JP2015232433A - Air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air cleaner having a display part which displays the aging variation of the particle concentration in the air or the value of the concentration of microparticulate material and the like in order to provide the cleaning effect by the air cleaner.SOLUTION: An air cleaner includes a detection part 16 which detects particles in the air and outputs a detection signal, a control part 34 which outputs a display instruction signal on the basis of the detection signal from the detection part, and a display part 20 which displays the value of the particle concentration in the air on the basis of the display instruction signal.

Description

The present invention relates to an air purifier including a display unit that displays a change over time.

Air purifiers are used to remove pollen and house dust, but with the increase in particulate matter such as PM2.5 in recent years, the opportunity to use air purifiers increases regardless of the season. doing.

Some air purifiers are equipped with a sensor that detects fine particles, detects fine particles floating around the air cleaner, and detects the degree of air contamination.

Furthermore, JP 2012-47427 A (hereinafter referred to as Patent Document 1) discloses an air cleaner that can grasp the cleaning effect at a glance by simultaneously displaying the detection result before a predetermined time and the current detection result. It is disclosed.
Japanese Patent Laying-Open No. 2005-238063 (hereinafter referred to as Patent Document 2) includes at least one odor sensor, smoke sensor, and pollen sensor, and goes back a predetermined number from the latest rank to the past rank at predetermined intervals over time. A control device for an air cleaner is disclosed.

JP 2012-47427 A JP 2005-238063 A

However, in the display method disclosed in Patent Document 1, it is possible to compare the present and the past one. However, it is possible to know the finer temporal change and the specific current concentration of the fine particulate matter. I can't know.
In addition, with the display method disclosed in Patent Document 2, it is possible to check the level of many changes over time in the present and the past, but since it is not displayed as a numerical value, it is possible to intuitively grasp the difference with respect to the concentration to be cleaned. I can't.

The present invention has been made as a result of intensive studies to solve the above-described problems. In order to grasp the cleaning effect of the air cleaner, the change over time is displayed, or the concentration of fine particulate matter or the like is numerically indicated. It aims to provide an air cleaner to display.

In order to solve the above-described problem, in the invention according to claim 1, a detection unit that detects particles in the air and outputs a detection signal, and a display instruction signal is output based on the detection signal of the detection unit. And a display unit that numerically displays the particle concentration in the air based on the display instruction signal.

In order to solve the above-mentioned problem, the invention according to claim 2 is characterized in that the display unit further displays a change with time in the particle concentration in the air at the same time.

In order to solve the above-mentioned problem, the invention according to claim 3 is characterized in that the display section can switch a display level of a change with time.

According to the first aspect of the present invention, it is possible to provide an air cleaner that numerically displays the concentration of fine particulate matter or the like in order to grasp the cleaning effect of the air cleaner. Accordingly, the cleaning ability of the air cleaner can be confirmed.

According to the second aspect of the present invention, since the concentration of the fine particulate matter or the like is further displayed as a change with time, the cleaning effect from the past by the air cleaner can be visually confirmed.

According to invention of Claim 3, the cleaning effect by a fine air cleaner can be visually confirmed in detail.

It is a front perspective view of the air cleaner concerning the present invention. It is a back surface perspective view of the air cleaner concerning this invention. It is an enlarged view near the detection cover of the air cleaner concerning this invention. It is the disassembled perspective view seen from the upper direction of the air cleaner concerning this invention. It is a functional block diagram of the air cleaner concerning this invention. It is an example of a display of the display part of the air cleaner concerning this invention. It is a side view when the blower outlet cover of the air cleaner concerning this invention is closed. It is a side view when the blower outlet cover of the air cleaner concerning this invention is open. It is a rear view of the inner case in the air cleaner concerning this invention. It is a detection model of the detection part in the air cleaner concerning this invention.

Preferred embodiments of the present invention will be described below with reference to the drawings. This embodiment is an example, and the present invention is not limited to this.

Hereinafter, the air cleaner 100 which concerns on embodiment of this invention is demonstrated using figures.

(Constitution)
As shown in FIG. 1 to FIG. 2, the air purifier 100 according to the present invention includes a front case 10, a suction port 10 a provided at a lower portion of the front panel, a rear case 12 that houses an internal mechanism in combination with the front panel 10, A detection unit cover 14 provided on the back case 12, a gripping unit 12a provided above the left and right side surfaces of the air cleaner 100, an operation panel 18 provided above the air cleaner 100 and attached at a predetermined angle with respect to the ground plane, The display unit 20 is provided on the operation panel 18. A blowout port 12b is provided at the top of the back case 12, and a blowout port cover 22 is provided so as to cover the blowout port 12b.

The front panel 10 takes in outside air from the air inlet 10a. The air inlet 100a of the air cleaner 100 according to the embodiment of the present invention is provided at the lower part of the front panel 10, but may be the upper part of the front panel 10 or between the front panel 10 and the rear case 12. The structure which takes in from the clearance gap which can be formed by providing space in may be sufficient.

The back case 12 has a space in which a side surface, a back surface, a bottom surface, and a part of the top surface are integrally formed to store an internal mechanism.

The detection unit cover 14 is a plate-like component provided with an opening 14a as shown in FIG. It attaches so that it may be inserted in the recessed part 12c formed in the side surface of the back case 12. As shown in FIG. An opening 12 d is provided in the recess 12 c of the back case 12. A detector 16 is built in the back case 12 corresponding to the recess 12 c of the back case 12.
The opening 12 d of the back case 12 and the opening 14 a of the detection unit cover 14 are opened to introduce air outside the air cleaner 100 into the detection unit 16. Furthermore, the opening 12 d is opened larger than the opening 14 a of the detection unit cover 14 in order to facilitate maintenance of the detection unit 16.

The detection unit 16 includes a first detection unit 16a and a second detection unit 16b (see FIG. 5). Each detection unit has a different particle size of particles that can be detected. With this configuration, it is possible to detect fine particulate matter having a small particle diameter such as PM2.5 and to detect dust and pollen having a larger particle diameter with high accuracy.
In addition, in the air cleaner 100 concerning this invention, although the position which stores a detection part is provided in the lower part close | similar to a floor surface, depending on the property of the particle | grains to detect, you may provide in the place away from the ground surface.

The operation unit 18 is provided on the upper front side of the rear case 12. The operation unit 18 includes an operation panel 18a, an operation panel frame 18b on which the operation panel 18a is disposed, a substrate cover 18c covered with the operation panel frame 18b, and the substrate cover 18c, and the substrate 18d on which the display unit 20 is disposed. Consists of
The operation unit 18 is provided so that the operation panel is at a predetermined angle with respect to the ground plane of the air purifier 100. Since the air purifier 100 is usually installed on the floor surface or a low position close to the floor surface, the operation unit 18 is provided on the upper surface of the air purifier 100 so that the user can easily operate and the ground surface is not touched. By being provided at a predetermined angle, the display on the display unit 20 provided on the operation panel can be easily visually recognized even when the user is away from the air cleaner 100.

As shown in FIG. 5, the display unit 20, the control unit 34, the backlight 42, the power supply unit 44, and the like are mounted on the substrate 18d. A detection signal from the detection unit 16 is input to the control unit 34, and a display instruction signal is output to the display unit 20 based on the detection signal. The display unit 20 is provided with a backlight 42 so that the display content of the display unit 20 can be easily confirmed even in a dark place. Further, depending on the installation location such as a bedroom, the backlight may not be turned on.

Further, the operating unit 18 inputs operating conditions of the air cleaner 100 and outputs an operating signal to the control unit 34. The control unit 34 outputs a control signal to the motor driver 36 based on the operation signal.
The motor driver 36 outputs a drive signal to the motor 38 to drive the fan 40.
The control unit 34 is supplied with power from the power supply unit 44 and operates. The power supply unit 44 receives supply of a commercial power supply 46 supplied from the outside of the air purifier 100, and performs conversion from AC to DC and voltage conversion.

The display unit 20 displays the change in the concentration of air fine particles over time detected by the detection unit 16 and the current concentration of air fine particles detected by the detection unit 16 as numerical values. A display example is shown in FIG.
In this display example, the change over time of the PM2.5 concentration from the present to the past 20 minutes is shown as a bar graph and the current value of the PM2.5 concentration is displayed. In this display example, the horizontal axis displays the change over time in minutes, but it may be in hours or days, and these display modes may be switched. It is also possible to control the display so as to change the numerical value and unit on the vertical axis according to the situation.
Furthermore, the concentration of particles having a particle size larger than PM2.5 may be displayed. Specifically, the display is switched by pressing an operation mode key (not shown) of the operation unit 8. By providing such a display unit, the concentration of particulate matter such as PM2.5 contained in the air is changed. Changes over time can be displayed, and the operation of the air cleaner 100 can be easily communicated to the user. Further, since the concentration is displayed as a numerical value, it becomes possible to know the air cleanliness more specifically.

The detection unit 16 switches between the two detection units (16a and 16b) for each detection target, and determines the degree of cleanness using these output values. Specifically, the determination is made from the change diagram of the output value as shown in the detection schematic diagram of FIG. In the figure, the output value of the detection unit is normally at the “High” level, but changes to the “Low” level when dust or the like is detected. That is, “High” is an output value of the present sensor in a state where there is no air contamination, and “Low” is an output value of the present sensor in a dirty air state including PM2.5, dust, pollen and the like. Then, from the figure, a Low time ratio (t1 + t2 + t3... Tn) / T per predetermined time T (for example, 30 seconds) is calculated, and the degree of cleanness is determined by the magnitude.

Specifically, a reference sensor capable of specifying the concentration of particles in the air in advance and this sensor are measured under the same conditions, and a correlation with the output value of the sensor at the concentration specified by the reference sensor is obtained and stored in the memory 34a. (See FIG. 5). In actual measurement, the output value of this sensor is displayed numerically by collating with the memory 34a.

The blowout port 22 is provided on the upper rear side of the back case 12. Air cleaned by the airflow generated by the built-in fan 40 is discharged from the outlet 12b. A blowout port cover 22 is provided in the vicinity of the blowout port 12b.
The outlet cover 22 is rotatably attached, and the flow of air discharged from the outlet 22 is changed depending on the position of the outlet cover 22. If it is the position of FIG. 3, air will be discharged | emitted to the back of the air cleaner 100 as shown by the arrow. Further, when the outlet cover 22 is in the position shown in FIG. 4, the air is discharged above the air purifier 100 as indicated by an arrow.

(Internal mechanism)
Next, the internal structure of the air cleaner 100 according to the present invention will be described.
The first filter 24 is a filter through which the air taken in from the intake port 10a first passes. The first filter 24 functions as a prefilter that collects relatively large dust contained in the air. Two claws 24a to 24d are provided above and below the first filter.

The second filter 26 is a filter through which the air that has passed through the first filter 24 passes next. This filter collects particulate matter such as PM2.5 contained in the air. The second filter 26 uses a HEPA (High Efficiency Particulate Air) filter. It is possible to use another filter of the HEPA filter as long as the fine particle substance can be collected.

The deodorizing filter 28 is a filter through which air that has passed through the second filter 26 passes. Dust and particulates in the air are collected by the first filter 24 and the second filter 26, but they collect chemical substances that cannot be collected by these filters, such as odors. is there. As the deodorizing filter 28, the air purifier 100 according to the present invention uses a filter using activated carbon.
By adjusting the content of the activated carbon, it is possible to cause the deodorizing filter 28 to adsorb chemical substances such as formaldehyde in addition to the odor.

In this embodiment, the order in which the taken-in air passes is the first filter, the second filter, and the deodorizing filter. However, the order is changed to the order of the first filter, the deodorizing filter, and the second filter. Is also possible.

The inner case 30 is provided inside the air cleaner 100. In the inner case 30, the filter storage space and the casing 30a are integrally formed with a partition plate 30c having a communication port 30b interposed therebetween.

There is a filter storage space for storing the first filter 24, the second filter 26, and the deodorizing filter 28 on the front panel 10 side of the inner case 30. On the upper and lower sides of the portion in which the filter of the inner case 30 is stored, there are provided recesses into which the claws 24a to 24d of the first filter 24 can be inserted. The 1st filter 24, the 2nd filter 26, and the deodorizing filter 28 can be hold | maintained.

Further, as shown in FIGS. 5 and 9, a casing 30a for storing the fan 40 is formed on the opposite side of the filter storage space of the inner case 30, and the fan 40 is stored in the casing 30a. The air purified by the filters 24, 26, and 28 in the filter storage space is guided into the casing 30 a through the communication port 30 b formed in the partition plate 30 c and exhausted upward by the fan 40. .

The ion generator 32 discharges ions to air that has been cleaned for deodorization, sterilization, and mold prevention. The ion generator 32 includes an emission part 32a that generates ions and emits them to the outside, a voltage conversion board 32b, and a cable 32c that connects the emission part 32a and the voltage conversion board 32b.
The discharge part 32a is attached to the vicinity of the blow-out port 22 in the casing 30a, so that the ions released from the discharge part 32a of the ion generator 32 are efficiently sent out of the air cleaner 100.

The motor 38 is mounted in the casing 30 a of the inner case 30 and rotates the fan 40. As the motor, either an AC motor or a DC motor may be used. The selection is made according to the capacity of the air cleaner 100 or the like.
The fan 40 takes air into the air purifier 100 and generates an air flow for discharging the purified air from the blowout port 22. In the air cleaner 100 according to the present invention, a sirocco fan is used, but other types of fans may be used.

Note that the present invention is not limited to the above-described embodiment, and various changes and modifications can be made without departing from the scope of the present invention.

DESCRIPTION OF SYMBOLS 100 Air cleaner 10 Front panel 10a Air inlet 12 Back case 12a Grasp part 12b Outlet 12c Recessed part 12d Opening part 14 Detection part cover 14a Opening part 16 Detection part 16a First detection part 16b Second detection part 18 Operation part 18a Operation panel 18b Operation panel frame 18c Substrate cover 18d Substrate 20 Display unit 22 Outlet cover 24 First filters 24a to 24d
Claw part 26 Second filter 28 Deodorizing filter 30 Inner case 30a Casing 30b Communication port 30c Partition plate 32 Ion generator 32a Ion release part 32b Ion generator board 32c Cable 34 Controller 34a Memory 36 Motor driver 38 Motor 40 Fan 42 Back Light 44 Power supply 46 Commercial power supply

Claims (3)

A detector that detects particles in the air and outputs a detection signal;
A control unit that outputs a display instruction signal based on the detection signal of the detection unit;
Based on the display instruction signal, a display unit that numerically displays the particle concentration in the air;
The air cleaner characterized by having. The air cleaner according to claim 1, wherein the display unit further displays changes with time in the concentration of particles in the air at the same time. The air cleaner according to claim 2, wherein the display unit is capable of switching a display level of change with time.