JP5146587B2 - Air cleaner - Google Patents

Description

  The present invention relates to an air cleaner capable of controlling a suction airflow.

  Conventionally, this type of air purifier is known to be capable of changing the intake ratio and the intake direction of a plurality of intake ports (see, for example, Patent Document 1).

  The air cleaner will be described below with reference to FIG.

  As shown in the figure, a front intake port 101 and a lower intake port 102 are provided, and the lower intake port 102 opens near the lower end portion of the front cover 103 and has a larger opening area than the front intake port 101. It is configured so that contaminated air staying on the table top or floor can be efficiently removed.

JP 2007-21353 A

  In such a conventional air purifier, the inlet ratio of a plurality of inlets can be changed, but since the size of the dust particle size of the indoor air is not taken into account, , It tends to settle on the floor surface due to lack of suction force, and may not be sufficiently cleaned, and it may float and diffuse in the upper layer of the room for dirt with small particle size There is a problem, and it is required to clean the room reliably by efficiently taking in air by changing the size of the air inlet etc. corresponding to dust of large and small particle size dispersed in the room Yes.

  The present invention solves such a conventional problem, and by changing the size and direction of the inlet corresponding to the size and concentration of the particle size of the dust, the suction corresponding to the particle size of the dust An object of the present invention is to provide an air purifier capable of forming an air flow, efficiently sucking dust from an intake port, and removing the dust reliably.

  In order to achieve the above object, the air cleaner of the present invention has a main body, a cleaning means for cleaning the air sucked from the suction port, a blowing means for ventilating the cleaning means, and a cleaning means provided in the main body. An air outlet for blowing air into the room, a dust sensor for detecting the particle size and concentration of the dust in the air, and the suction wind direction plate according to the size and concentration of the particle size of the dust output from the dust sensor The suction port for sucking room air has a first suction port provided at the lower front of the main body and a second suction port provided above the first suction port. A suction wind direction plate capable of adjusting the suction wind direction from above to below and from below to above is provided at the first suction port, and the control unit adjusts the angle of the suction wind direction plate to adjust the suction wind direction from above. It is set from below or above from below That.

  Another means is that the control unit determines that the dust concentration detected by the dust sensor is high when determining that the dust sensor has detected a large particle size dust, by adjusting the angle of the suction wind direction plate. The suction air direction is set from the bottom to the top.

  Another means is that when the control unit determines that the dust sensor has detected a small particle size dust, the suction air direction plate is adjusted by adjusting the angle of the suction air direction plate regardless of the concentration of the dust detected by the dust sensor. Is set from above to below.

  The other means has a human sensor for detecting a person in the main body, and when the human sensor detects the person in the room, the control unit adjusts the angle of the suction wind direction plate to adjust the first. The suction air direction of the suction port is set from below to above.

  Another means has a manual switch in the operation unit of the main body, and the control unit sets the suction air direction from above to below by the suction air direction plate when the manual switch is pushed by the user during operation. In this case, by adjusting the angle of the suction air direction plate, the suction air direction of the first suction port is set from the lower side to the upper side.

  Further, the other means has a manual switch in the operation part of the main body, and the control part, when the manual switch is pushed by the user during operation, regardless of the judgment of the dust sensor, Is the maximum.

  As a result, by changing the inlet size and direction suitable for the particle size and concentration of the dust, a suction airflow corresponding to the particle size of the dust is formed, and the dust is efficiently removed from the inlet. An air cleaner that can be reliably removed by suction is obtained.

  According to the present invention, dust is efficiently sucked into the main body by forming the suction airflow according to the particle size of the dust by adjusting the angle of the suction air direction from above to below and from below to above by the suction air direction plate. An air cleaner having an effect that can be removed is obtained.

  When it is determined that dust with a large particle size has been detected, or when it is determined that dust with a large particle size and a small particle size has been detected, when the dust sensor determines that the concentration of dust is high, the suction air direction By adjusting the suction air direction from below to above with a plate, an air flow with a high intake ratio of the low-frequency space air is formed, so that dust with a large particle size floating in the low-frequency space is efficiently sucked into the main body and removed. An air cleaner with an effect that can be obtained.

  Also, when determining that dust with a small particle size has been detected, by adjusting the angle of the suction air direction from the top to the bottom by the suction air direction plate, by forming an air flow with a high intake ratio of the high-frequency space air, An air cleaner having an effect of efficiently sucking and removing dust having a small particle diameter floating in the space into the main body can be obtained.

  Also, when determining that there is a person, by adjusting the angle of the suction air direction from below to above with the suction air direction plate, an air flow with a high intake ratio of the low-frequency space air is formed, and the particle size of the particle size floating in the low-frequency space is An air cleaner having an effect of efficiently sucking and removing large dust into the main body can be obtained.

  In addition, when the manual switch is pressed by the user during operation, if the suction air direction plate is set from the upper side to the lower side by the suction air direction plate, the suction air direction plate is set from the lower side to the upper side. When the user feels necessary, it can form an air flow with a high intake ratio of the low-frequency space air in a timely manner, and the large particle size dust floating in the low-frequency space can be efficiently sucked into the main body and removed An effective air purifier can be obtained.

  In addition, when the manual switch is pressed by the user during operation, the low-frequency space is timely when the user feels necessary by maximizing the air flow of the air blowing means regardless of the dust sensor judgment. An air cleaner having an effect of forming an air flow with a high air intake ratio and capable of efficiently sucking and removing dust having a large particle size floating in the low-frequency space into the main body can be obtained.

Partially broken external perspective view of the air cleaners of Premise Example 1 and Reference Examples 1 and 2 External appearance perspective view of a partially broken air cleaner of Embodiments 1, 2, and 3 of the present invention Schematic sectional view showing the suction lid portion of the second suction port of Premise Example 1 and Reference Examples 1 and 2 ((A) A diagram showing a closed state, (B) A diagram showing a half-open state, (C) A fully open state Figure showing The principal part perspective view which shows the suction cover part of the said 2nd inlet ((A) The figure which shows a closed state, (B) The figure which shows a half-open state, (C) The figure which shows a fully open state) Schematic sectional view showing a suction air direction plate of the second suction port according to the first, second and third embodiments of the present invention ((a) a view showing a closed state, (b) an angle of the suction air direction plate of the second suction port) The figure which shows the state of the wind direction from the top to the bottom adjusted and (c) The figure which adjusts the angle of the suction direction plate of the second suction port and shows the state of the wind direction from the bottom to the top) The principal part perspective view which shows the suction wind direction plate of the said 2nd suction port ((A) The figure which shows the closed state of the suction wind direction plate of the 2nd suction port, (B) The angle of the suction wind direction plate of the 2nd suction port The figure which shows the state of the wind direction from the top to the bottom adjusted and (c) The figure which adjusts the angle of the suction direction plate of the second suction port and shows the state of the wind direction from the bottom to the top) Block diagram of Assumption 1 and Reference Examples 1 and 2 Block circuit diagrams of first, second and third embodiments of the present invention Conceptual diagram of floating dust distribution of indoor air in Embodiments 1 to 3 of the present invention, Premise Example 1, and Reference Examples 1 and 2 A view showing a conventional air purifier

  According to the first aspect of the present invention, the main body cleans the air sucked from the suction port, the air blowing means that ventilates the cleaning means, and the cleaned air provided in the main body for blowing the air into the room. , A dust sensor for detecting the particle size and concentration of the dust in the air, and a control unit for controlling the angle of the suction air direction plate according to the size and concentration of the particle size of the dust output from the dust sensor The suction port for sucking room air is composed of a first suction port provided in the lower front part of the main body and a second suction port provided above the first suction port. A suction wind direction plate capable of adjusting the angle from the bottom to the top and the bottom to the top is provided at the first suction port, and the control unit sets the suction wind direction from above to below or from below to above by adjusting the angle of the suction wind direction plate. Then, it adapts to the particle size of the dust By forming the direction of the suction air flow that has the effect of dust efficiently sucked into the main body can be removed.

  Further, in the invention according to claim 2, when the control unit determines that at least the dust sensor has detected a large particle size dust, and determines that the dust concentration detected by the dust sensor is high, the suction wind direction plate By adjusting the angle of the suction air, the suction air direction is set from the lower side to the upper side, and by forming an air flow with a high intake ratio of the low-frequency space air, the main body efficiently produces dust with a large particle size floating in the low-frequency space. It has the effect that it can be sucked and removed.

  In the invention according to claim 3, when the control unit determines that the dust sensor has detected a small particle size dust, the angle of the suction wind direction plate is adjusted regardless of the concentration of the dust detected by the dust sensor. The suction air direction is set from the top to the bottom, and when dust with a small particle size is detected, the suction air direction plate changes the suction air direction from the top to the bottom so that the intake ratio of the high-frequency space air By forming a high air current, dust having a small particle size floating in the high frequency space can be efficiently sucked into the main body and removed.

  According to a fourth aspect of the present invention, the main body includes a human sensor for detecting a person in the main body, and the controller adjusts the angle of the suction wind direction plate when the human sensor detects the person in the room. The suction air direction of the first suction port is set from the lower side to the upper side, and when it is determined that there is a person, the suction air direction plate is used to set the suction air direction from the lower side to the upper side. An air flow having a high intake ratio is formed, and dust having a large particle size floating in a low-frequency space can be efficiently sucked into the main body and removed.

  Further, the invention according to claim 5 has a manual switch in the operation part of the main body, and the control part changes the suction air direction from above by the suction air direction plate when the manual switch is pushed by the user during operation. When the angle is adjusted downward, the suction air direction of the first suction port is set upward from below by adjusting the angle of the suction air direction plate, and the manual switch is pressed by the user during operation. When the suction air direction plate is angle-adjusted from the top to the bottom by the suction air direction plate, when the user feels necessary by adjusting the angle of the suction air direction from the bottom to the top by the suction air direction plate An air flow having a high intake ratio of the low-frequency space air is formed in a timely manner, and the dust having a large particle size floating in the low-frequency space can be efficiently sucked into the body and removed.

  According to a sixth aspect of the present invention, the operation unit of the main body has a manual switch, and when the manual switch is pushed by the user during operation, the control unit is configured to blow air regardless of the determination of the dust sensor. The air flow of the means is maximized, and when the user presses the manual switch during operation, the user is required to maximize the air flow of the air blowing means regardless of the dust sensor judgment The airflow having a high intake ratio of the low-frequency space air is formed in a timely manner, and dust having a large particle size floating in the low-frequency space can be efficiently sucked into the main body and removed.

(Assumption example 1)
As shown in FIGS. 1, 3, 4, and 7, the main body 1 is formed in a substantially box shape, and a blower outlet 5 is provided on the top surface of the main body 1. 2a is provided, a second suction port 2b is provided on the side of the main body 1 above the first suction port 2a, and a suction lid portion 9 that can be fully opened, half-opened and closed is provided in the first suction port 2a. .

  The main body 1 is provided with a filter 3 as air cleaning means and a fan motor 4 as air blowing means for passing air through the filter 3, and air sucked from the suction port 2 by driving the fan motor 4 passes through the filter 3. Then, it is cleaned and blown out from the outlet 5. Further, the main body 1 is provided with a dust sensor 7 for detecting the particle size and concentration of dust in the air, and the control unit 8 drives and controls the suction lid drive unit 12 corresponding to the detection value of the dust sensor 7. Thus, the suction lid portion 9 is fully opened, half-opened, or closed. Further, the control unit 8 can change the blowing direction of the blowout port 5 upward or diagonally forward by driving the blowout louver drive unit 11 and rotating the blowout louver 6 corresponding to the detection value of the dust sensor 7. Is.

  The dust sensor 7 transmits different output values to the control unit 8 when the particle size of the detected dust exceeds 1.0 μm and when it exceeds 2.5 μm. For example, when the particle size of the detected dust is 2.5 μm or more, two types of output values are output: an output value exceeding 1.0 μm and an output value exceeding 2.5 μm. At this time, when the output frequency within a certain sampling time is equal to or higher than the reference, the control unit 8 determines that dust having a large particle size and a small particle size has been detected. On the other hand, when the appearance frequency of the output values of 1.0 μm to 2.5 μm is less than the reference, the control unit 8 determines that dust having a large particle diameter has been detected. When the particle size of the detected dust is 1.0 μm or more and less than 2.5 μm, only the output value when it exceeds 1.0 μm is output. At this time, when the output frequency within a certain sampling time is equal to or higher than the reference, the control unit 8 determines that dust having a small particle diameter has been detected. When the particle size of the detected dust is less than 1.0 μm, no output value is output to avoid noise. At this time, the control unit 8 determines that dust is not detected. The display unit 13 is provided on the surface of the main body 1 and visually displays the operation state with LEDs and display characters.

  As shown in FIG. 3, in indoor air, ticks and dies with large particle diameters, dust such as pollen and dust are likely to settle, and are distributed in a lot of low space in the room. It is known that odors and odors are likely to float and are often distributed in indoor high-frequency spaces.

  In the above configuration, when the control unit 8 determines that the dust sensor 7 has detected a large particle size dust during operation of the main body 1 or when it has been determined that a large particle size and a small particle size dust have been detected. When the dust sensor 7 determines that the dust concentration is high, the suction lid drive unit 12 is driven to fully open the suction lid 9. As a result, the air flow 20 with a high intake ratio of the low-frequency space air is formed, so that mite feces and deaths with large particle diameters distributed and floating in the indoor low-frequency space are entrained, and dust such as pollen and dust is involved. The airflow 20 reaches the lower front portion of the main body 1, and the circulating airflow 20 formed in this way is sucked into the first suction port 2 a of the main body 1, and the filter 3 cleans contaminated air having a large particle size. it can. At this time, it becomes easy to form the airflow 20 by rotating the blowout louver 6 of the blowout outlet 5 and setting the blowout louver 6 diagonally forward.

  When the control unit 8 determines that the dust sensor 7 has detected a small particle size dust, when the dust sensor 7 determines that the concentration of the dust is high or low, the control unit 8 drives the suction lid drive unit 12. Then, the suction lid portion 9 is closed. As a result, an air flow 19 having a high intake ratio of the high-frequency space air is formed. 1, the circulating airflow 19 formed in this way is sucked into the second suction port 2 b of the main body 1, and the contaminated air having a small particle diameter can be cleaned by the filter 3. At this time, the air flow 19 can be easily formed by rotating the blowout louver 6 of the blowout outlet 5 and setting it upward.

  In addition, when the control unit 8 determines that the dust sensor 7 has detected a dust having a large particle size, or when it is determined that dust having a large particle size and a small particle size has been detected, the dust sensor 7 has a concentration of dust. When it determines with it being low, the suction cover part drive part 12 is driven and the suction cover part 9 is opened half way. As a result, the airflow 20 having a high intake ratio of the low-frequency space air is formed without reducing the passing wind speed while reducing the driving noise and power consumption. While entraining dust such as ticks with large diameter, dead, pollen, dust, etc., the airflow 20 reaches the lower front surface of the main body 1, and the circulating airflow 20 formed in this way enters the first suction port 2a of the main body 1. The contaminated air that has been sucked and becomes larger in particle size can be cleaned by the filter 3.

(Embodiment 1)
As shown in FIGS. 2, 5, 6, 8, and 9, the suction port 2 includes a first suction port 2 a provided in the lower front portion of the main body 1, and an upper portion than the first suction port 2 a. The second suction port 2b is provided, and the first suction port 2a is provided with a suction air direction plate 17 capable of adjusting the angle of the suction air direction from above to below or from below to above. Further, the main body 1 is provided with a dust sensor 7 for detecting the particle size and concentration of dust in the air, and the control unit 8 drives and controls the suction wind direction plate driving unit 16 in accordance with the detection value of the dust sensor 7. Thus, the angle of the suction air direction plate 17 is adjusted, and the suction air direction of the first suction port 2a can be set from the lower side to the upper side or from the lower side to the upper side.

  In the above configuration, when the control unit 8 determines that the dust sensor 7 has detected a large particle size dust during operation of the main body 1 or when it has been determined that a large particle size and a small particle size dust have been detected. When it is determined that the detected value of the dust concentration of the dust sensor 7 is high, the suction air direction plate drive unit 16 is driven to adjust the angle of the suction air direction plate 17 to set the suction air direction from the lower side to the upper side. As a result, an air flow 20 having a high intake ratio of the low-frequency space air is easily formed, so that mite feces and dead large-sized particles that are distributed and float in the indoor low-frequency space, engulf dust such as pollen and dust. However, the airflow 20 reaches the lower part of the front surface of the main body 1, and the circulating airflow 20 thus formed is sucked into the first suction port 2 a of the main body 1, and the contaminated air having a large particle size is cleaned by the filter 3. be able to.

  When the control unit 8 determines that the dust sensor 7 has detected a small particle size dust, when the dust sensor 7 determines that the concentration of the dust is high or low, the suction air direction plate drive unit 16 is driven. Then, the suction air direction plate 17 adjusts the angle of the suction air direction from above to below. As a result, an air flow 19 having a high intake ratio of the high-frequency space air is formed. 1, the circulating airflow 19 formed in this way is sucked into the second suction port 2 b of the main body 1, and the contaminated air having a small particle diameter can be cleaned by the filter 3.

(Reference Example 1)
As shown in FIGS. 1, 3, 4, 7, and 9, the main body 1 is provided with a human sensor 15 that detects the presence or absence of a person in the living room. When the human sensor 15 detects a person in the room, the suction lid drive unit 12 is driven to fully open the suction lid 9. As a result, the air flow 20 with a high intake ratio of the low-frequency space air is formed, so that mite feces and deaths with large particle diameters distributed and floating in the indoor low-frequency space are entrained, and dust such as pollen and dust is involved. The airflow 20 reaches the lower front portion of the main body 1, and the circulating airflow 20 formed in this way is sucked into the first suction port 2 a of the main body 1, and the filter 3 cleans contaminated air having a large particle size. it can.

(Embodiment 2)
As shown in FIGS. 2, 5, 6, 8, and 9, the main body 1 is provided with a human sensor 15 that detects the presence or absence of a person in the room. When the human sensor 15 detects a person in the room, the suction air direction plate drive unit 16 is driven and the suction air direction plate 17 adjusts the angle of the suction air direction from below to above. As a result, the air flow 20 with a high intake ratio of the low-frequency space air is formed, so that mite feces and deaths with large particle diameters distributed and floating in the indoor low-frequency space are entrained, and dust such as pollen and dust is involved. The airflow 20 reaches the lower front portion of the main body 1, and the circulating airflow 20 formed in this way is sucked into the first suction port 2 a of the main body 1, and the filter 3 cleans contaminated air having a large particle size. it can.

(Reference Example 2)
As shown in FIGS. 1, 3, 4, 7, and 9, the operation switch 21 of the main body 1 is provided with a manual switch 18, and the user presses the manual switch 18 while the main body 1 is in operation. In some cases, when the suction lid 9 is half open or closed, the control unit 8 drives the suction lid drive unit 12 to fully open the suction lid 9. At this time, the control unit 8 switches to an operation that maximizes the air flow rate of the fan motor 4.

  Thus, when the user feels necessary, for example, when raising and lowering the futon is started, by pressing the manual switch 18, the suction lid portion 9 is fully opened in a timely manner, and the particles float in the low-frequency space. Dust having a large diameter can be sucked into the main body 1 from the suction lid portion 9 with the maximum air volume, and can be efficiently cleaned before the air containing the large dust is diffused.

(Embodiment 3)
As shown in FIGS. 2, 5, 6, 8, and 9, the operation switch 21 of the main body 1 is provided with a manual switch 18, and the user presses the manual switch 18 while the main body 1 is in operation. When the suction air direction plate 17 adjusts the angle of the suction air direction from above to below, the control unit 8 drives the suction air direction plate driving unit 16 regardless of the determination of the dust sensor 7 to suck the air direction. The suction air direction is set upward from below by adjusting the angle of the plate 17. At this time, the control unit 8 switches to an operation that maximizes the air flow rate of the fan motor 4.

  As a result, when the user feels necessary, for example, when starting up and down of the futon, pressing the manual switch 18 adjusts the angle of the suction wind direction plate 17 in a timely manner and floats in the low-frequency space. Dust having a large particle diameter can be sucked into the main body 1 with the maximum air volume from the suction lid portion 9 whose suction direction is set from the bottom to the top, and can be efficiently cleaned before the air containing the large dust is diffused.

  The present invention relates to an air cleaner capable of controlling a suction airflow. By changing the size and direction of the air intake corresponding to the particle size and concentration of the dust, a suction airflow corresponding to the particle size of the dust is formed, and the dust is efficiently sucked from the air intake. It aims at providing the air cleaner which can be removed reliably.

1 Main Body 2 Suction Port 2a First Suction Port 2b Second Suction Port 3 Filter (cleaning means)
4 Fan motor (air blowing means)
DESCRIPTION OF SYMBOLS 5 Air outlet 7 Dust sensor 8 Control part 9 Suction cover part 15 Human sensor 17 Suction | winding direction plate 18 Manual switch 21 Operation part

Claims (6)

The main body has a cleaning means for cleaning the air sucked from the suction port, a blowing means for ventilating the cleaning means, an air outlet for blowing out the clean air provided in the main body into the room, A dust sensor that detects the particle size and concentration of the dust and a control unit that controls the angle of the suction wind direction plate according to the size and concentration of the particle size of the dust output from the dust sensor, and sucks indoor air The suction port consists of a first suction port provided at the lower front of the main body and a second suction port provided above the first suction port, and the angle of the suction air direction is adjusted from above to below and from below to above An air cleaner in which a possible suction wind direction plate is provided in the first suction port, and the control unit adjusts the angle of the suction wind direction plate to set the suction wind direction from above or from below. When the control unit determines that the dust sensor detects a dust with a large particle size, and determines that the dust concentration detected by the dust sensor is high, the control unit raises the suction air direction from below by adjusting the angle of the suction air direction plate. The air cleaner according to claim 1, wherein the air cleaner is set as follows. The control unit, when determining that the dust sensor has detected dust of a small particle size, adjusts the angle of the suction air direction from above to below by the suction air direction plate regardless of the concentration of dust detected by the dust sensor. The air cleaner described. The main body has a human sensor that detects a person, and when the human sensor detects the person in the room, the control unit controls the angle of the suction air direction plate to adjust the suction air direction of the first inlet. The air cleaner according to any one of claims 1 to 3, wherein the air cleaner is set from the lower side to the upper side. When the manual switch is provided in the operation unit of the main body, and the control unit adjusts the angle of the suction air direction from the upper side to the lower side by the suction air direction plate when the manual switch is pushed by the user during operation. The air cleaner according to claim 1, wherein the suction air direction of the first suction port is set from below to above by adjusting the angle of the suction air direction plate. The operation unit of the main body has a manual switch, and the control unit maximizes the amount of air blown by the air blowing means when the user presses the manual switch during operation regardless of the determination of the dust sensor. 5. The air purifier according to 5.

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