installs a dust sensor and a chemical sensor on the air cleaner, so that the additional cost is very low.

The method of measuring the flow rate includes a method of directly measuring the flow rate by installing a flow rate sensor and a method of measuring the flow rate directly by the method of measuring the flow rate of the fan when the motor of the fan generating the air flow accumulates dust on the filter, There is a method of measuring the amount of dust accumulated in the filter by measuring the load or the rotation number of the motor as described above.

However, since the method of measuring the dust accumulation amount of the conventional filter is indirect, the replacement time of the filter is not accurate.

However, as described above, the method of measuring the amount of dust accumulated in the conventional filter is an indirect method of measuring the dust accumulation amount by the operation time count and the load or rotation number of the motor, so that the replacement time of the filter is inaccurate.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a filter having an infrared ray generator for outputting infrared rays and an infrared ray receiver for receiving infrared rays passing through the filter, And it is an object of the present invention to provide an apparatus for measuring a dust accumulation amount of a filter that can accurately determine the replacement timing.

According to an aspect of the present invention, there is provided an air purifier comprising: a filter for filtering dust in an incoming air; An infrared ray generator which is operated by a predetermined control signal input from the outside and outputs infrared rays to the filter; An infrared receiver for receiving infrared rays passing through the filter and outputting a predetermined signal; And a controller for outputting a predetermined control signal to the infrared ray generator by an externally inputted dust accumulation amount measuring signal and receiving a predetermined signal outputted from the infrared ray receiver to determine the replacement time of the filter A dust accumulation amount measuring device for measuring a dust accumulation amount of the filter.

The infrared ray generating unit and the infrared ray receiving unit may be positioned opposite to each other with respect to the filter.

When the infrared receiver receives infrared rays passing through the filter and outputs a predetermined signal, the controller converts a predetermined signal output from the infrared receiver into a predetermined value, and when the converted value is greater than a preset reference value It is possible to output data for the filter replacement to a display window provided outside or to output a predetermined sound to an external speaker.

The control unit may measure the infrared characteristic of the dust-free state when the filter is replaced, measure the change of the infrared characteristic based on the measured value, and use the measured infrared characteristic to change the filter replacement time It can be judging.

The dust accumulation amount measurement signal input to the control unit may be a signal generated when the power is input to the apparatus, a dust accumulation amount measurement function key input signal, or a signal generated at a predetermined time set by the user.

The filter may be a HEPA (High Efficiency Particulate Air Filter).

As described above in detail, according to the present invention, an infrared ray generator for outputting infrared rays to a filter and an infrared ray receiver for receiving infrared ray passing through the filter are provided. By calculating the infrared ray passing rate and measuring the replacement time of the filter, It is possible to know the replacement timing.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exemplary view showing a configuration of an air purifier using a conventional filter system; Fig.
2 is a block diagram of an apparatus for measuring a dust accumulation amount of a filter according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of an apparatus for measuring a dust accumulation amount of a filter according to the present invention will be described with reference to the accompanying drawings.

The present invention relates to an air purifier, a vacuum cleaner, and a vacuum cleaner, and more particularly, to an air purifier, a vacuum cleaner, and the like, in which an indoor air including a dust is sucked and discharged, It is essential.

Generally, when dust is collected in the filter, the portion of the air between the fine fibers is filled with the dust, thereby changing the infrared transmission rate. In the present invention, the amount of accumulated dust collected on the filter is measured by measuring the change in the infrared transmission rate will be.

Especially, the HEPA filter is made of special fibers used in semiconductor clean room. It is very dense enough to pass only about 3 pieces of dust with a size of 0.3 ~ 1.0 [㎛] due to strong adsorption force, and the size of air layer between fibers Do. The air containing only dust less than 1 [mu m] from which large dust is removed by the front filter is introduced into the HEPA filter, so that the collected dust is uniform in size, and the dust is uniformly collected according to the air flow. Therefore, the infrared ray passing rate characteristic changes uniformly according to the amount of dust collected in the filter.

FIG. 2 shows a configuration of an apparatus for measuring a dust accumulation amount of a filter according to an embodiment of the present invention. As shown in FIG. 1, the HEPA filter 3 filters out fine dust of 1 [mu] m or less from the inflow air, and infrared rays having an intensity predetermined by the HEPA filter 3 An infrared ray generator 10 for outputting an infrared ray of the infrared ray generated by the infrared ray generator 10 and an infrared ray passing through the HAP filter 3 among the infrared rays output from the infrared ray generator 10, And outputs a predetermined control signal to the infrared ray generator 10 by an infrared ray receiver 20 and an externally inputted dust accumulation amount measuring signal IN and receives an electric signal output from the infrared ray receiver 20 If the converted value is smaller than a predetermined reference value, predetermined data for replacement of the HAPPA filter 3 is output to a display window (not shown) provided externally, The infrared ray generator 10 and the infrared ray receiver 20 are connected to each other in a different direction with respect to the HEPA filter 3, The infrared ray generator 10 is located on the right side of the HEPA filter and the infrared ray receiver 20 is located on the left side of the HEPA filter 3.

Of course, when the converted value is smaller than a predetermined reference value, the phrase for replacement of the HEPA filter 3 may be displayed on the display window and a predetermined sound may be output to the speaker to inform the user of the filter replacement time.

The infrared ray generator 10 and the infrared ray receiver 20 must be surface-treated so that dust or impurities are not adhered to the infrared ray receiver 20, and the position should be appropriately selected. At this time, it is preferable that the infrared ray generator 10 and the infrared ray receiver 20 are positioned at a place where a large amount of dust is collected due to a large amount of flow, and a certain distance is provided so as not to disturb the flow of air.

Hereinafter, the operation of the present invention will be described.

First, when the control unit 30 outputs a predetermined control signal for driving the infrared ray generator 10 by the dust accumulation amount measurement signal IN input from the outside, the infrared ray generator 10 outputs the control signal to the control unit 20 And outputs infrared rays having predetermined predetermined intensity to the HEPA filter 3 by a predetermined control signal outputted. Here, the externally inputted dust accumulation amount measurement signal IN may be a signal generated when a power switch is inputted to apply power to an apparatus (for example, an air purifier), and may be a function for measuring a dust accumulation amount of the filter A key input signal, or a signal generated at a measurement time set at the dust accumulation amount measurement menu (for example, every day at 11 am), and the input signal may be determined by the manufacturer.

The infrared ray receiver 20 receives infrared rays having a predetermined intensity passing through the HEPA filter 3 among the infrared rays output from the infrared ray generator 10 and converts the received infrared rays into electrical signals for output.

The controller 30 receives the electrical signal output from the infrared receiver 20 and converts the electrical signal into a predetermined value, compares the converted value with a preset reference value, and determines the replacement time of the HEPA filter 3 . If it is determined that the converted value is smaller than the predetermined reference value, it is determined that the amount of dust accumulated in the HEPA filter 3 is larger than the reference value for replacing the filter 3, Or a predetermined sound is output through a speaker to inform the user of the filter replacement timing.

Since the infrared ray passing rate passing through the HEPA filter 3 may be different depending on the characteristics of the filter (for example, the thickness or the manufacturing deviation), the infrared characteristic of the filter in the initial state in which no dust accumulates It is preferable to measure the change of the infrared characteristic on the basis of the measured value and determine the replacement timing of the filter by using the measured infrared characteristic.

As described above, according to the present invention, the passing rate of infrared rays due to dust accumulated in the filter is measured, and the amount of dust accumulated in the filter is measured through the measured infrared ray passing rate to know the replacement time of the filter.

3: HEPA filter 10: Infrared ray generator
20: infrared ray receiver 30:

Claims (6)

A filter for filtering dust in the incoming air; An infrared ray generator which is operated by a predetermined control signal input from the outside and outputs infrared rays to the filter; An infrared receiver for receiving infrared rays passing through the filter and outputting a predetermined signal; And a controller for outputting a predetermined control signal to the infrared ray generator by an externally inputted dust accumulation amount measuring signal and receiving a predetermined signal outputted from the infrared ray receiver to determine the replacement time of the filter A filter for measuring the amount of dust accumulated in the filter.
The apparatus according to claim 1, wherein the infrared ray generator and the infrared ray receiver are located in opposite directions with respect to the filter.
The infrared receiver according to claim 1, wherein, when the infrared receiver receives infrared rays passing through the filter and outputs a predetermined signal, the controller converts a predetermined signal output from the infrared receiver into a predetermined value, Determining whether the value is less than a preset reference value, and outputting the data for the filter replacement to a display window provided outside or outputting a predetermined sound to an external speaker.
[2] The method of claim 1, wherein the control unit measures an infrared characteristic in a state in which dust is not accumulated when the filter is replaced, measures a change in infrared characteristic on the basis of the measured value, And the filter replacement time is determined based on the time when the filter is replaced.
The dust collecting apparatus according to claim 1, wherein the dust accumulation amount measuring signal input to the controller is a signal generated when a power is input to the apparatus, a dust accumulation amount measuring function key input signal, or a signal generated at a time set by the user Of the dust accumulation amount measuring device.
The apparatus of claim 1, wherein the filter is a high efficiency particulate air filter (HEPA).

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