JP4201956B2 - Air cleaner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air purifier that purifies ambient air.
[0002]
[Prior art]
  In general, an air purifier includes a rectangular parallelepiped purifier main body, and an air flow path that guides air to the purifier main body is provided. For example, a suction port is provided on the front surface of the main body of the cleaner, and a blower port is provided on the upper surface thereof. The air flow path guides air sucked from the suction port to the blower port. Filter means is detachably attached to the suction port of the cleaner body. The cleaner body is provided with convection fan means, and the fan of the convection fan means is disposed in the air flow path. like thisNaIn the air cleaner, when the convection fan means is energized and the fan rotates in a predetermined direction, for example, air in the living room space is sucked through the suction port, and the air is cleaned while the sucked air flows through the filter means. Is done. Then, the purified air flows through the air flow path, and is blown out from the outlet to the living room space. By such convection, the air in the living room space is cleaned as required.
[0003]
There are various types of filter means used in an air purifier. For example, a dust / odor removal filter that combines a dust removal filter means for removing dust and an odor removal filter means for removing odors in an integrated form. Body-type filter means, separate filter means for dust / odor removal in which these dust / odor removal filter means are combined in an independent form, for example, high-performance dust removal filter means used for alleviating hay fever, housing building materials, etc. There are high-performance odor removal filter means that are used to remove volatile organic solvents generated from pets and pet odors generated from pets, and these various filter means are installed in the inlet of the air purifier according to the purpose of use. It is selectively detachably attached.
[0004]
[Problems to be solved by the invention]
Thus, in the air cleaner which selectively mounts various filter means, there are the following problems to be solved.
First, the high-performance dust removal filter means has a high air passage resistance and tends to reduce the amount of air sucked through the inlet, whereas the high-performance odor removal filter means has a low air intake amount. The inflow resistance of the air is small and the amount of air sucked through the suction port tends to increase, and the amount of air sucked through the suction port varies depending on the type of filter means attached, in other words, cleans the air There is a problem that the cleaning ability changes.
[0005]
Secondly, in an air cleaner, an automatic operation mode for controlling the rotational speed of the convection fan means based on a detection signal from a dirt detection means generally provided in the main body of the cleaner can be set. The mode is configured such that the greater the degree of air contamination, the greater the rotational speed of the convection fan means and the higher the purification capacity for purifying the air. In such an air purifier, normally, filter means for dust / odor removal is used as the filter means, and the dirt detection means comprises a dust detection sensor for detecting dust and an odor detection sensor for detecting odor. The rotational speed of the convection fan means is controlled based on detection signals from the dust detection sensor and the odor detection sensor. However, instead of the filter means for removing dust / odor, for example, when a high-performance dust removal filter means (or odor removal filter means) is used instead of the dust / odor removal filter means, dust (or odor) in the air has a high performance. However, the odor (or dust) in the air cannot be removed. For example, when this dust removal filter means (or odor removal filter means) is used, if the rotational speed of the convection fan means is controlled based on the detection signal of the smell detection sensor and the dust detection sensor, the smell in the air (or The rotational speed of the convection fan means increases even when the dust is large and the dust (or odor) is small, but the attached odor removal filter means (or odor removal filter means) has an odor (or dust) in the air. Cannot be removed, and the convection fan means rotates unnecessarily at a high speed, resulting in a problem that the operation noise becomes larger than the purification performance.
[0006]
  Thirdly, in the above-described air purifier, high-performance dust removal is achieved even when ordinary dust removal filter means (or odor removal filter means) used in combination with odor removal filter means (or dust removal filter means) is used. When the dedicated filter means (or odor removal only) is used, the rotation of the convection fan means is controlled in the same way in the automatic operation mode, and it is cleaned by the air cleaner regardless of whether the filter means is high performance or not. The same degreesoThere is a problem that when the high-performance dust removing filter means is used, the performance is not sufficiently exhibited.
[0007]
  The first object of the present invention is toAn object of the present invention is to provide an air cleaner that can prevent useless high rotation of the convection fan means due to a mismatch between the type of the filter means installed and the detection state of the dirt detection means.
  The second object of the present invention is toAn object of the present invention is to provide an air purifier capable of sufficiently exerting the performance of the attached filter means.
[0010]
[Means for Solving the Problems]
  BookThe invention includes a purifier body having an air flow path that guides air sucked from the suction port to the blowout port, convection fan means for convection of air through the air flow path of the cleaner body, and attached to the suction port. The filter means for purifying the air sucked through the inlet, the dirt detecting means for detecting the dirt state of the air, and the convection fan means based on the dirt detection signal from the dirt detecting means. An air cleaner comprising a control means for controlling the rotational speed,
  In relation to the suction port, filter detection means for detecting the type of filter means attached to the suction port is provided, and the control means includes sensitivity setting means for setting the sensitivity of the dirt detection means, The sensitivity setting means sets the sensitivity of the dirt detection means corresponding to the filter detection signal from the filter detection means, and the control meansImpressionThe rotation of the convection fan means is controlled based on a dirt detection signal of the dirt detection means based on the sensitivity set by the degree setting means.
[0011]
  According to the present invention, in relation to the suction port of the purifier main body, filter detection means is provided at the suction port, and the filter detection means detects the type of the filter means attached to the suction port. In addition, the control means sets the sensitivity of the dirt detecting means for detecting air dirt.FeelingIncludes degree setting means. FeelingThe degree setting means sets the sensitivity of the dirt detection means corresponding to the filter detection signal from the filter detection means, and the control means controls the rotation of the convection fan means based on the detection signal based on the set sensitivity. For example, when high-performance dust removal filter means (or odor removal filter means) is used, dust (smell is less odorous) than when filter means combining dust removal filter means and odor removal filter means is used. In relation to this is high performance in terms of removal), FeelingThe degree setting means sets the dirt detection means, for example, a dust detection sensor (or odor detection sensor) with high sensitivity. Therefore, when the high-performance dust removal filter means (odor removal filter means) is used, the detection level of dust (or odor) is lower than when the dual filter means for removing dust and odors is used. However, the rotational speed of the convection fan means is increased, whereby the dust removing ability (odor removing ability) of the air cleaner is increased, and the dust (or smell) in the air can be effectively removed with high performance.
[0012]
The present invention also provides a purifier body having an air flow path for guiding air sucked from the suction port to the outlet, convection fan means for convection of air through the air flow path of the purifier body, and the suction port. A filter means for purifying air sucked through the inlet, a dirt detecting means for detecting a dirt state of the air, and the convection based on a dirt detection signal from the dirt detecting means. An air cleaner comprising control means for controlling the rotational speed of the fan means,
In relation to the suction port, there is provided a filter detection means for detecting the type of filter means attached to the suction port, and the control means is a detection selection means for selecting a detection state of the dirt detection means. The detection selection means selects a detection state of the dirt detection means corresponding to a filter detection signal from the filter detection means, and the control means selects the convection fan with the detection state selected by the detection selection means. The means is rotationally controlled.
[0013]
According to the present invention, in relation to the suction port of the purifier main body, filter detection means is provided at the suction port, and the filter detection means detects the type of the filter means attached to the suction port. Further, the control means includes detection selection means for selecting the detection state of the dirt detection means. The detection selection means selects the detection state of the dirt detection means corresponding to the filter detection signal from the filter detection means, and the control means controls the rotation of the convection fan means according to the detection state selected by the dirt detection means. For example, when a dust removing filter means (or odor removing filter means, dust / odor removing filter means) is used, the detection selecting means sets the detection state of the dirt detecting means to the dust detection state (or smell detection state, dust / odor). Detection state), and more specifically, a state using a dust detection sensor (or odor detection sensor, dust detection sensor and odor detection sensor), and the control means selects such a dust detection state (or odor detection state, The rotation of the convection fan means is controlled based on the detection signal from the dirt detection means in the dust / odor detection state). As described above, the dirt detection means is in a detection state corresponding to the type of the filter means attached to the main body of the cleaner, and the dirt in the air can be removed as required based on the detection signal of the dirt detection means. .
[0014]
  In the present invention, the dirt detection means includes a dust detection sensor for detecting dust in the air and an odor detection sensor for detecting odor in the air, and the filter means is a dust removal filter for removing dust. Means and odor removal filter means for removing odor,
  When the filter detection means detects the dust removal filter means, the detection selection means selects a detection state of the dust detection sensor, and the control means is based on a detection signal from the dust detection sensor. The filter detection meansAboveWhen detecting the odor removal filter means, the detection selection means selects a detection state of the odor detection sensor, the control means controls the rotation of the convection fan based on a detection signal from the odor detection sensor, and When the filter detection means detects the dust removal filter means and the odor removal filter means, the detection selection means selects the detection state of the dust detection sensor and the odor detection sensor, and the control means includes the dust detection sensor and The rotation of the convection fan means is controlled based on a detection signal from the odor detection sensor.
[0015]
According to the present invention, the dirt detection means includes a dust detection sensor and an odor detection sensor, and in this connection, the filter means includes a dust removal filter means and an odor removal filter means. For example, when a filter unit for dust removal (or filter unit for odor removal, filter unit for dust / odor removal) is attached to the main body of the cleaner, the detection selection unit is a dust detection sensor (or odor detection sensor, dust detection sensor and odor detection). Select the detection state by the sensor. Therefore, the control means controls the rotation of the convection fan means based on the detection signal from the dust detection sensor (or the odor detection sensor, the dust detection sensor and the odor detection sensor), and the filter means detects the dirt detected by the dirt detection means. Can be removed on the street.
[0016]
Further, the present invention provides a cleaner body having an air flow path for guiding air sucked from the suction port to the blowout port, convection fan means for convection of air through the air flow path of the cleaner body, and the suction port. And an air cleaner comprising: filter means for purifying air sucked through the suction port,
In relation to the suction port, filter detection means for detecting the type of filter means attached to the suction port is provided, and filter type display means for displaying the type of filter means is provided, The filter type display means displays the type of the filter means attached to the suction port based on a detection signal from the filter detection means.
[0017]
According to the present invention, in relation to the suction port of the purifier main body, filter detection means is provided at the suction port, and the filter detection means detects the type of the filter means attached to the suction port. Further, filter type display means for displaying the type of filter is provided, and the filter type display means displays the type of filter attached to the purifier body based on the detection signal from the filter detection means. Thus, since the filter type display means displays the type of the attached filter means, the type of the attached filter means can be easily recognized by looking at the display content.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of an air cleaner according to the present invention will be described with reference to the accompanying drawings. FIG. 1 is a cross-sectional view showing an embodiment of an air cleaner according to the present invention, FIG. 2 is a partially exploded cross-sectional view showing the air cleaner of FIG. 1, and FIG. FIG. 4 is a perspective view showing a part of a purifier body of an air purifier and various filter means attached to the main body, and FIG. 4 is a partial cross-sectional view showing a relationship between a specific filter means and a detection switch of the filter detection means. FIG. 5 is a view showing the relationship between the three detection switches of the filter detection means and various filter means, and FIG. 6 is a front view showing the operation panel of the air cleaner of FIG. 7 is a block diagram schematically showing a control system of the air cleaner of FIG. 1, and FIG. 8 is a flowchart showing control by the control system of FIG.
[0019]
1 and 2, the illustrated air cleaner includes a rectangular parallelepiped cleaner body 2, a suction port 4 is provided on the front surface of the cleaner body 2, and an outlet port 6 is provided on the upper surface thereof. The suction port 4 is provided with a substantially rectangular filter mounting portion 8, and various filter means 10 for removing dirt in the air are detachably attached to the filter mounting portion 8 as will be described later. A plurality of protrusions 12 are provided at the bottom of the filter mounting portion 8, and the filter means 10 is attached so as to contact the protrusions 12, and the intake gallery 14 is attached to the filter so as to cover the filter means 10 thus attached. The unit 8 is detachably attached. The intake gallery 14 is for protecting the filter means 10 and is provided with a plurality of slit openings 16 spaced in the vertical direction.
[0020]
Partition plates 18, 20, 22 are attached in the purifier main body 2, and an air flow path 24 is defined by these partition plates 18, 20, 22, and the air flow path 24 communicates the suction port 4 and the blowout port 6. To do. In this embodiment, a plurality of openings 26 are provided in part of the partition plate 18 that defines the bottom of the filter mounting portion 8, and a plurality of safety guards 28 are provided at intervals in the outlet 6. . In the cleaner main body 2, convection fan means 30 for sucking and blowing out air is further provided. The convection fan means 30 includes a convection fan 32 disposed in the air flow path 24 and an electric motor 34 for rotationally driving the convection fan 32.
[0021]
With this configuration, when the convection fan means 30 is energized, the convection fan 32 is rotationally driven in a predetermined direction, and ambient air, such as a living room space, passes through the inlet 4 (the intake air attached to it). While being inhaled (through the slit opening 16 of the gallery 14) and flowing through the filter means 10, dirt, for example dust, odors, etc. contained therein are removed. The air purified by the filter means 10 flows into the air flow path 24 through the plurality of openings 26, flows through the air flow path 24, and then blows upward from the blowout port 6. The ambient air such as the living room space is thus convectively circulated through the air cleaner and purified while being circulated.
[0022]
Next, with reference to FIG. 3 together with FIG. 2, the various filter means 10 selectively attached to the cleaner body 2 and the configuration related thereto will be described. In this embodiment, for example, four types of filter means 10A, 10B, 10C, and 10D can be selectively attached to the filter mounting portion 8 of the cleaner body 2. The leftmost filter means 10A in FIG. 3 is a high-performance dust removal dedicated filter means used to relieve hay fever, for example, and includes a rectangular frame 42A attached to the filter mounting portion 8. A filter member 44A dedicated to dust collection is attached to the frame body 42A. The second filter means 10B from the left in FIG. 3 is a high-performance odor removal dedicated filter means used for removing, for example, volatile organic solvents generated from residential building materials and pet odors generated from pets. Frame body 42B, and a filter member 44B dedicated to deodorization is attached to the frame body 42B. Further, the third filter means 10C from the left in FIG. 3 is a dust / odor removal filter means in which the dust removal filter means 52 and the odor removal filter means 54 are integrally combined, and has an integral rectangular shape. A frame 42C is provided, a dust collecting filter member (not shown) of the dust removing filter means 52 is mounted on the inflow side of the frame 42C, and a deodorizing filter member 44C of the odor removing filter means 54 is mounted on the outflow side thereof. It is installed. Further, the rightmost filter means 10D in FIG. 3 is a dust / odor removal filter means in which the dust removal filter means 56 and the odor removal filter means 58 are combined separately, and a rectangular frame combined with each other. The body 42D1, 42D2 is provided, the dust collecting filter member 44D1 of the dust removing filter means 56 is mounted on the frame 42D1 arranged on the inflow side, and the odor removing filter means 58 is deodorized on the frame 42D2 arranged on the outflow side. Filter member 44D2 is mounted. Therefore, as can be easily understood, when the filter unit 10A is used, dust in the air can be removed with high performance, and when the filter unit 10B is used, odors in the air can be removed with high performance. In addition, when the filter means 10C and 10D are used, dust and odor in the air can be removed, and the filter means 10 to be used is selected according to the purpose of use.
[0023]
A plurality of types (four types in this embodiment) of filter means 10 can be mounted on the filter mounting portion 8 of the purifier main body 2, and the following configuration is made in this regard. In relation to the suction port 4 of the cleaner body 2, in this embodiment, a filter detection means 60 for detecting the type of the attached filter means 10 is provided at the upper end portion of the filter mounting portion 8. The illustrated filter detection means 60 includes three detection switches, that is, a first detection switch 62, a second detection switch 64, and a third detection switch 66, and these detection switches 62 to 66 have detection pieces 68. It consists of mechanical switches (see also FIG. 4). The first to third detection switches 62 to 66 are arranged in the lateral direction (the direction perpendicular to the paper surface in FIGS. 1, 2 and 4, from the lower left to the upper right in FIG. 3). In the direction).
[0024]
  On the other hand, in the filter means 10A, a concave portion 74 is provided corresponding to the third detection switch 66 at a predetermined portion of the upper frame member 72 of the frame body 42A (the rear portion in the depth direction of the frame body 42A). . Further, in the filter means 10B, a predetermined portion of the upper frame member 76 of the frame body 42B (the depth direction depth of the frame body 42B)1A recess 78 is provided corresponding to the detection switch 62. Further, in the filter means 10C, a concave portion 82 is provided corresponding to the second detection switch 64 at a predetermined portion of the upper frame member 80 of the frame body 42C (the depth direction depth of the frame body 42C). Further, in the filter means 10D, a predetermined portion of the upper frame member 84 of the frame body 42D2 (the depth of the frame body 42D2 is formed to be about half of the depth of the frame body 42D1 combined therewith). A recess 86 is provided corresponding to the second detection switch 64.
[0025]
Since it is configured in this way, when, for example, the filter means 10A is attached to the filter attachment portion 8 of the cleaner body 2, the arrangement of the third detection switch 66 of the filter detection means 60 is as shown in FIG. As shown, the recess 74 of the frame 42A is positioned below the third detection switch 66, and the upper frame member 72 of the frame 42A does not press the detection piece 68 of the third detection switch 66. The third detection switch 66 is held in the OFF (open) state. On the other hand, as shown in FIG. 4 (b), the upper frame member 72 of the frame body 42A has a first position at the position where the first (second) detection switch 62 (64) of the filter detection means 60 is disposed. The first (second) detection switch 62 (64) acts on the detection piece 68 to press it, and the first (second) detection switch 62 (64) is held in the ON (closed) state. Further, when the filter means 10B (or 10, 10D) is mounted, the first (or second) detection switch 62 (or 64) corresponding to the recess 78 (or 82, 86) is turned OFF (open). The remaining detection switches 64 and 66 (or 62 and 66) are held ON (closed). The state of the first to third detection switches 62 to 66 when the various filter means 10A to 10D are mounted in this manner is as shown in FIG. 5, and the filter including such three detection switches 62 to 66 is used. The type of the filter means 10 attached to the filter attachment portion 8 can be detected and identified by the detection means 60.
[0026]
The following can also be detected by the filter detection means 60 described above. As shown in FIG. 5, the filter means 10 (any one of the filter means 10A to 10D) is not attached to the filter attachment portion 8 of the cleaner body 2, or the filter means 10 is detached without being attached as required. The frame 42 (any one of 42A to 42D) of the filter means 10 does not press the detection pieces 68 of the first to third detection switches 62 to 66 of the filter detection means 60. All of 62 to 66 are held in the OFF (open) state, and when these three detection switches 62 to 66 are OFF, it is possible to detect whether the filter means 10 is not attached or detached.
[0027]
  Further, when the filter means 10 is mounted on the filter mounting portion 8 in the reverse mounting direction (the suction side and the outflow side are mounted reversely), as easily understood from FIG. 3, the filter means 10 Exists on the suction side of the frame body 42 (any of 42A to 42D)SetFirst, the frame 42 presses the detection pieces 68 of the first to third detection switches 62 to 66 of the filter detection means 60, and all of the detection switches 62 to 66 are held in the ON (closed) state. When the three detection switches 62 to 66 are ON, reverse mounting of the filter means 10 can be detected.
[0028]
In the above-described embodiment, the filter detection means 60 is provided on the upper portion of the filter mounting portion 8, but can be provided on an appropriate portion of the filter mounting portion 8 such as a side portion or a bottom portion thereof. Further, although the filter detection means 60 is composed of three detection switches 62, 64, 66, when there are more types of filter means 10 to be mounted, a large number of detection switches can be provided to provide a large number of detection switches. The type of filter means can be detected as required. In the illustrated embodiment, the filter detection means 60 is constituted by a mechanical switch. Instead, the filter detection means 60 is constituted by a required number of optical switches, a sensor comprising a combination of a light emitting element and a light receiving element, or the like. In such a case, a recessed portion or a protruding portion, a barcode, or the like is provided at a predetermined portion of the frame body 42 of the filter means 10.
[0029]
With reference to FIG. 6 together with FIG. 1 and FIG. 2, the operation panel 92 provided on the upper front portion of the cleaner body 2 will be described. In this embodiment, a power switch 94 is provided at the right end of the operation panel 92, A timer switch 96 and an air volume changeover switch 98 are provided at a substantially central portion in the horizontal direction. The power switch 94 is a switch for turning on (closed) and turning off (opening) the power, and is turned on when pressed and turned off when pressed again. The turn-off timer switch 96 is a switch for setting the operation stop time of the air cleaner. Each time the turn-off timer switch 96 is pressed, the turn-off timer time is “1 hour”, “2 hours”, “4 hours”. "," Release timer "is set repeatedly. The air volume changeover switch 98 is a switch for setting the operation mode and operation state of the air purifier. Each time the air volume changeover switch 98 is pressed, the operation mode is “automatic operation mode”, “manual operation”. The mode is repeatedly set to “mode weak operation”, “medium operation in manual operation mode”, “strong operation in manual operation mode”, and “rapid operation in manual operation mode”. In the automatic operation mode, the air cleaner is automatically operated as will be described later. In the weak operation (or medium operation, strong operation, and rapid operation) in the manual operation mode, the air cleaner is operated in a set state. As will be described later, the rotation speed of the electric motor 34 of the convection fan means 30 is automatically changed according to the type of the filter means 10 to be mounted, and is rotated at the changed rotation speed.
[0030]
The operation panel 92 is further provided with a display means 105 including a filter type display means 100, an air volume display means 102 and a cut timer time display means 104. In this embodiment, the filter type display means 100 includes three display lamps 106, 108, and 110. For example, the filter mounting portion 8 has a dust removal dedicated filter means 10A (or a odor removal dedicated filter means 10B, and a dust / odor removal combined use). When the filter means 10C, 10D) is mounted, the display lamp 106 (or 108, 110) is turned on based on the detection signal from the filter detection means 60, and thus the operator turns on the display lamp 106 (or 108, 110). ) Can be easily recognized. The air volume display means 102 is composed of five display lamps 112, 114, 116, 118, and 120. For example, an "automatic operation mode" (or "weak operation in manual operation mode", "manual operation mode" is displayed by an air volume changeover switch 98. When “medium operation”, “strong operation in manual operation mode”, and “rapid operation in manual operation mode”) are set, display lamps 112 (or 114, 116, 118, 120 corresponding to the set operation mode and operation state) are set. ) Lights up. The off timer time display means 104 includes three display lamps 122, 124, 126. When the off timer time is set to 1 hour (or 2 hours, 4 hours) by the off timer switch 96, for example, the set time is displayed. The corresponding display lamp 122 (or 124, 126) is lit. These display lamps 106 and the like are constituted by LEDs, for example. The operation panel 92 is further provided with a filter replacement display unit 128. When the filter unit 10 mounted on the filter mounting unit 8 reaches the end of its life, the display lamp of the filter replacement display unit 128 is turned on.
[0031]
As shown in FIG. 1, the cleaner body 2 is provided with a dirt detection means 130 for detecting dirt in the surrounding air such as a living room space. In this embodiment, the dirt detection means 130 detects dust to detect dust. It comprises a sensor 132 and an odor detection sensor 134 that detects the odor.
The cleaner body 2 is further provided with a control means 136 for controlling the operation of the convection fan means 30 and an alarm means 138 (FIG. 7) for issuing an alarm when the filter means 10 is erroneously mounted. Yes. The control means 136 is composed of, for example, a microprocessor, and operation signals from various switches of the operation panel 92, detection signals from the filter detection means 60, and detection signals from the dirt detection means 130 are sent to the control means 136, and the control means 136 136 controls the rotation of the convection fan means 30 based on these operation signals and detection signals. The control unit 136 includes a detection selection unit 138, a rotation speed correction unit 140, a first memory 142, a second memory 144, and a timer unit 146.
[0032]
  The detection selection means 138 selects the detection state of the dirt detection means 130 based on the detection signal from the filter detection means 60. In this embodiment, the filter detection means 60 detects the filter means 10A (dust removal dedicated filter means). When the detection selection unit 138 selects the dust detection sensor 132 and sets the automatic operation mode, the control unit 136 sets the convection fan unit 30 based on the detection signal from the dust detection sensor 132 as described later. Control rotation. Further, when the filter detection means 60 detects the filter means 10B (deodorant filter means) {or the filter means 10C, 10D (dust / odor removal filter means), the detection selection means 138 detects the odor detection sensor 134 (or dust). When the detection sensor 132 and the odor detection sensor 134) are selected and the automatic operation mode is set, the control means 136 is convection fan means based on the detection signal of the odor detection sensor 134 (or the dust detection sensor 132 and the odor detection sensor 134). 30 is rotationally controlled. Since the detection state of the dirt detecting means 130 corresponding to the filter means 10 used in this way is set by the detection selecting means 138, the dirt detected by the dirt detecting means 130 can be removed by the filter means 10 as required.
[0033]
Further, the rotational speed correction means 140 corrects the rotational speed of the convection fan means 130 corresponding to the type of the filter means 10 mounted on the filter mounting portion 8, and the control means 136 uses the corrected rotational speed to control the convection fan means. 30 is rotationally controlled. In this embodiment, when the filter detection means 60 detects the filter means 10C and 10D (dust / odor removal filter means), the control means 136 is at a standard rotational speed, that is, for example, at 540 rpm in weak operation, and in medium operation. For example, the rotation of the convection fan means 30 is controlled at 750 rpm, for example, at 900 rpm for strong operation, and at 1190 rpm for rapid operation, for example. When the filter detection means 60 detects the filter means 10A (dust removal dedicated filter means), the rotation speed correction means 140 corrects the standard rotation speed to the high speed side because the filter means 10A has a large ventilation resistance. For example, the rotation speed The control means 136 is rotated at a speed corrected to the high speed side, that is, for example, 648 rpm for the weak operation, 900 rpm for the medium operation, 1080 rpm for the strong operation, and the rapid operation. Then, for example, the rotation of the convection fan means 30 is controlled at 1428 rpm. Further, when the filter detection means 60 detects the filter means 10B (odor removal dedicated filter means), since the filter means 10B has a small ventilation resistance, the rotation speed correction means 140 corrects the standard rotation speed to the low speed side. The control means 136 is corrected so that the rotational speed is reduced by about 20%, and the control means 136 is the rotational speed corrected to the low speed side, that is, for example, 432 rpm for the weak operation, for example 600 rpm for the medium operation, for example 720 rpm for the strong operation, and In the rapid operation, the rotation of the convection fan unit 30 is controlled at 952 rpm, for example. By correcting the rotational speed of the convection fan means 30 by the filter means 10 used in this way, the purification action can be kept substantially constant regardless of the type of the filter means 10.
[0034]
Further, the first memory 142 stores the standard rotational speed of the convection fan means 30, a high-speed correction value, for example, about 20%, and a low-speed correction value, for example, about 20%. The second memory 144 also stores a high-speed corrected rotational speed corrected to the high speed side, a low-speed corrected rotational speed corrected to the low speed side, a cutoff timer setting time set by the cutoff timer switch 96, and the like. . The timer means 146 measures the cutoff timer setting time set by the cutoff timer switch 96.
[0035]
Next, the operation of the above-described air cleaner will be described mainly with reference to FIG. 1, FIG. 7, and FIG. When the automatic operation mode is set by the air volume switch 98, the operation of the air cleaner is controlled according to the flowchart shown in FIG. That is, in step S-1, it is determined whether or not the filter means 10 mounted on the filter mounting portion 8 of the cleaner body 2 is a dust / odor removing filter means, and the dust / odor removal / filter means 10C, 10D If there is, the process proceeds to step S-2. In step S-2, the detection selection means 138 of the control means 136 selects the detection state of the dirt detection means 130 corresponding to the detection signal from the filter detection means 60, that is, the detection by the dust detection sensor 132 and the odor detection sensor 134. . Next, in step S-3, since the attached filter means 10 is a dust / odor removing filter means, the standard rotation value, that is, the weak operation is obtained from the first memory 142 based on the detection signal from the filter detection means 60. 540 rpm, medium operation 750 rpm, strong operation 900 rpm, and rapid operation 1190 rpm are read, and the read standard rotation value is stored in the second memory 144.
[0036]
Thereafter, in step S-4, automatic operation by the control means 136 is performed, and the convection fan means 30 is controlled to rotate at the standard rotational speed stored in the second memory 144, and the dust / odor removing combined filter means 10C, 10D. To remove dust and odor in the air. In this automatic operation, the control unit 136 controls the rotation of the electric motor 34 of the convection fan unit 30 based on detection signals from the dust detection sensor 132 and the odor detection sensor 134. In this embodiment, the dust detection sensor 132 detects at a level of “zero dust”, “small dust”, “in dust”, “large dust” depending on the degree of dust contained in the air, and also an odor detection sensor. 134 detects at a level of “zero odor”, “small odor”, “mid odor”, and “high odor” depending on the degree of odor contained in the air. Then, the control unit 136 gives priority to the higher detection level of the detection levels of the dust detection sensor 132 and the odor detection sensor 134, and rotates the convection fan unit 30 at the rotation speed corresponding to this detection level. If the detected level is “high” (ie, “large dust” or “high odor”), the convection fan means 30 is operated strongly. For example, the priority detection level is “medium” (or “small”, “zero”). ), The convection fan means 30 is rotated in the middle operation (or weak operation) (in this embodiment, the convection fan means 30 is weak so that dirt in the air can be detected quickly even if the detection level is “zero”). Configured to drive).
[0037]
During such automatic operation, when the power switch 94 is pressed and turned off (opened), the operation moves from step S-5 to step S-7, the rotation of the convection fan means 30 stops, and the operation of the air cleaner is performed. finish. Further, when the timer means 146 is turned off during the automatic operation and the timer set time is counted, the process proceeds from step S-6 to step S-7, and the operation of the air purifier is completed as described above.
If the attached filter means 10 is not the dust / odor removing filter means 10C, 10D, the process proceeds from step S-1 to step S-8, and it is determined whether the filter means 10 is the dust removal dedicated filter means 10A. In the case of the dust removal dedicated filter means 10A, the process proceeds to step S-9, where the detection selection means 138 of the control means 136 detects the detection state of the dirt detection means 130 corresponding to the detection signal from the filter detection means 60, that is, dust detection. Detection by the sensor 132 is selected. Next, in step S-10, since the attached filter means 10 is a dust removal dedicated filter means, based on the detection signal from the filter detection means 60, the standard rotation value and the high-speed side correction are obtained from the first memory 142. The value is read, and the rotation speed correction means 140 calculates the rotation speed of each operation state from these read values, and calculates the high speed side rotation speed, that is, the high speed side weak operation 648 rpm, the high speed side medium operation 900 rpm, and the high speed The strong side operation 1080 rpm and the high speed side rapid operation 1428 rpm are stored in the second memory 144.
[0038]
Thereafter, in step S-11, automatic operation by the control means 136 is performed, and the convection fan means 30 is controlled to rotate at the high speed side rotational speed stored in the second memory 144, and is in the air by the dust removal dedicated filter means 10A. The dust is removed. In this automatic operation, the control unit 136 controls the rotation of the electric motor 34 of the convection fan unit 30 based on the detection signal from the dust detection sensor 132. In other words, the control unit 136 rotates the convection fan unit 30 at a rotation speed corresponding to the detection level of the dust detection sensor 132, and rotates the convection fan unit 30 with high speed side strong operation when the detection level is “large dust”. For example, when the detection level is “in dust” (or “small dust”, “no dust”), the convection fan means 30 is rotated in the high speed side middle operation (or the high speed side weak operation).
[0039]
During such automatic operation, when the power switch 94 is pressed to turn off (open), or when the timer means 146 is turned off during automatic operation and the timer set time is counted, the process proceeds to step S-7 as described above. The operation of the air cleaner ends.
If the attached filter means 10 is not the dust removing filter means 10A, the process proceeds from step S-1 to step S-12 through step S-12 to determine whether the filter means 10B is a dedicated odor removal filter means 10B. The In the case of the odor removal dedicated filter means 10B, the process proceeds to step S-13, where the detection selection means 138 of the control means 136 detects the detection state of the dirt detection means 130 corresponding to the detection signal from the filter detection means 60, that is, odor detection. Detection by the sensor 134 is selected. Next, in step S-14, since the attached filter means 10 is a filter means dedicated to odor removal, based on the detection signal from the filter detection means 60, the standard rotation value and the low speed side correction are obtained from the first memory 142. The value is read, and the rotation speed correction means 140 calculates the rotation speed of each operation from these read values, and the calculated low speed rotation speed, that is, low speed side weak operation 432 rpm, low speed side medium operation 600 rpm, low speed side The strong operation 720 rpm and the low speed side rapid operation 952 rpm are stored in the second memory 144.
[0040]
Thereafter, in step S-15, automatic operation by the control means 136 is performed, and the convection fan means 30 is controlled to rotate at the low speed side rotational speed stored in the second memory 144, and is in the air by the odor removal dedicated filter means 10B. The odor is removed. In this automatic operation, the control unit 136 controls the rotation of the electric motor 34 of the convection fan unit 30 based on the detection signal from the odor detection sensor 134. In other words, the control means 136 rotates the convection fan means 30 at a rotational speed corresponding to the detection level of the odor detection sensor 134, and rotates the convection fan means 30 in the low speed side strong operation when the detection level is “large odor”. For example, if the detection level is “Smell” (or “Small odor”, “Zero odor”), the convection fan means 30 is rotated in the low speed side medium operation (or the low speed side weak operation).
[0041]
During such automatic operation, when the power switch 94 is pressed to turn off (open), or when the timer means 146 is turned off during automatic operation and the timer set time is counted, the process proceeds to step S-7 as described above. The operation of the air cleaner ends.
When the filter means 10 attached to the filter attaching portion 8 is not a predetermined one, or when the filter means 10 is not attached to the attaching portion 8, the steps from Step S-1 to Step S-8 and Step S-12 are performed. Proceeding to S-16, the control means 136 generates an alarm signal based on the detection signal from the filter detection means 60, the alarm means 138 is activated by this alarm signal to inform the operator that some abnormality has occurred, The operation of the air cleaner is forcibly terminated (step S-17).
[0042]
In the manual operation mode, the convection fan means 30 is rotated in the operation state set by the air volume changeover switch 98, and the rotational speed of the convection fan means 30 is that of the filter means 10 attached to the filter attachment portion 8. It is rotated with the number of rotations corresponding to the type. That is, when the dust / odor removal / filter means 10C, 10D (or the dust removal filter means 10A or the odor removal filter means 10B) is attached, the control means 136 causes the convection when the manual operation mode is set to, for example, a weak operation. When the fan means 30 is operated in a standard weak operation (or high speed side weak operation or low speed side weak operation) and a manual operation mode such as a medium operation is set, the control means 136 causes the convection fan means 30 to operate in a standard medium operation or the like (or high speed). Side operation, etc.).
[0043]
As mentioned above, although one embodiment of the air cleaner according to the present invention was described, the present invention is not limited to such an embodiment, and various changes or modifications can be made without departing from the scope of the present invention.
For example, in the illustrated embodiment, the dust / odor removal filter means 10C and 10D, the dust removal filter means 10A and the smell removal filter means 10B are configured to be selectively attachable, and are attached in relation to this. The rotational speed of the convection fan means 30 is set to the standard rotational speed, the high speed side rotational speed, or the low speed side rotational speed corresponding to the type of the filter means 10. For example, the dust / odor removing filter means 10C, 10D and the dust removal filter means 10A (or the odor removal filter means 10B) may be configured to be selectively mountable. In such a case, the rotational speed of the convection fan means 30 is set to the standard rotational speed or the high speed side rotational speed (or the low speed side rotational speed) in correspondence with the mounted filter means 10.
[0044]
Further, for example, in the illustrated embodiment, the high speed side rotational speed is set with the standard side rotational speed and the high speed side correction value, and the low speed side rotational speed is set with the standard rotational speed and the low speed side correction value. Instead of such a configuration, the high speed side rotation speed and / or the low speed side rotation speed are directly stored in the first memory 142, and the rotation speed corresponding to the type of the filter means 10 mounted on the filter mounting portion 8 is set. You may make it read from the 1st memory 142. FIG.
[0045]
Moreover, in order to fully demonstrate the performance of the mounted filter means 10, for example, the following configuration may be adopted. That is, a type including the performance (standard and high performance) of the filter means 10 attached by the filter detection means 60 provided in association with the filter attachment portion 8 is detected, and the filter from the filter detection means 60 is detected. The sensitivity of the dirt detection means 130 may be set based on the performance detection signal. In such a case, the control means 136 further includes a sensitivity setting means (not shown). For example, when the high performance dust removal dedicated filter means 10A (or the high performance smell removal dedicated filter means 10B) is mounted, the sensitivity setting means Based on the detection signal from the filter detection means 60, the sensitivity of the dust detection sensor 132 (or the odor detection sensor 134) is corrected to achieve “zero dust” (or a detection level that is half that of a higher sensitivity, for example, standard sensitivity) (or From “zero odor” to “small dust” (or “small odor”), from “small dust” (or “small odor”) to “in dust” (or “in smell”), and “in dust” ( Alternatively, the sensitivity is set so that the detection state changes from “medium smell”) to “dust large” (or “large smell”), and the control means 136 receives the dust detection sensor 132 (or the smell detection sensor 134) from the set sensitivity. For detection signal Zui controls the rotation of the convection fan means 30. By doing so, the operating state of the convection fan means 30 is switched with a detection level smaller than the detection level at the time of standard sensitivity, and the rotation speed thereof is increased, which is combined with the performance of the filter means 10A (or 10B). The purification action of the air cleaner can be further enhanced, and the performance of the attached filter means 10A (or 10B) can be sufficiently exhibited.
[0046]
【The invention's effect】
  According to the air cleaner of claim 1 of the present invention,Since the sensitivity of the dirt detection means corresponding to the type of filter means mounted on the filter mounting portion is set, for example, when using a high-performance dust removal filter means (odor removal filter means), dust and odors are removed. Compared to the case where the dual-purpose filter means is used, even if the detection level of dust (or odor) is low, the rotational speed of the convection fan means is increased and the dust removing ability (odor removing ability) of the air cleaner is increased. Dust (or odor) in the air can be effectively removed with high performance.
[0047]
  According to the air cleaner of claim 2 of the present invention,Since the detection state of the dirt detection means corresponding to the type of the filter means attached to the filter attachment portion is selected and the detection state corresponding to the type of the filter means attached is selected, the air is detected based on the detection signal of this dirt detection means. Dirt can be removed as required.
[0048]
  Further, the claims of the present invention3According to this air purifier, when the dust removal filter means (or the odor removal filter means, the dust / odor removal filter means) is mounted, the detection selection means is the dust detection sensor (or the odor detection sensor, the dust detection sensor). And the detection state of the odor detection sensor) is selected, so that the dirt detected by the dirt detecting means can be removed as required by the filter means.
  Further claims of the present invention4According to this air cleaner, since the filter type display means displays the type of the filter means mounted on the filter mounting portion, the type of the mounted filter means can be easily recognized by viewing this display. .
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an embodiment of an air purifier according to the present invention.
2 is an exploded cross-sectional view showing a part of the air cleaner of FIG.
3 is a perspective view showing a part of the cleaner body of the air cleaner of FIG. 1 and various filter means attached to the cleaner body.
FIG. 4 is a partial sectional view showing a relationship between a specific filter unit and a detection switch of the filter detection unit.
FIG. 5 is a diagram showing the relationship between three detection switches of the filter detection means and various filter means.
6 is a front view showing an operation panel of the air cleaner of FIG. 1. FIG.
7 is a block diagram schematically showing a control system of the air cleaner of FIG. 1; FIG.
8 is a flowchart showing control by the control system of FIG.
[Explanation of symbols]
2 Cleaner body
4 inlet
6 outlet
10, 10A, 10B, 10C, 10D filter means
24 Air flow path
30 Convection fan means
60 Filter detection means
92 Operation panel
100 Filter type display means
130 Dirt detection means
132 Dust detection sensor
134 Odor detection sensor
136 Control means
138 Detection selection means
140 Rotational speed correction means

Claims (4)

A purifier body having an air flow path for guiding air sucked from the suction port to the blowout port, convection fan means for convection of air through the air flow path of the purifier body, and attached to the suction port, the suction port Filter means for purifying air sucked through the mouth, dirt detecting means for detecting a dirt state of the air, and the rotational speed of the convection fan means based on a dirt detection signal from the dirt detecting means An air purifier comprising control means for controlling,
In relation to the suction port, filter detection means for detecting the type of filter means attached to the suction port is provided, and the control means includes sensitivity setting means for setting the sensitivity of the dirt detection means, blot detection of the stain to set the sensitivity of the detection means, said contamination detection means according to the set sensitivity by the control means before Symbol sensitivity setting means corresponding to the filter detection signal of the sensitivity setting means from said filter detecting means An air cleaner characterized in that the convection fan means is rotationally controlled based on a signal. A purifier body having an air flow path for guiding air sucked from the suction port to the blowout port, convection fan means for convection of air through the air flow path of the purifier body, and attached to the suction port, the suction port Filter means for purifying air sucked through the mouth, dirt detecting means for detecting a dirt state of the air, and the rotational speed of the convection fan means based on a dirt detection signal from the dirt detecting means An air purifier comprising control means for controlling,
In relation to the suction port, a filter detection means for detecting the type of filter means attached to the suction port is provided, and the control means is a detection selection means for selecting a detection state of the dirt detection means. The detection selection means selects a detection state of the dirt detection means corresponding to a filter detection signal from the filter detection means, and the control means has the detection state selected by the detection selection means and the convection fan An air cleaner characterized in that the means is rotationally controlled. The dirt detection means includes a dust detection sensor for detecting dust in the air and an odor detection sensor for detecting odor in the air, and the filter means removes the dust removal filter means for removing dust and the odor. Including odor removal filter means for
When the filter detection means detects the dust removal filter means, the detection selection means selects a detection state of the dust detection sensor, and the control means is based on a detection signal from the dust detection sensor. rotating control, when the filter detecting means detects the odor removal filter unit, said sensing selection means selects the detection state of the odor detection sensor, said control means based on a detection signal from the odor sensor The rotation of the convection fan, and when the filter detection means detects the dust removal filter means and the odor removal filter means, the detection selection means selects the detection state of the dust detection sensor and the odor detection sensor. The control means controls the convection fan means based on detection signals from the dust detection sensor and the odor detection sensor. Air purifier according to claim 2, characterized in that the rolling control. A purifier body having an air flow path for guiding air sucked from the suction port to the blowout port, convection fan means for convection of air through the air flow path of the purifier body, and attached to the suction port, the suction port An air purifier comprising: filter means for purifying air sucked through the mouth,
In relation to the suction port, a filter detection means for detecting the type of filter means attached to the suction port is provided, and a filter type display means for displaying the type of filter means is provided, The filter type display means displays the type of the filter means attached to the suction port based on a detection signal from the filter detection means.

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