JP3384302B2 - Air purifier - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to an air cleaning device. In particular, the present invention relates to a combined type of floor or table installation and wall installation.

[0002]

2. Description of the Related Art For example, an air air passage is defined inside an air purifying device, and the air is purified while passing through it. Then, clean air is blown out from the air outlet. By the way, some air cleaners installed on the floor or on a table have a suction port on the front surface and an air outlet on the upper surface. Such an air purifier may also be used as a wall-mounted type, and when it is installed on the wall, the air outlet on the upper surface,
The hood that directs the direction of the blown air forward was fixed and attached as a retrofit component.

[0003]

However, it is also conceivable to forget to attach the hood of the retrofitted part. If the air purifier is operated without the hood attached, the blown air may be blown to the ceiling surface, and the blown air may not reach every corner of the room. Further, even when the hood is attached, the fixed hood rectifies the blown air in a certain direction, so the blown air may not fully spread to every corner of the room. .

Therefore, an object of the present invention is to solve the above-mentioned technical problems, and in an air cleaning apparatus which can be installed on the floor, on a table or on a wall, an air cleaning apparatus capable of spreading blown air over a wide range. Is to provide.

[0005]

In order to achieve this object, the air purifying apparatus according to the first aspect of the present invention is capable of varying the air flow rate in the air air passage extending from the suction port to the air outlet through the purifying means to the air outlet. In an air purifying apparatus having a blower, the air passage is divided into an inner portion, an air outlet is formed on an upper surface, and a first installation mode installed on a floor or a table and a wall surface are installed. A second installation mode is selectable, a housing having a portion used for installation in each installation mode, and a displaceably provided at the blowout port, and at a regulation position according to each installation mode from the blowout port. Wind direction restricting member for restricting the direction of the blown air, a drive mechanism for displacing the wind direction restricting member, setting means for setting which of the first and second installation modes described above, and setting by this setting means Installation mode And a control unit that controls the position of the wind direction regulating member via the drive mechanism to continuously and reciprocally change the wind direction regulating member at a corresponding regulation position. The control unit is the first installation mode. When set,
When the direction of the blowing air is set relatively upward and the second installation mode is set, the position of the wind direction regulating member is controlled so that the direction of the blowing air is set relatively forward .
Wind direction regulation so that the width of the fluctuation range in the direction of the blowing air when the air volume of the blowing air is large becomes relatively smaller than the width of the fluctuation range in the direction of the blowing air when the air volume of the blowing air is small. It is characterized in that the member is continuously displaced back and forth.

According to this structure, the following effects are achieved.
That is, when this air cleaning device is used in any of the above-described installation modes, the wind direction restricting member can be displaced by the drive mechanism to the restriction position according to the installation mode, so that the blowing air can be installed in the installation mode. As a result of being able to switch to a suitable direction, the blowing air can be spread to every corner of the room.

In particular, since the direction of the blowing air can be continuously changed by variably displacing the wind direction restricting member, the blowing air can be changed to surely reach every corner of the room. Note that the above-mentioned restriction position is the position of the wind direction restriction member that is set according to each installation mode. The wind direction restricting member may be stopped at this restricting position as necessary, or the restricting position may be continuously varied within a certain range, and the wind direction restricting member may be displaced in that range. Further, when any one of the installation modes is set by the setting means, the wind direction restricting member can be automatically displaced by the control means to the restriction position according to the set installation mode. Therefore, the blowing air in the direction suitable for the installation mode. Can be surely obtained. Since the air cleaner of the first installation mode is generally at a low position in the room such as the floor surface or the tabletop, the direction of the blown air is set to be relatively upward as compared with the second installation mode. , It is possible to surely blow out the wind to every corner of the room. Since the air purifying device of the second installation mode is generally fixed to a high position on the wall surface, by making the direction of the blowing air relatively forward, the blowing air can be surely spread to every corner of the room. You can
Further, in the second installation mode, since the blowing air is directed forward, it is possible to prevent the blowing air from being blown onto the ceiling surface, so that the contamination of the ceiling surface due to the blowing can be reliably prevented. Note that “upward” means “closer to the front”, and “forward” means closer to the front. Further, when the wind direction regulating member is reciprocally vary displacement, the width of the variation range of the direction <br/> the outlet air when the air volume of the air blown is large, the outlet air when the air volume of the air blown is small
By making it smaller than the width of the fluctuation range in the direction of, the angle of deflection of the blowing air in the fluctuation range can be made small, so that excessive deflection of the blowing air can be prevented, and noise can be reliably reduced. it can. Especially, the blowing air when the air volume is large
It is more preferable that the maximum deflection angle in the width of the variation range in the direction of is smaller than the maximum deflection angle in the width of the variation range in the direction of the blowing air when the air volume is small.

The air purifying device of the invention according to claim 2 is
In an air purifying device equipped with an air blowing unit that blows air in an air air duct that extends from an intake port to a air outlet through a purifying unit, the air air duct is partitioned inside, and an air outlet is formed on the upper surface of the floor. A first installation mode installed on a surface or a tabletop and a second installation mode installed on a wall surface are selectable, and a housing having a portion used for installation in each installation mode and the above-mentioned outlet are provided. A wind direction regulating member that is displaceably provided and that regulates the direction of the air blown from the air outlet at a regulation position according to each installation mode, a drive mechanism that displaces the wind direction regulating member, and the first and second Setting means for setting which one of the installation modes is set, and the position of the wind direction restricting member is controlled via the drive mechanism to the restricting position according to the installation mode set by this setting means, and the wind direction restricting member is continuously operated. Reciprocating fluctuation displacement And a that control means, the control means, when it is the first installation mode is set,
When the blowing wind direction is set relatively upward and the second installation mode is set , the blowing wind direction is set relatively.
Control the position of the wind direction control member so that it faces forward,
Of the variation range of the direction of the blowing air when the second installation mode
Change the width in the direction of the blowing air when the first installation mode is used.
It is characterized in that the wind direction regulating member is continuously reciprocatingly displaced so as to be relatively smaller than the width of the range . According to this configuration, like the operation of the invention according to claim 1,
The blowing air can be switched to a direction suitable for the installation mode, and the blowing air can be spread to every corner of the room. In particular, by variably displacing the wind direction regulating member,
The blowing air can be changed to surely reach every corner of the room. Further, when any one of the installation modes is set by the setting means, the wind direction restricting member can be automatically displaced by the control means to the restriction position according to the set installation mode. Therefore, the blowing air in the direction suitable for the installation mode. Can be surely obtained.

[0009]

[0010]

[0011]

Further , the air cleaning device of the first installation mode is
Generally, it is located in a low position in the room, such as on the floor or on a tabletop, so that the direction of the blow-out air is set to be relatively upward relative to that in the second installation mode, so that the blow-out air is surely distributed in every corner of the room. Can be spread across. Moreover, the direction of the blowing air
By increasing the fluctuation range of, the blowing air to every corner of the room
Can be reliably spread.

The air purifying apparatus of the second installation mode is
Since generally are fixed to the high wall location, by relative forward direction of the air blown, it is possible to span go ensuring air blown to every corner of the room, deer
Also, even if the fluctuation range of the direction of the blowing air is reduced,
Ru can be spread to ensure to every corner of the room. Further, in the second installation mode, since the blowing air is directed forward, it is possible to prevent the blowing air from being blown onto the ceiling surface, so that the contamination of the ceiling surface due to the blowing can be reliably prevented. In addition, the air cleaning device of the second installation mode
Is fixed at a high position on the wall and close to the ceiling.
Therefore, the fluctuation range in the direction of the blowing air should be reduced.
With this, it is possible to reliably prevent the blowing of wind on the ceiling surface.
It As a result, the ceiling surface becomes dirty due to the blowing of blowing air.
This can be reliably prevented.

It should be noted that relatively upward means close to right above, and relatively forward means close to front .

[0015]

[0016]

[0017]

[0018]

[0019]

[0020]

[0021]

[0022]

[0023]

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following, an air cleaning device 1 having a function of purifying contaminants by a photocatalyst and a function of removing dust by ionization will be described as an example. FIG. 1 is an exploded perspective view of an air cleaning device according to an embodiment of the present invention. FIG. 2 is a cross-sectional side view of the schematic configuration of the air cleaning apparatus of FIG.

The air purifying apparatus 1 is provided with a box-shaped housing 10 which defines an air flow passage therein, and a blower fan 27 as a blower for flowing air into the air flow passage inside the housing 10. The housing 10 is composed of a front case 11 and a rear case 12, and is a suction port 11a serving as an inlet of an air flow path.
Is formed on the front surface of the front case 11. Further, a blower fan 27 is provided in a portion of the rear case, which is in the middle of the air air passage, and an air outlet 12a serving as an outlet of the air air passage is formed on the upper surface 12e of the rear case 12. The air outlet 12a is provided with an air direction adjusting device 30 for controlling the direction of the air blown out from the air outlet 12a.

The blower fan 27 is, for example, a sirocco fan for generating an air flow in a predetermined direction, and is rotationally driven by a blower fan motor 28. Blower fan 27
Is mounted in a casing 12d formed integrally with the rear portion of the rear case 12. The casing 12d is
A part of the air flow path is defined, an opening is formed on the front surface that connects to the inside of the front case 11, and the air passage is communicated with the upper outlet 12a.

The air air passage is an air passage that flows from the suction port 11a through the front case 11 and the rear case 12 from the front to the rear, and is directed upward in the casing 12d to reach the air outlet 12a. . The air is purified by the purifying means 20 in the part of the air flow path until it enters the blower fan 27. The purifying means 20 is composed of the following parts arranged in order inside the housing 10 along the air flow path. That is, a pre-filter 21 for removing relatively large dust and dirt, an ionization section 22 for ionizing dust particles in a flow (ventilation flow) along an air duct, and an electrostatic device for adsorbing the ionized dust particles. A roll filter 23 including a filter 23a and a deodorizing filter 23b carrying a photocatalyst;
A photocatalyst element 25 for holding a photocatalyst, and a light source 26 for purifying contaminants by irradiating the photocatalyst element 25 or the like with ultraviolet rays to excite the photocatalyst
And are arranged from the upstream side to the downstream side in the flow direction of the ventilation flow.

The ionization section 22 includes ionization lines 22a as a plurality of discharge lines extending in a direction orthogonal to the air flow direction and parallel to each other, and a pair of opposing electrode plates arranged to face each other with the ionization lines 22a interposed therebetween. 22b.
The ionization unit 22 charges the dust particles in the ventilation flow with the ion shower generated by the corona discharge. The charged dust particles are electrically adsorbed by the electrostatic filter 23a.

The photocatalyst element 25 carries a photocatalyst which decomposes odorous components upon irradiation with ultraviolet rays on the surface or inside of the photocatalyst carrier having a ventilation surface. The photocatalyst means a substance that absorbs light and gives its energy to a reaction substance to cause a chemical reaction, and specifically, titanium oxide (TiO ₂ ) and zinc oxide (ZnO) having an anatase type crystal structure. and it can be exemplified tungsten oxide (WO _3). The light source 26 has, for example, a wavelength of 320 to 420n.
m of light can be emitted, which can activate the photocatalyst and clean the pollutants.

According to this air purifying apparatus 1, when the blower fan 27 is operated, air is sucked in through the suction port 11a, and relatively large dust is captured by the pre-filter 21 while flowing through the above-mentioned air flow passage. The fine dust is charged by the ionization unit 22 and captured by the electrostatic filter 23a, and contaminants such as odorous components are purified by the photocatalyst element 25 and the deodorizing filter 23b. The air purified in this way is blown out from the air outlet 12a (arrow A-
C).

By the way, in this air cleaning apparatus 1, a first installation mode installed on the floor surface TF or a tabletop and a second installation mode installed on the wall surface W0 can be selected.
For this reason, the housing 10 has a part used for installation in each installation mode. Further, the blown air from the outlet 12a is blown out by the wind direction adjusting device 30 in a direction suitable for the selected installation mode.

The details will be described below. On the rear surface of the rear case 12 of the housing 10, a hook portion 12b that can be used when used in the second installation mode is integrally formed. The air cleaner 1 can be installed on the wall surface W0 by hooking and engaging the hook portion 12b with the mounting bracket W1 fixed to the wall surface W0. Also, the rear case 12
A plurality of leg portions 12c that can be used when used in the first installation mode are integrally formed on the lower surface of the.

The wind direction adjusting device 30 is provided at the air outlet 12a so as to be displaceable and serves as a wind direction regulating member for regulating the direction of the blown air, and a stepping motor 32 (SP) as a drive mechanism for displacing the flap 31. Motor). The flap 31 is a plate-shaped member that has a lower surface 31b that is, for example, a concave curved surface that deflects the blown air, and is formed in a single plate shape having substantially the same size as the outlet 12a. The flap 31 has a pair of rotation center shafts 31a provided in the vicinity of the rear edge and extending in a straight line in the horizontal direction, and these rotation center shafts 31a are rotatably supported by the rear case 12. . The one rotation center shaft 31a is drivingly connected to the output shaft of the stepping motor 32 in a directly connected state.

When a predetermined drive signal is input, the stepping motor 32 can displace the output shaft to an angular position according to the signal. The operation of the flap 31 will be described. When the stepping motor 32 is driven, the flap 3
Since 1 is rotationally displaced about the rotation center axis 31a,
By deflecting the flow of air passing through the outlet 12a, the deflection angle (illustrated by D1 in FIG. 3) formed by the flow direction of the blown air immediately before passing through the flap 31 and the flow direction immediately after passing through the flap 31 can be made different. . As a result, the blowing direction of the blowing air can be changed from, for example, the flow direction from the bottom to the top to the forward direction.

The flap 31 is preset with a plurality of restricting positions according to the installation mode and air volume. Flap 31
As will be described later, is stopped at each regulation position, and the direction of the blowing air is also determined accordingly. Also, the flap 31
Is variably displaced between positions within a certain range including the regulation position, and the direction of the blown air also changes accordingly. Flap 3
Specifically, the first restriction position is set to the following positions according to the respective installation modes. For example, flap 3
A closed position (P0) in which 1 is housed flush with the upper surface 12e of the rear case 12 and the outlet 12a is closed. A first position (P) in which the flap 31 is rotationally displaced by 20 degrees in a direction (clockwise direction in FIG. 3) from the closed position to open the air outlet 12a.
1). The flap 31 from the first position in the opening direction described above.
The second position (P2) obtained by rotationally displacing 10 degrees upward.
A third position (P3) in which the flap 31 is rotationally displaced by 10 degrees in the opening direction from the second position. A fourth position (P4) in which the flap 31 is rotationally displaced 30 degrees in the opening direction from the third position so that the flap 31 is substantially upright at the outlet 12a and the outlet 12a is in the open state. In the closed state described above, the lower surface 3 of the flap 31, which is in the direction of the blowing air.
An angle formed by a direction extending forward of the front end portion of 1b and a horizontal direction (hereinafter, referred to as an outlet angle, shown by D2 in FIG. 3)
Is almost 0 degrees. Further, the blowing angle from the flap 31 at the first position is approximately 20 degrees upward with respect to the horizontal direction. The blowing angle at the second position is set to about 30 degrees, the blowing angle at the third position is set to about 40 degrees, and the blowing angle at the fourth position is set to about 70 degrees.

As described above, when the present air cleaning apparatus is used in any of the above-mentioned installation modes, the flap 31 can be displaced by the drive mechanism to the regulated position according to the installation mode, so that the blowing air is installed. As a result of being able to switch to a direction suitable for the mode, blown air can be spread to every corner of the room. Further, the air purifying apparatus 1 serves as a control unit 40 as a control unit for controlling the position of the flap 31 via a drive mechanism, and as a setting unit for setting which one of the first and second installation modes is set. The installation switch 33 (installation SW), an operation panel 34 and a remote control operation device 35 as operation means for giving various settings and commands to the control unit 40 to operate.

The control section 40 is provided in the housing 10 and is composed of a microcomputer or the like.
It includes PU, RAM, ROM and the like. The control unit 40
The control is performed based on the programs and data stored in the ROM and the like. Further, the control unit 40 includes a clock (not shown), and can measure the interval when the stepping motor 32 is temporarily stopped, as described later.

The control section 40 is connected to the installation switch 33 and the operation panel 34, and the installation switch 33 and
Signals are input from the switches on the operation panel 34.
Further, a connection circuit (not shown) capable of receiving a signal via infrared rays or the like is connected to the control unit 40, and a remote control operation device 35 for remote operation, which is provided separately from the main body of the air cleaning device. Can be input to the control unit 40.

Further, the control section 40 can control the operations of the blower fan motor 28, the stepping motor 32 and the like via a drive circuit (not shown). For example, the blower fan motor 28 is driven to vary the air volume, and the air volume of the blown air is changed to a large air volume (air volume H), a medium air volume (air volume M), and a small air volume (air volume L) in accordance with a command from the operating means. And a slight air volume (air volume LL). Here, the relationship between the air volumes is H>M>L> LL.

The installation switch 33 is a manually operable switch. The installation switch 33 can be operated in two states according to the first and second installation modes, for example, an open state and a closed state, and can maintain that state. The installation switch 33 is disposed on the front surface of the rear case 12, and can be operated with the front case 11 removed in order to prevent an unintended operation by a user. The setting means may respond to the manual operation as described above, but may be configured to automatically set the installation mode.

As described above, when any one of the installation modes is set by the installation switch 33, the flap 31 can be automatically displaced by the control means to the regulation position according to the set installation mode, which is suitable for the installation mode. It is possible to reliably obtain the blowing air in the different directions. The operating means specifically has the following switches for operating the respective parts of the air cleaning device. These respective switches are provided on both the operation panel 34 and the remote control operation device 35. Each switch outputs a predetermined signal to the control unit 40 in response to a human operation. As these switches, a power switch for turning the power on and off, a start switch for operating the blower fan 27 and the cleaning means 20 to perform an air cleaning operation, an air volume switch for setting the air volume of the blown air, and a flap 31. As the signal related to the regulated position, a swing switch or the like for issuing a swing operation command (swing input) for variably displacing the flap 31 can be exemplified.

As described above, by providing the operating means in addition to the setting means, the control means can control the position of the flap 31 with a high degree of freedom based on the respective signals from the setting means and the operating means. Because it is possible, it is possible to obtain the blowing air that meets the needs. In the present embodiment, the operation means is limited in operation content according to the installation mode as described later, and thereby ensures the blowout air suitable for the situation assumed in advance according to the installation mode. Obtainable. In addition, the operation content of the operation means does not need to be limited as described above, and the operation means operates the flap 3
As a signal related to the first regulation position, a signal for setting an arbitrary regulation position or a position variation range may be output. In this case, even if the air conditioner is used in a situation that cannot be anticipated in advance depending on the installation mode, it is possible to obtain the blowing air suitable for the situation.

Next, the control contents will be described. The air purification apparatus 1 is operated automatically or manually in a selectable manner according to the contents of the installation mode set as described above. The flow charts of FIGS. 4 to 8 will be described below for the case of performing the swing operation in the first installation mode, the case of not performing the swing operation in the first installation mode, and the case of the second installation mode, respectively. Will be described with reference to. Further, in FIGS.
The schematic diagram of the position of the flap 31 in each case is illustrated according to the installation mode, swing input, and air volume.

In this air purifying apparatus, the installation mode in which it is installed is preset by manually operating the installation switch 33. First, refer to FIG. In the case where the swing operation is performed in the first installation mode.

When the power is turned on, first, the swing input is not accepted (step S1). next,
The stepping motor 32 is driven to bring the flap 31 to the closed position, and the flap 31 is returned (step S2). Then, the contents set in the installation switch 33 are read (step S3). Step S4
Then, based on the contents set in the installation switch 33,
Determine the installation mode. That is, when the installation switch 33 is in the closed state (H), it can be determined that the first installation mode (tabletop installation) is set. On the other hand, if the installation switch 33 is in the open state (L), it can be determined that it is the second installation mode (wall surface installation). Control is performed according to the determined content.

In the first installation mode (YES in step S4)
S), the swing control shown in FIG. 5 (step S5) is performed. After the air volume is set by the operating means, the operation is started by operating the start switch.
This starts swing control (step S2).
If YES in 1), first, a flap position setting process (step S22) for displacing the flap 31 to the initial position is performed. The initial position here is a start position when the flap 31 is displaced and displaced.

In the flap position setting process, as shown in FIG. 7, first, depending on the contents of the installation switch 33 (YES in step S11), the swing input acceptance prohibition is released (step S12), and the flap 31 reciprocates. It is made possible to select fluctuating or stopping. Next, the rotation speed of the stepping motor 32 is set (step S13). This rotation speed is set higher than, for example, twice the rotation speed when reciprocating, and the flap 31 can be quickly arranged at the start position.

In the case of the first installation mode (NO in step S14), the initial position is set according to the volume of blown air. That is, when the air volume is LL or L (YES in step S15), the stepping motor 32 is driven so that the flap 31 is displaced to the third position (step S16). When the air volume is M or H (NO in step S15), the flap 31 moves to the fourth position.
The stepping motor 32 is driven so as to be displaced to the position (step S17).

Returning to FIG. 5, description will be made. After that, the presence or absence of swing input and operation stop input is constantly monitored,
Control is performed. In step S23, it is determined whether or not there is a swing input. In case of swing operation (step S
If YES in 23), first, the rotation speed of the stepping motor 32 is set (step S24). This rotation speed is the rotation speed when the flap 31 is reciprocally changed. For example, the rotation speed is set to 5 degrees per second.

Next, according to the volume of the blown air, the flap 3
The content of position control 1 is set. That is, when the air volume is H (YES in step S25), the stepping motor 32 is driven so that the flap 31 continuously reciprocates between the fourth position and the third position (step S26). ) (See FIG. 9A). Also, the air volume is M
In the case of (NO in step S25, YES in step S27), the stepping motor 3 is moved so that the flap 31 continuously reciprocates between the fourth position and the second position.
2 is driven (step S28) (see FIG. 9B).

If the air volume is L (step S2)
If NO in step S7, YES in step S29), the stepping motor 32 is driven so that the flap 31 continuously reciprocates between the fourth position and the first position (step S30) ((in FIG. 9). See c)). When the air volume is LL (NO in step S29), the flap 31 is arranged to stop at the third position (step S31) (see (d) in FIG. 9).

As described above, by the position of the flap 31 depending on the air volume, it is possible to obtain blown air in an appropriate direction according to the air volume. Thereafter, as shown in FIG. 4, when the operation stop is instructed (YES in step S7), stop processing is performed (step S8). In the stop processing, as shown in FIG. 8, first, the swing input is not accepted (step S81), and then the stepping motor 32 is driven so as to displace the flap 31 to the closed position (step S82). ). As described above, since the air outlet 12a is closed by the flap 31 when the operation is stopped, it is possible to prevent dust and the like from entering through the air outlet 12a.

In the case of the first installation mode, when the swing operation is not performed In this case, the content of the swing control in step S5 is
This is different from the case described above. First, as shown in FIG. 5, the initial position displaced in the flap position setting process (step S22) is a regulation position for stopping the flap 31. As described above, when the air volume is LL or L (YES in step S15 of FIG. 7), the flap 31
Is stopped at the third position (step S16). Also,
When the air volume is M or H (N in step S15
O), the flap 31 is stopped at the fourth position (step S17).

When the swing operation is not performed (NO in step S23 in FIG. 5), the direction of the blown air is determined by the flap 31 stopped at the regulation position as described above. That is, when the air volume is M or H, the flap 31 stops at the fourth position (see (e) and (f) of FIG. 9), and when the air volume is L or LL, the flap 31 stops at the third position. (See (g) and (h) in FIG. 9).

Thereafter, as described above, when the operation stop is instructed (YES in step S7 of FIG. 4), stop processing is performed (step S8). In this way, the operating means is
When the first installation mode is set, the flap 31 can be operated so as to be stopped, whereby the comfortable air cleaning device 1 can be realized. Because, the air cleaning device of the first installation mode,
Since it is generally assumed that the device is installed near the user, such as on the floor or on a table, it may be desirable to fix the direction of the blowing air. For example, there are cases where it is desired to direct a clean blowing air to the user, and conversely, where it is desired to avoid the blowing air in order to avoid an unpleasant draft feeling. In such a case, since the stopped flap 31 can fix the direction of the blown air,
For example, as a result of preventing blown air from hitting the user, an uncomfortable draft feeling can be reliably prevented. Further, it is possible to direct the blowing air toward the user and obtain a comfortable feeling.

In particular, when the first installation mode is set and the flap 31 is operated by the operating means so as to be stopped, the flap 31 is stopped at the stop position according to the air volume. (Fig. 9 (e) ~
(See (h)). As a result, the blown air can be fixed in the direction of the blown air according to the air volume, so that the draft feeling due to the blown air can be reliably prevented according to the air volume. For example, since a large amount of blown air tends to give an unpleasant draft feeling, it is preferable to prevent the blown wind from being directed toward the user. Moreover, the operation can be simplified.

Further, the stop position for stopping the flap 31 in accordance with the air volume is such that the direction of the blown air is relatively upward when the air volume is large and the direction of the air blow is relatively forward when the air volume is small. Has been done. by this,
The relatively upward large-volume airflow is hard to hit the user, so that it is not necessary to give the user a draft feeling. In addition, when the air volume is small and there is no fear of a draft feeling, it is possible to provide a positive and comfortable blowing air.

For example, the flap 31 is in the fourth position when the air volume H is relatively large, whereas the flap 31 is in the third position when the air volume L is relatively small. In addition, "upward relative" means close to the direction directly above,
The term “forward facing” means being closer to the frontal direction. For example, the flap 31 in the fourth position is relatively upward with respect to the third position, and conversely, the flap 31 in the third position is relatively forward with respect to the fourth position. Is.

In the case of the second installation mode In this case (NO in step S4 of FIG. 4), flap control (step S6) is performed. In this case, the swing input by the operating means is not accepted, and the position of the flap 31 is controlled in a preset mode. As shown in FIG. 6, when the operation is started by operating the start switch after setting the air volume and the like by the operating means, the flap control is started (YES in step S61). First, a flap position setting process (step S62) of displacing the flap 31 to the initial position is performed.

In the flap position setting process, as shown in FIG. 7, in the case of (NO in step S11), the rotation speed of the stepping motor 32 is immediately set (step S13). In the case of the second installation mode (YES in step S14), the initial position is set regardless of the air volume of the blown air. That is, the stepping motor 32 is driven so that the flap 31 is displaced to the third position (step S16). This simplifies the control. This is because the air purifying apparatus of the second installation mode is assumed to be installed close to the ceiling, and the range in which the direction of the blown air can be adopted is narrowed, so that the range of the regulation position of the flap 31 is also narrow. is there.

Returning to FIG. 6, description will be made. After that, the operation is performed while constantly monitoring the presence or absence of the operation stop input.
First, the rotation speed of the stepping motor 32 is set (step S63). This rotation speed is the rotation speed when the flap 31 is reciprocally changed. For example, the rotation speed is set to 5 degrees per second.

Next, according to the amount of blown air, the flap 31
Is position controlled. When the air volume is H (step S6
4), the flap 31 is set to stop at the third position (step S65) (see (i) in FIG. 9). When the air volume is M (N in step S64)
O, YES in step S66), the stepping motor 32 is driven such that the flap 31 reciprocates between the third position and the second position while temporarily stopping at both positions (step S67). For example, the flap 31 is displaced from the third position to the second position, and at the second position, for example, 1
After stopping for 0 second, the second position is displaced to the third position, and the second position is stopped for 10 seconds, for example, and this cycle is repeated (see (j) in FIG. 9).

If the air volume is L (step S6)
No in 6), so that the flap 31 reciprocates between the third position and the first position while temporarily stopping at both positions,
The stepping motor 32 is driven (step S6)
8). For example, the flap 31 is displaced from the third position to the first position, and after stopping at the first position for, for example, 10 seconds,
This cycle is repeated by displacing from the first position to the third position and stopping at the third position for, for example, 10 seconds (see (k) in FIG. 9).

When the air volume is LL (YES in step S64), the flap 31 is stopped at the third position (step S65) (see (l) in FIG. 9).
In this way, the position and movement of the flap 31 according to the air volume can provide blown air in an appropriate direction according to the air volume. After that, as shown in FIG. 4, when an operation stop is instructed from the operating means (YES in step S7), stop processing is performed (step S8).

As described above, when the second installation mode is set, the position of the flap 31 is, for example,
The third position to the first position are controlled, and the angle D2 formed by the direction of the blowing air and the horizontal direction is set to 40 degrees or less,
The angle is set to be less than or equal to the angle at which the blowing air to the ceiling surface can be suppressed. In this way, by controlling the direction of the blowing air to be less than or equal to the upper limit angle with respect to the horizontal direction, it is possible to suppress the blowing of the blowing air onto the ceiling surface, and thus to prevent the ceiling surface from being contaminated due to the blowing of the blowing air. You can
Here, as an upper limit angle of the angle that can be suppressed, 70 degrees can be exemplified.

When the second installation mode is set, the flap 31 is stopped at the regulation position according to this installation mode. For example, in the case of the air volume H and the air volume LL in the second installation mode, the flap 3
1 is stopped at the third position. As a result, since the air purifying apparatus of the second installation mode is generally fixed to a high position on the wall surface, even if the flap 31 is stopped and the direction of the blowing air is fixed, the blowing air is blown in every corner of the room. Since the flap 31 is stopped, the control can be simplified. Further, since the flap 31 is stopped to fix the direction of the blown air, it is possible to reliably prevent the blown wind from blowing onto the ceiling surface. As a result, it is possible to reliably prevent the ceiling surface from being contaminated due to the blown wind. be able to.

Further, the control section 40 is adapted not to receive a signal from the operating means when the second installation mode is set. In this way, by not accepting a signal, control and operation can be simplified, and moreover, blowout air in an inappropriate direction due to user operation can be reliably prevented. For example, it is possible to reliably prevent upward blowing air that may cause stains on the ceiling surface.

As described above, according to the present embodiment, when the flap 31 of the air outlet 12a is displaced by the drive mechanism, the air cleaning device can be used in any of the first and second installation modes. Moreover, since the blowing air in the direction suitable for the installation mode is obtained as shown in FIG. 9, the blowing air can be spread to every corner of the room. In particular, when the flap 31 is variably displaced, the blowing air can be varied so that it can surely reach every corner of the room. For example, in the case described above, in the case of the air volumes H, M, L,
The cases of and are the cases of air volumes M and L.

Further, by setting the installation mode by the setting means, it is possible to automatically and reliably obtain the blowing air in the direction suitable for the installation mode. Further, in the case of the second installation mode, the flap 31 is set to the first to third positions, the direction of the blown air is controlled, the angle D2 is set to the upper limit angle or less, and the blown air is blown to the ceiling surface. Since it can be suppressed, it is possible to prevent the ceiling surface from being soiled due to the blowing of the blowing air.

When the first installation mode is set, the direction of the blowing air is set relatively upward, and when the second installation mode is set, the direction of the blowing air is set relatively. The position of the flap 31 is controlled so that the flap 31 faces forward. As a result, the air cleaning apparatus 1 of the first installation mode is generally located at a low position in the room such as the floor surface or the tabletop, so that the direction of the blown air is relatively upward as compared with the second installation mode. By doing so, the blowing air can be surely spread to every corner of the room.
In addition, since the air purifying apparatus 1 of the second installation mode is generally fixed at a high position on the wall surface, the blowing air is made to be relatively forward by ensuring that the blowing air is even in every corner of the room. Can be spread across. Moreover, in the second installation mode, by making the direction of the blowing air forward,
Since it is possible to prevent the blowing air from blowing onto the ceiling surface, it is possible to reliably prevent the ceiling surface from being contaminated due to the blowing.

For example, in each case of FIGS. 9A to 9C,
In each of the cases of FIGS. 9 (i) to 9 (k), the direction of the blowing air that is relatively upward is included. In addition, FIG.
In each case of (f), the direction of the blowing air is set to be relatively upward with respect to each of the cases of (i) and (j) of FIG. In addition, the case of FIG. 9K includes the direction of the blown wind that is relatively forward as compared with the case of FIG. 9G.

Further, when the second installation mode is set, the fluctuation range in the direction of the blowing air is made relatively small, and when the first installation mode is set, the blowing air The flap 31 is variably displaced so that the directional variation range is relatively large. As a result, in the air purifying apparatus 1 of the first installation mode, which is generally installed at a low position in the room such as the floor surface or the tabletop, by increasing the variation range of the direction of the blown air, the blown air can be controlled in the corner of the room. You can surely reach everywhere. Also, the second
Since the air purifying apparatus 1 of the installation mode is generally fixed at a high position on the wall surface, it is possible to reliably spread the blowout air to every corner of the room even if the variation range of the blowout air direction is reduced. it can. In addition, the air purifying apparatus 1 of the second installation mode may be fixed to a high position of the wall surface and approaching the ceiling. Therefore, by reducing the fluctuation range of the direction of the blowing air, the ceiling of the blowing air may be reduced. It is possible to reliably prevent spraying on the surface. As a result, it is possible to reliably prevent the ceiling surface from being contaminated due to the blowing of the blowing air.

For example, in each case of FIGS. 9 (a) to 9 (c),
In each case of FIGS. 9 (i) to 9 (k), the variation range in the direction of the blown air is relatively large. Further, as shown in FIGS. 9 (i) and 9 (l), in the second installation mode, the flap 31 is stopped to fix the direction of the blowing air, so that the blowing air is spread to every corner of the room. It can be controlled easily. In addition, the fixed blowout air can reliably prevent the above-mentioned contamination of the ceiling surface.

Further, as shown in the above case, since the signal from the operating means is not accepted in the second installation mode, control and operation can be simplified, and moreover, it is inappropriate due to the user's operation. It is possible to reliably prevent the directional airflow, for example, the airflow that causes the above-mentioned dirt on the ceiling surface.
Note that only a part of the signal from the operation unit, for example, the swing input signal may not be accepted by the control unit 40.

Further, in the case of the first installation mode, which is assumed to be near the user, the direction of the blowing air can be fixed as desired by the user as in the case described above. For example, it is possible to obtain a comfortable feeling by directing a clean blown air to the user. On the contrary, it is possible to surely avoid the unpleasant draft feeling by preventing the blowing air from hitting the user.

In particular, when the direction of the blown air is fixed in the first installation mode, this direction can be fixed according to the air volume,
For example, it is possible to surely prevent the draft feeling according to the air volume by not directing a large amount of air blown toward the user, which is likely to give an uncomfortable draft feeling, and it is possible to simplify the operation. Further, when fixing the direction of the blown air according to the air volume in the first installation mode, a large amount of the blown air can be set relatively upward to prevent a draft feeling, and a small air volume without fear of a draft feeling. At times, it can be a positive and comfortable blowing air.

Further, the flap 31 which is displaced by the drive mechanism
Uses both a mechanism for dispersing the direction of the blown air and a mechanism for regulating the direction of the blown air according to the installation mode, so that the structure of the air cleaning device 1 can be simplified. . Further, the flap 31 is controlled so that the deflection angle D1 corresponds to the air volume of the blown air. As a result, the blowing air can be made to have the deflection angle D1 according to the air volume,
As a result of being able to finely adjust the blowing air, it is possible to reduce noise in a large air volume, for example.

In particular, regarding the deflection angle according to the air volume of the blown air, the deflection angle when the air volume of the blown air becomes large becomes smaller than the deflection angle when the air volume of the blown air becomes small. Has been As a result, the deflection angle with a large air volume can be surely reduced, so that the noise generated at the time of a large air volume and a large deflection angle can be reliably reduced. It should be noted that this magnitude relationship may be partially established.

For example, in each of the cases of FIGS. 9A to 9C, the smaller air volume includes the direction in which the deflection angle D1 becomes larger. In each case of FIGS. 9E to 9H, the deflection angle D1 for the air volumes H and M is smaller than the deflection angle D1 for the air volumes L and LL. In addition, FIG.
In each case of (k), the smaller air volume includes the direction in which the deflection angle D1 increases.

When the flap 31 is displaced in a reciprocating manner, the width of the fluctuation range in the direction of the blowing air when the blowing air volume is large is defined as the width of the blowing air when the blowing air volume is small.
The size relationship is smaller than the width of the variation range of the direction . As a result, the largest deflection angle in the fluctuation range can be made small, so that excessive deflection of the blowing air can be prevented, and as a result, the above-mentioned noise can be reduced more reliably. In particular, it is more preferable that the maximum deflection angle within the fluctuation range width when the air volume is large is smaller than the maximum deflection angle within the fluctuation range width when the air volume is small.

For example, in each of the cases of FIGS. 9A to 9C, the smaller the air volume, the larger the width of the variation range in the direction of the blown air . Further, in the case of FIG. 9 (k), the width of the fluctuation range in the direction of the blowing air is larger than that in the case of FIG. 9 (j), which has a larger air volume. When the air volume is LL, the swing operation is disabled and the flap 31 is stopped, as shown in FIGS. 9D, 9H, and 9L. Thereby, the operating noise of the drive mechanism can be prevented, and the operating noise can be further reduced.

Further, in this air cleaning device 1, the air outlet 1
Since 2a is on the upper surface 12e of the housing 10, since it is generally necessary to urge the blowing air forward, the deflection angle D1 of the blowing air tends to be large and the noise tends to be large. Even in such a case, the deflection angle D1 according to the air volume
Therefore, it is possible to suppress noise in a large air volume.

In the above embodiment, the outlet 12
a is not limited to the upper surface 12e of the housing 10, and may be, for example, the front surface of the housing 10. Further, the configurations of the flap 31 and the drive mechanism are not limited to those described above. For example, the flap 31 may be a grill-like one composed of a plurality of members. Further, the drive mechanism may include a motion conversion mechanism such as a link mechanism, a position detection sensor, or the like. In short, the flap 31 may be any wind direction restricting member that is displaceably provided at the air outlet and can restrict the direction of the air blown out from the air outlet at the restriction position according to each installation mode. It suffices if the wind direction regulating member can be displaced to the regulating position.

Further, in the above embodiment, the purifying means 2
As 0, the photocatalyst has the function of purifying contaminants and the function of removing dust by ionization, but the photocatalyst is not limited to this. For example, only one of the functions may be used. Also, other known purification means can be used. In short, the present invention can be applied to an air cleaning device in which the air passing through the cleaning means is blown out from the air outlet.

In addition, various design changes can be made within the scope of the present invention.

[0086]

According to the invention described in claim 1, the following effects are obtained. That is, when this air cleaning device is used in either of the first and second installation modes, the wind direction restricting member is displaced to the restricting position according to the installation mode, so that the direction suitable for the installation mode can be obtained. The blowing air can spread the blowing air to every corner of the room. In particular, by variably displacing the wind direction restricting member, it is possible to vary the blowing air and surely reach every corner of the room.

Further, according to the installation mode set by the setting means, it is possible to automatically obtain the blowing air in the direction suitable for the installation mode .

Further, by making the direction of the blow-out air in the first installation mode relatively upward as compared with the case in the second installation mode, the blow-out air can be surely spread to every corner of the room. You can Further, by making the direction of the blowing air relatively forward in the second installation mode, the blowing air can be surely spread to every corner of the room, and moreover, to the ceiling surface of the blowing air. It is possible to reliably prevent the ceiling surface from being soiled due to the spraying of. In addition, noise can be reliably reduced by reducing the width of the variation range in the direction of the blown air when the air volume is large.

According to the invention described in claim 2, claim 1
In the same way as the effect of the invention described above,
The wind blows the wind to every corner of the room
be able to. Especially, if the wind direction regulating member is variably displaced.
By changing the blowing air, it is possible to ensure every corner of the room.
Can be spread. In addition, the setting means
Suitable for the installation mode automatically according to the specified installation mode
It is possible to surely obtain the blowing air in the direction. The direction of the blown air in the first installation mode is set to be smaller than that in the second installation mode.
By making it relatively upward, the blowing air can be
You can surely reach everywhere. further,
By increasing the width of the fluctuation range in the direction of the blowing air, the blowing air can be surely spread to every corner of the room. In addition, the direction of the blowing air in the second installation mode is set to be relative.
Positively, the wind blows to every corner of the room.
Can be surely spread with the
Be sure to prevent dirt on the ceiling surface due to spraying on the ceiling surface.
You can stop. Furthermore, by reducing the width of the fluctuation range in the direction of the blowing air , the blowing air can be reliably spread to every corner of the room, while the dirt on the ceiling surface due to the blowing of the blowing air on the ceiling surface can be secured. Can be prevented.

[0090]

[0091]

[0092]

[0093]

[Brief description of drawings]

FIG. 1 is an exploded perspective view of an air cleaning device according to an embodiment of the present invention.

2 is a cross-sectional side view of a schematic configuration of the air cleaning apparatus of FIG.

FIG. 3 is a cross-sectional side view of an airflow direction adjusting device of the air cleaning device of FIG. 1.

FIG. 4 is a flow chart outlining control contents of the air cleaning apparatus of FIG.

5 is a detailed flowchart of the swing control of FIG.

6 is a detailed flowchart of flap control of FIG.

FIG. 7 is a detailed flowchart of the flap position setting process of FIG.

FIG. 8 is a detailed flowchart of the stop process of FIG.

9 is a schematic diagram of the position of the flap of the air cleaning apparatus of FIG. 1, and is shown in (a) to (l) according to the installation mode, swing input, and air volume.

[Explanation of symbols]

1 Air purifier 10 housing 11a Suction port 12a outlet 12b Hook portion (portion used in the second installation mode) 12c Leg (portion used in the first installation mode) 20 Purification means 27 Blower fan (Blower means) 31 flaps (wind direction control member) 32 Stepping motor (drive mechanism) 33 Installation switch (setting means) 34 Operation panel (operation means) 35 Remote Control Operating Device (Operating Means) 40 control unit (control means) Arrows A to C Air duct D2 Angle formed by the direction of the blowing air and the horizontal direction P1-P4 regulation position TF floor W0 wall

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI F24F 13/14 F24F 13/14 B (56) References JP-A-4-250811 (JP, A) JP-A-8-196838 ( (58) Fields investigated (Int.Cl. ⁷ , DB name) B03C 3/00-3/88

Claims (2)

(57) [Claims] 1. An air cleaning device provided with a blower means (27) for varying a flow rate of air to an air passage (AC) from an inlet (11a) to a blower outlet (12a) through a purifier (20). In (1), the above-mentioned air duct (AC) is partitioned inside, and the air outlet (12a) is formed on the upper surface (12e), and the first installation mode is installed on the floor surface (TF) or tabletop. , And a second installation mode to be installed on the wall surface (W0), and a housing having portions (12b, 12c) used for installation in each installation mode
(10) and the air outlet restricting member that is displaceably provided in the outlet (12a) and restricts the direction of the air blown from the outlet (12a) at the restricting position (P1-P4) according to each installation mode. (31), a drive mechanism (32) for displacing the wind direction restricting member (31), setting means (33) for setting which of the first and second installation modes is set, and this setting means ( The position of the wind direction regulating member (31) is set to the regulation position (P1-P4) according to the installation mode set by (33).
And a control means (40) for controlling the wind direction restricting member (31) to continuously and reciprocally fluctuate and displace, and the control means (40) is set to be in the first installation mode. The wind direction restricting member (3) is arranged so that the direction of the blown air is relatively upward when it is set, and the direction of the blown wind is relatively forward when the second installation mode is set.
The position of 1) is controlled and the blowing air when the blowing air volume becomes large
The width of the fluctuation range in the direction of
An air purification device characterized in that the wind direction regulating member (31) is continuously reciprocatingly displaced so as to be relatively smaller than the width of the variation range in the direction of the blown air. 2. A blower means (2) for blowing air to an air duct (AC) extending from the suction port (11a) to the outlet port (12a) through the purifying means (20).
In the air purification device (1) equipped with 7), the air duct (AC) is partitioned inside, and the air outlet (12a) is formed on the upper surface (12e), and the floor surface (TF) or the tabletop. A housing having selectable first installation mode and second installation mode installed on a wall surface (W0), each having a portion (12b, 12c) used for installation in each installation mode
(10) and the air outlet restricting member that is displaceably provided in the outlet (12a) and restricts the direction of the air blown from the outlet (12a) at the restricting position (P1-P4) according to each installation mode. (31), a drive mechanism (32) for displacing the wind direction restricting member (31), setting means (33) for setting which of the first and second installation modes is set, and this setting means ( The position of the wind direction regulating member (31) is set to the regulation position (P1-P4) according to the installation mode set by (33).
And a control means (40) for controlling the wind direction restricting member (31) to continuously and reciprocally fluctuate and displace, and the control means (40) is set to be in the first installation mode. the Rutoki, the direction of the outlet air relative upward, when it is set is the second installation mode is the outlet air
Wind direction control member (3
When the position of 1) is controlled and the width of the fluctuation range in the direction of the blowing air in the second installation mode is
Relatively smaller than the width of the fluctuation range in the direction of the blowing air
As described above, the air purifying device characterized in that the wind direction restricting member (31) is continuously displaced in a reciprocating manner .