KR102502947B1 - Air purifier and method of displaying efficiency thereof - Google Patents

Abstract

An air purifier and a method for displaying its performance are disclosed. The air purifier includes a blowing unit including a blowing fan and a motor driving the blowing fan, and forming an air flow so that external air is introduced into the air purifier; a filter unit including one or more filters and filtering pollutants included in the air introduced into the interior by the blowing unit; a pressure measurement unit for measuring pressure at one or more preset points inside the air purifier; and a control unit that calculates the flow rate of the air purifier based on the pressure values of the one or more points measured by the pressure measuring unit and calculates information representing the performance of the air purifier based on the calculated flow rate. there is.

Description

Air purifier and method of displaying its performance {AIR PURIFIER AND METHOD OF DISPLAYING EFFICIENCY THEREOF}

This application relates to an air purifier and a method for displaying its performance.

An air purifier is a device that purifies pollutants contained in air and converts them into fresh air. Generally, external air is introduced into the air purifier to purify pollutants contained in the air purifier, and then the purified air is discharged to the outside.

To this end, the air purifier is provided with a blowing unit for forming an air flow, and the blowing unit may be set to operate at one or more preset air volume levels.

However, when the filter provided in the air purifier is contaminated as the use time of the air purifier is accumulated, the air flow rate by the air purifier may decrease even at the same air volume level, thereby degrading the performance of the air purifier.

In the related art, there is a demand for a method for measuring an air flow rate by an air purifier and visualizing the performance of the air purifier based on the measured air flow rate.

In order to solve the above problems, one embodiment of the present invention provides an air purifier.

An air purifier according to an embodiment of the present invention includes a blowing fan and a motor for driving the blowing fan, and forms an air flow so that external air is introduced into the air purifier; a filter unit including one or more filters and filtering pollutants included in the air introduced into the interior by the blowing unit; a pressure measurement unit for measuring pressure at one or more preset points inside the air purifier; and a control unit that calculates the flow rate of the air purifier based on the pressure values of the one or more points measured by the pressure measuring unit and calculates information representing the performance of the air purifier based on the calculated flow rate. there is.

Meanwhile, another embodiment of the present invention provides a method for displaying the performance of an air purifier.

A method for displaying the performance of an air purifier according to another embodiment of the present invention includes measuring pressures of a plurality of predetermined points in the air purifier before using a filter mounted in the air purifier; measuring the pressures of the plurality of points after using the filter; Comparing pressure values measured at the plurality of points before and after using the filter to calculate a point at which the change in pressure before and after using the filter is greatest; Calculating a flow rate of the air purifier based on a pressure value measured after use of the filter at the calculated point; and calculating information indicating performance of the air purifier based on the calculated flow rate of the air purifier.

In addition, the solution to the above problem does not enumerate all the features of the present invention. Various features of the present invention and the advantages and effects thereof will be understood in more detail with reference to specific embodiments below.

According to an embodiment of the present invention, the air flow rate of the air purifier may be measured, and performance of the air purifier may be visualized and provided to the user based on the measured air flow rate. Accordingly, since the user can quantitatively check the air quality improvement effect according to the use of the air purifier, user satisfaction with the use of the air purifier can be improved.

1 is a configuration diagram of an air purifier according to an embodiment of the present invention.
FIG. 2 is an exemplary embodiment of the blower shown in FIG. 1 .
FIG. 3 is a graph showing pressures measured at one or more points of the blowing unit shown in FIG. 2 .
4 is a flowchart of a performance display method of an air purifier according to another embodiment of the present invention.
5 is a flowchart of a method for displaying performance of an air purifier according to another embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and actions.

In addition, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case where it is 'directly connected', but also the case where it is 'indirectly connected' with another element in between. include In addition, 'including' a certain component means that other components may be further included, rather than excluding other components unless otherwise stated.

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

Referring to FIG. 1 , an air purifier 100 according to an embodiment of the present invention includes a filter unit 110, a blower unit 120, a pressure measuring unit 130, a control unit 140, and a display unit 150. and, if necessary, one or more of the sensor unit 160, the storage unit 170, and the communication unit 180 may be further included.

The filter unit 110 is for filtering out pollutants contained in the air flowing into the air purifier 100, for example, a method of adsorbing pollutants in the air flowing into the air purifier 100. contaminants can be removed.

For example, the filter unit 110 may be composed of one or more filters and may be positioned at an inlet of the air purifier 100 or may be positioned at the inlet and outlet of the air purifier 100, respectively. Here, the one or more filters may include various types of filters, such as, for example, a prefilter, a functional filter, a HEPA filter (High Efficiency Particulate Air filter), and a deodorization filter. Here, the pretreatment filter is for removing relatively large dust, hair, pet hair, etc., the functional filter is for removing antibacterial, pollen, house mites, germs, bacteria, etc., and the HEPA filter is for removing fine dust, indoor mold, etc. It is for removing various bacteria such as, and the deodorizing filter is for removing various odors and harmful gases in the room.

The blowing unit 120 is for forming an air flow so that external air is introduced into the air purifier 100, and includes a blowing fan and a motor for driving it, and the blowing fan is a scroll forming a blowing path. It may be located within the casing.

Here, the blowing fan may be rotated by a motor to form an air flow. In addition, the rotational speed (ie, revolutions per minute; RPM) of the motor may be adjusted according to the control of the control unit 140 .

FIG. 2 is an implementation example of the blower shown in FIG. 1 . As shown in FIG. 2 , the blower fan 121 may be positioned inside the scroll casing 122 . In this case, air flow is generated around point 5 by the rotation of the blowing fan 121, and air flow is completed around point 33 and passes through point 42. Accordingly, pressure is applied to the inside of the scroll casing 122 by the flow of air, and pressures at one or more points in the scroll casing 122 may be different from each other.

The pressure measuring unit 130 is for measuring the pressure of one or more predetermined points inside the air purifier 100, and may be implemented by various pressure measuring means known to those skilled in the art.

According to one embodiment of the present invention, as shown in FIG. 2, the pressure measuring unit 130 is located at one or more predetermined points along the air passage in the scroll casing 122 (points 1 to 42 in FIG. 2). installed to measure the pressure at that point.

FIG. 3 is a graph showing the pressure measured at one or more points of the air blower shown in FIG. 2. Specifically, (a) is shown in FIG. 2 when the filter provided in the air purifier 100 is in a clean state before being used. The pressures measured at points 1 to 42 of the illustrated scroll casing are shown, and (b) is the scroll casing shown in FIG. 2 when the filter provided in the air purifier 100 is contaminated after being used for a certain period of time. represents the pressure measured at points 1 to 42 of

Comparing the graphs shown in (a) and (b) of FIG. 3, it can be seen that the pressure change before and after using the filter is the largest at point 6 of the scroll casing. However, this is only an example, and the point where the pressure is measured, the pressure measured at that point, and the change in pressure before and after using the filter may vary depending on the shape and structure of the air blower inside the air purifier 100.

The control unit 140 is for controlling the overall operation of the air purifier 100, for example, a central processing unit (CPU), a graphic processing unit (GPU), a microprocessor, an application specific integrated circuit (ASIC) , Field Programmable Gate Arrays (FPGA).

Specifically, the control unit 140 calculates the flow rate of the air purifier 100 based on the pressure values of one or more points measured by the pressure measurement unit 130, and indicates the performance of the air purifier 100 based on this. Various information for betting can be calculated.

According to one embodiment of the present invention, the control unit 140 is used before a filter (for example, a clean, unused filter) is mounted on the filter unit 110 and after the filter is mounted and used for a certain period of time. Each pressure measurement unit 130 may be controlled to measure pressure values of a plurality of preset points.

Thereafter, the control unit 140 compares the pressure values measured at a plurality of points before and after using the filter to calculate a point where the pressure change before and after using the filter is the greatest, and based on the pressure measured after using the filter at that point. The flow rate by the air purifier 100 can be calculated. For example, the controller 140 may calculate the flow rate (Q) of the air purifier 100 according to Equation 1. Here, the flow rate conversion coefficient (Cv) may be determined in advance by an experiment or the like and stored in a storage unit 170 or the like to be described later.

[Equation 1]

Flow rate (Q) = Pressure X flow rate conversion factor (Cv)

According to another embodiment of the present invention, the control unit 140 measures the pressure value of a predetermined point by the pressure measuring unit 130 after the filter is mounted on the filter unit 110 and used for a certain period of time, Based on this, the flow rate (Q) of the air purifier 100 may be calculated according to Equation 1 described above. Here, the predetermined point may be different according to the structure of the air blower inside the air purifier 100, and the point where the pressure change before and after using the filter is the greatest is found and set as one point for measuring the pressure. can

In addition, the controller 140 may calculate various types of information to represent the performance of the air purifier 100 based on the flow rate calculated as described above.

For example, the controller 140 may display the performance of the air cleaner 100 by displaying the calculated flow rate itself through the display unit 150. In this case, the control unit 140 may display the flow rate calculated at the time of measuring the pressure and the flow rate in the case of an unused, clean filter together through the display unit 150, and this value is stored in advance in the storage unit 170 to be described later. can be stored

As another example, the controller 140 may quantify the degree of decrease in flow rate at the time of measuring the pressure based on the flow rate calculated at the time of measuring the pressure and the flow rate in the case of an unused, clean filter, and display it through the display unit 150. In addition, the controller 140 may determine that a filter exchange cycle or an air purifier cleaning cycle has arrived when the degree of decrease in flow rate is equal to or greater than a predetermined reference value, and may display the result through the display unit 150 .

As another example, the control unit 140 may additionally consider the dust concentration measured by the sensor unit 160 to be described later in displaying the performance of the air purifier 100. For example, the controller 140 may calculate the amount of dust collected by the air purifier 100 according to Equation 2. Here, the dust concentration may be a numerical value measured and quantified by a dust sensor included in the sensor unit 160, such as, for example, PM2.5 or PM10.

[Equation 2]

Dust collection amount = flow rate X dust concentration

Accordingly, the controller 140 may calculate the dust collection amount for a predetermined unit of time (eg, 1 hour, 1 day, etc.) and display it through the display unit 150 . In addition, when the area of the space in which the air purifier 100 is installed is input, the control unit 140 calculates the amount of dust in the space, excludes the amount of collected dust, calculates the amount of dust remaining in the space, and displays it on the display unit. It can also be displayed through (150). Furthermore, when the dust collection capacity of the filter mounted in the filter unit 110 is input, the control unit 140 compares the dust collection capacity with the dust collection amount to calculate a filter usage ratio and displays the result on the display unit 150. You may.

In addition, the control unit 140 transmits the various information calculated as described above to the user's portable terminal (not shown) through the communication unit 180 to be described later, so that the user can remotely view the performance-related information of the air purifier 100. can be checked. In addition, the control unit 140 may receive data necessary for the above-described operation (eg, area of a space, dust concentration, etc.) through a communication unit 180 to be described later.

The display unit 150 is for displaying various information related to the operation of the air purifier 100 and the like, and may be implemented by various known display elements such as LCD, LED, PDP, and the like.

According to one embodiment of the present invention, the display unit 150 is the flow rate of the air purifier 100 calculated by the controller 140 or the performance of the air purifier 100 calculated based on the flow rate of the air purifier 100 It is possible to display various types of information to indicate.

The sensor unit 160 is for measuring the air quality around the air purifier 100, and may include, for example, a dust sensor for measuring the concentration of dust in the air, and in addition, for measuring the concentration of gas in the air. A gas sensor (VOC sensor) for measuring the CO ₂ concentration in the air, a CO ₂ sensor for measuring the concentration of radon in the air, a radon sensor for measuring the radon concentration in the air, a humidity sensor for measuring the humidity in the air, and a temperature sensor for measuring the temperature of the air It may be configured to include various types of sensors capable of measuring air conditions, such as the like.

The storage unit 170 is for storing various data necessary for performing the operation of the air purifier 100.

According to an embodiment of the present invention, the storage unit 170 has a pressure value measured by the pressure measuring unit 130, a flow rate conversion coefficient determined in advance to calculate the flow rate of the air purifier 100 based on the pressure value, and the like this can be stored.

The communication unit 180 is for performing communication with an external device such as, for example, a portable terminal (not shown) or an external server (not shown), and may be implemented in a wireless communication method such as Wi-Fi. can However, the communication technology used by the communication unit 180 is not necessarily limited thereto, and the communication unit 180 may be implemented by various wired or wireless communication technologies.

4 is a flowchart of a performance display method of an air purifier according to another embodiment of the present invention.

Referring to FIG. 4, first, before using the filter mounted in the air purifier (ie, an unused, clean filter), pressure values are measured at a plurality of predetermined points inside the air purifier (eg, a scroll casing) ( S41).

Thereafter, after using the filter mounted in the air purifier (ie, the contaminated filter), pressure values are measured at a plurality of predetermined points as described above (S42).

Thereafter, pressure values measured at a plurality of points before and after using the filter are compared (S43) to calculate a point where the change in pressure before and after using the filter is the greatest (S44).

Thereafter, the flow rate by the air purifier is calculated based on the pressure measured after using the filter at the calculated point (S45). For example, the flow rate by the air purifier may be calculated according to Equation 1 described above.

Thereafter, various information for indicating the performance of the air purifier may be calculated and displayed based on the calculated flow rate (S46). For example, as information to indicate the performance of an air purifier, i) quantify the degree of decrease in flow rate based on the flow rate of the air purifier and the flow rate of the air purifier when an unused filter is installed, and ii) the degree of decrease in flow rate If it is above the set standard value, it is determined that the filter replacement cycle or air purifier cleaning cycle has arrived, iii) the amount of dust collected by the air purifier is calculated based on the flow rate of the air purifier and the dust concentration in the space where the air purifier is installed, iv) After calculating the amount of dust in the space using the area of the space where the air purifier is installed, the amount of dust remaining in the space is calculated by subtracting the amount of dust collected from the amount of dust in the space, v) Comparing the dust collection capacity of the filter and the dust collection amount The filter usage rate can be calculated. Since the specific details thereof are the same as those described above with reference to FIG. 1 , detailed description thereof will be omitted.

5 is a flowchart of a method for displaying performance of an air purifier according to another embodiment of the present invention.

Referring to FIG. 5, first, after using the filter mounted in the air purifier (ie, the contaminated filter), a pressure value is measured at a predetermined point inside the air purifier (eg, the scroll casing) (S51). .

Thereafter, the flow rate by the air purifier is calculated based on the measured pressure (S52). For example, the flow rate by the air purifier may be calculated according to Equation 1 described above.

Thereafter, various information to indicate the performance of the air purifier may be calculated and displayed based on the calculated flow rate (S53). Here, since the information and calculation method to be calculated are the same as those described above with reference to FIGS. 1 and 4, a detailed description thereof will be omitted.

The present invention is not limited by the foregoing embodiments and accompanying drawings. It will be clear to those skilled in the art that the components according to the present invention can be substituted, modified, and changed without departing from the technical spirit of the present invention.

100: air purifier
110: filter unit
120: blower
121: blowing fan
122: scroll casing
130: pressure measuring unit
140: control unit
150: display unit
160: sensor unit
170: storage unit
180: communication department

Claims (20)

a blowing unit including a blowing fan and a motor for driving the blowing fan, and forming an air flow so that external air is introduced into the air purifier;
a filter unit including one or more filters and filtering pollutants included in the air introduced into the interior by the blowing unit;
a pressure measurement unit for measuring pressure at one or more preset points inside the air purifier; and
A control unit for calculating the flow rate of the air purifier based on the pressure values of the one or more points measured by the pressure measuring unit and calculating information representing the performance of the air purifier based on the calculated flow rate,
The control unit controls the pressure measuring unit to measure the pressures of a plurality of predetermined points inside the air purifier before and after using the filter, respectively, and measures the pressure at the plurality of points before and after using the filter. The pressure value is compared to calculate the point where the pressure change is the largest, and based on the pressure value measured after use of the filter at the calculated point, the following formula:
Flow rate (Q) = pressure value X flow rate conversion coefficient (Cv)
The flow rate of the air purifier is calculated according to, and the flow rate conversion coefficient is a predetermined value.
According to claim 1,
The blowing fan is located in a scroll casing forming a blowing path,
The pressure measuring unit measures the pressure of one or more preset points along the air passage in the scroll casing.
delete delete According to claim 1,
The control unit controls to measure the pressure at a predetermined point inside the air purifier by the pressure measuring unit after using the filter, and calculates the flow rate of the air purifier based on the measured pressure value.
According to claim 1,
The control unit quantifies the degree of decrease in flow rate based on the flow rate of the air purifier and the flow rate of the air purifier when an unused filter is mounted.
According to claim 6,
The air purifier, wherein the control unit determines that a filter replacement cycle or an air purifier cleaning cycle has arrived when the degree of decrease in the flow rate is equal to or greater than a predetermined reference value.
delete a blowing unit including a blowing fan and a motor for driving the blowing fan, and forming an air flow so that external air is introduced into the air purifier;
a filter unit including one or more filters and filtering pollutants included in the air introduced into the interior by the blowing unit;
a pressure measurement unit for measuring pressure at one or more preset points inside the air purifier;
A sensor unit for measuring ambient air quality; and
A control unit for calculating the flow rate of the air purifier based on the pressure values of the one or more points measured by the pressure measuring unit and calculating information representing the performance of the air purifier based on the calculated flow rate,
The control unit
Calculate the amount of dust collected by the air purifier based on the flow rate of the air purifier and the dust concentration measured by the sensor unit;
The air purifier for calculating the amount of dust in the space by using the area of the space where the air purifier is installed, and calculating the amount of dust remaining in the space by excluding the amount of dust collected from the amount of dust in the space.
a blowing unit including a blowing fan and a motor for driving the blowing fan, and forming an air flow so that external air is introduced into the air purifier;
a filter unit including one or more filters and filtering pollutants included in the air introduced into the interior by the blowing unit;
a pressure measurement unit for measuring pressure at one or more preset points inside the air purifier;
A sensor unit for measuring ambient air quality; and
A control unit for calculating the flow rate of the air purifier based on the pressure values of the one or more points measured by the pressure measuring unit and calculating information representing the performance of the air purifier based on the calculated flow rate,
The control unit
Calculate the amount of dust collected by the air purifier based on the flow rate of the air purifier and the dust concentration measured by the sensor unit;
An air purifier that calculates a filter usage ratio by comparing the dust collection capacity of the filter with the dust collection amount.
According to claim 1,
Further comprising a display unit for displaying information,
The controller displays information indicating the flow rate of the air purifier or the performance of the air purifier through the display unit.
According to claim 1,
Further comprising a communication unit for performing communication with an external device,
The control unit transmits information representing the flow rate of the air purifier or the performance of the air purifier to the external device through the communication unit.
Measuring pressures of a plurality of predetermined points in the air purifier before using a filter mounted in the air purifier;
measuring the pressures of the plurality of points after using the filter;
Comparing pressure values measured at the plurality of points before and after using the filter to calculate a point at which the change in pressure before and after using the filter is greatest;
Calculating a flow rate of the air purifier based on a pressure value measured after use of the filter at the calculated point; and
Calculating information representing the performance of the air purifier based on the calculated flow rate of the air purifier,
The step of calculating the flow rate is the following equation:
Flow rate (Q) = pressure value X flow rate conversion factor (Cv)
The flow rate of the air purifier is calculated according to, and the flow rate conversion coefficient is a predetermined value.
Measuring a pressure at a predetermined point in the air purifier after using a filter mounted in the air purifier;
Calculating a flow rate of the air purifier based on the measured pressure value; and
Calculating information representing the performance of the air purifier based on the calculated flow rate of the air purifier,
The step of calculating the flow rate is the following equation
Flow rate (Q) = pressure value X flow rate conversion coefficient (Cv)
The flow rate of the air purifier is calculated according to, and the flow rate conversion coefficient is a predetermined value.
delete According to claim 13 or 14,
The step of calculating the information is,
A method of displaying performance of an air purifier comprising quantifying a degree of decrease in flow rate based on the flow rate of the air purifier and the flow rate of the air purifier when an unused filter is mounted.
17. The method of claim 16,
The step of calculating the information is,
The method of displaying performance of an air purifier further comprising determining that a filter replacement cycle or an air purifier cleaning cycle has arrived when the degree of decrease in flow rate is equal to or greater than a predetermined reference value.
According to claim 13 or 14,
The step of calculating the information is,
Calculating a dust collection amount by the air purifier based on a flow rate of the air purifier and a dust concentration of a space in which the air purifier is installed.
According to claim 18,
The step of calculating the information is,
A method of displaying performance of an air purifier further comprising calculating an amount of dust in the space by using an area of the space in which the air purifier is installed, and calculating an amount of dust remaining in the space by excluding the amount of collected dust from the amount of dust in the space. .
According to claim 18,
The step of calculating the information is,
The method of displaying the performance of the air purifier further comprising calculating a filter usage rate by comparing the dust collection capacity of the filter with the dust collection amount.

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