JP2004160374A - Air cleaner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compact air cleaner using a centrifugal fan. <P>SOLUTION: The centrifugal fan 26 is provided at the center of a casing A of the air cleaner, blow-out ports 21 are provided at both side parts of a front cover 20 of the casing, the air sent from an impeller 26a of the centrifugal fan is received by scroll walls 11a, 11b of a discharge passage B provided on both sides, introduced to respective blow-out ports and blown out toward the front, and suction passages C1, C2 supply air sucked from the rear face and side faces of the casing to the impeller. The suction passages are formed between a dust collecting filter 27 provided immediately before the suction side of the centrifugal fan and the central inner face of the front cover 20, and deodorizing filters 28 are provided at terminal parts of discharge passages serving as an inner face of the blow-out ports. The deodorizing filters are of a photocatalyst type. An ultraviolet ray emitting apparatus 28a for activating the photocatalyst is preferably provided in a discharge passage B. The deodorizing filter of a honeycomb structure having flow straightening action is preferably used. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air purifier, and particularly to a small and compact air purifier suitable for being mounted on a wall of a building or the like.
[0002]
[Prior art]
As a centrifugal fan for an air purifier, a one-side blowout structure having one blowout port is usually used. In the centrifugal fan having the one-side blowout structure, the scroll that guides the air sent from the impeller gradually increases its distance from the outer periphery of the impeller over about 300 degrees in the rotational direction from the tongue portion closest to the outer periphery of the impeller. (For example, see Patent Document 1). On the other hand, some air purifiers for vehicles are provided with scrolls on both sides of an impeller to blow air from air outlets provided on both sides in front of the air purifier (for example, see Patent Document 2). ). There is also a device in which a dust collecting device and a deodorizing device are arranged in an overlapping manner (for example, see Patent Document 3).
[0003]
[Patent Document 1]
Japanese Patent No. 414265 (FIGS. 1 and 4)
[0004]
[Patent Document 2]
JP 2001-105848 A (FIGS. 1, 2, 4, 5, and 7).
[0005]
[Patent Document 3]
JP-A-11-47556 (FIGS. 1 and 2).
[0006]
[Problems to be solved by the invention]
In the centrifugal fan of the air purifier described in Patent Document 1 described above, the maximum value of the scroll from the outer periphery of the impeller becomes large, so that the casing that houses the centrifugal fan including the scroll becomes large. There is a problem that it is difficult to make the used air purifier small and compact. The technique disclosed in Patent Document 2 solves such a problem. According to this technique, the angle range of the scroll, in which the distance from the outer periphery of the impeller gradually increases, becomes about 90 degrees. It can be compact. However, in this air purifier, a suction port for sucking air is provided between the air outlets provided on both sides of the front face, and the distance between the air outlet and the air inlet is short. There is a problem that a part of the blown air is immediately sucked from the suction port, and thus the efficiency of air cleaning is deteriorated.
[0007]
Further, it is preferable that the air purifier is provided with not only a filter for dust collection but also a filter for deodorization. The technique of Patent Document 3 solves such a problem. Since the device and the deodorizing device are arranged one on top of the other, the thickness becomes large, which makes it difficult to make the air purifier equipped with the dust collecting filter and the deodorizing filter small and compact. Was. An object of the present invention is to solve each of these problems.
[0008]
[Means for Solving the Problems]
For this purpose, the air purifier according to the present invention includes a centrifugal fan provided in the casing, and the centrifugal fan is provided with a scroll wall whose distance from the outer periphery of the impeller gradually increases along the rotation direction of the impeller. A building having a discharge passage that guides air sent from a vehicle and guides the air to an outlet, and a filter provided in at least one of a suction passage and a discharge passage that introduces air from an air suction opening of a casing to an impeller. In an air purifier used by attaching to a wall such as, the impeller of the centrifugal fan is provided in the center of the casing, the outlet is provided on both sides of the front cover of the casing, and the discharge passage is provided on both sides of the impeller. The air sent from the impeller is sent from a predetermined position in the rotation direction of the impeller to each of the outlets on both sides, and is blown out toward the front, so that the suction It is characterized in that it has arranged for sucking air from at least one of the back and side of the casing.
[0009]
The air purifier described in the preceding paragraph is provided with a dust collection filter that covers immediately before the suction side of the centrifugal fan, and forms a suction passage between the dust collection filter and the inner surface of the central portion of the front cover. It is preferable to provide a deodorizing filter at the end of the discharge passage inside the outlet formed at the end of the discharge passage.
[0010]
It is preferable that the deodorizing filter of the air purifier described in the preceding paragraph uses a photocatalyst, and the ultraviolet irradiator that irradiates the deodorizing filter with ultraviolet rays is provided in the discharge passage that is on the near side of the end of the discharge passage.
[0011]
It is preferable that the deodorizing filter of the air purifier described in the preceding two section has a honeycomb structure provided with a large number of cell passages having a small passage width and arranged in parallel to the direction toward the front.
[0012]
In the air purifier described in the preceding paragraph, the suction passage sucks air at different places from both the first air suction port formed on the back surface of the casing and the second air suction port formed on the side surface. It is preferable to provide a shutter for changing the ratio of the amount of air sucked from each air inlet in a part of the suction passage.
[0013]
An air cleaner according to a sixth aspect of the present invention provides a centrifugal fan in a casing, a suction passage for guiding air sucked from an air suction port to the centrifugal fan, and a discharge passage for guiding air discharged from the centrifugal fan to an outlet. In an air purifier used by being attached to a wall of a building, comprising a filter provided in at least one of the suction passage and the discharge passage, the discharge passage in which the centrifugal fan impeller is disposed in the center is Is formed by a pair of scroll walls that are arranged symmetrically with respect to the rotation axis of the impeller and whose distance from the outer periphery of the impeller gradually increases along the rotation direction of the impeller. When viewed from the direction of the axis of rotation of the impeller, the discharge passage is disposed so as to be in contact with the contour of a predetermined rectangular area in the casing, extends substantially in the tangential direction of the impeller, and is guided to the outlet. The shape of the tip, when viewed from the direction of the rotation axis of the impeller, is characterized in that is substantially match the contour of the rectangular region.
[0014]
The predetermined rectangular area in the air purifier described in the preceding paragraph is preferably a rectangular area defined by an outer plate of the casing.
[0015]
The air purifier according to the preceding two aspects, at least one of a control device for controlling the operation of the air purifier and a suction passage is provided in a region other than the discharge passage in the rectangular region when viewed from the rotation axis direction of the impeller. It is preferable to arrange them.
[0016]
Function and Effect of the Invention
As described above, according to the invention of claim 1, the impeller of the centrifugal fan is provided at the center of the casing, the outlets are provided on both sides of the front cover of the casing, and the discharge passages are provided on both sides of the impeller. Since the air sent from the impeller is sent into each of the outlets on both sides, the angle range of the scroll wall whose distance from the outer periphery of the impeller gradually increases becomes as small as about 90 degrees. As a result, the increase in the distance of the scroll wall from the outer periphery of the impeller is reduced, so that the air purifier including the scroll wall is small and compact. In addition, the suction passages provided on both sides feed air from the impeller from a predetermined position in the rotation direction of the impeller to each of the outlets on both sides to blow out toward the front, and introduce air into one impeller. Is configured to inhale air from at least one of the back and side surfaces of the casing, so that part of the air that has been cleaned and blown out from the outlet is not immediately sucked in from the air inlet, and as a result, The efficiency of cleaning can be improved.
[0017]
A dust collecting filter is provided to cover the area immediately before the suction side of the centrifugal fan, and a suction passage is formed between the dust collecting filter and the inner surface of the central portion of the front cover, which is located inside the outlet formed on both sides of the front cover. According to the air purifier provided with the deodorizing filter at the end of the discharge passage, the deodorizing filters are disposed on both sides of the dust collecting filter, and the two do not overlap, and the thickness of the casing is reduced by that much. The air purifier is smaller and more compact.
[0018]
The deodorizing filter uses a photocatalyst, and the ultraviolet irradiator that irradiates ultraviolet rays to the deodorizing filter is based on an air purifier installed in the discharge passage near the end of the discharge passage. The ability to decompose is relatively high, so that the effects of deodorization and harmful gas decomposition can be enhanced.Moreover, since the UV irradiator is provided in the discharge passage where there is no interfering member, the casing is required to provide the UV irradiator. No need to spread.
[0019]
According to an air purifier having a deodorizing filter having a honeycomb structure having a large number of cell passages having a small passage width disposed in parallel to a direction toward the front, air passing through the discharge passage is exhausted by the honeycomb of the deodorizing filter. It is rectified by passing through the structure and is blown out from the blowout port. As a result, the airflow blown out from the outlet is improved in directivity toward the front and is less likely to spread laterally, so that part of the air that has been cleaned and blown out from the outlet is immediately sucked in from the air inlet. This is even less. Further, even when this air purifier is installed in a corner of a room formed by two walls orthogonal to each other, the air flow rarely spreads sideways. There is less pollution.
[0020]
The suction passage is configured to draw air at different locations from both the first air suction port formed on the rear surface of the casing and the second air suction port formed on the side surface, and each air suction port is formed in a part of the suction passage. According to the air purifier provided with the shutter for changing the ratio of the amount of air taken in from the mouth, the shutter can be adjusted as necessary to switch the air purifier to an appropriate operation state.
[0021]
Further, according to the invention of claim 6, the discharge passage in which the impeller of the centrifugal fan is disposed in the center is arranged symmetrically with respect to the rotation axis of the impeller so that the distance from the outer periphery of the impeller is Since the scroll wall is formed by the pair of scroll walls that gradually increase along the rotation direction of the vehicle, the angle range of the scroll wall whose distance from the outer periphery of the impeller gradually increases is as small as about 90 degrees. As a result, the increase in the distance of the scroll wall from the outer periphery of the impeller is reduced, so that the air purifier including the scroll wall is small and compact. Further, a part of the scroll wall forming the discharge passage is arranged so as to be in contact with the contour of a predetermined rectangular area in the casing when viewed from the rotation axis direction of the impeller, and extends substantially in the tangential direction of the impeller. The shape of each tip of the discharge passage led to the outlet is substantially matched with the contour of the rectangular region when viewed from the direction of the rotation axis of the impeller, so that the rectangular region with respect to the required size of the discharge passage is The size is minimized, and the compactness of the air purifier is improved.
[0022]
According to the air purifier having the predetermined rectangular area as a rectangular area defined by the outer plate of the casing, the size of the casing defined by the outer plate with respect to the required size of the discharge passage is minimized. Compactness is definitely improved.
[0023]
According to the air purifier, at least one of a control device for controlling the operation of the air purifier and the suction passage is arranged in a region other than the discharge passage in the rectangular region when viewed from the rotation axis direction of the impeller. For example, the provision of the control device or the suction passage does not hinder the compactness of the air purifier.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an air purifier according to the present invention will be described with reference to the embodiment shown in FIGS. The air purifier of this embodiment includes a casing A and a centrifugal fan 26 provided at a central portion inside the casing A. In the casing A, first and second suction passages C1, which supply air taken in from first and second air suction ports 12, 13 provided at two different positions of the casing A to the centrifugal fan 26. C2 and two discharge passages B for guiding the air sent from the centrifugal fan 26 to the outlets 21 provided on both sides of the front surface of the casing A are formed. A dust collecting filter 27 is provided in the two suction passages C1 and C2 at a position immediately before the suction side of the centrifugal fan 26, and a deodorizing filter 28 is provided at the end of each discharge passage B. Further, a shutter 30 that changes the ratio of the amount of air sucked from each of the air suction ports 12 and 13 is provided in a part of the suction passage C1 that communicates with the first air suction port 12.
[0025]
As shown in FIGS. 1 to 3, the casing A includes a casing main body 10, which is a synthetic resin molded product, an intermediate cover 15 provided on the front side thereof, and a front surface covering the front sides of the two members 10, 15. The cover 20 is integrally connected so as to be separable. In a use state of this embodiment, FIG. 1 is a front view of the casing main body 10 viewed from the horizontal direction, and FIG. 2 is a cross-sectional view of the entire casing A viewed from bottom to top. For convenience, the upper and lower parts in FIG. 2 will be described as upper and lower parts.
[0026]
As shown mainly in FIGS. 1 and 2, the casing body 10 is in the shape of a horizontally long rectangular box with an open upper side, and a step portion 10 a having a substantially constant width is formed at a substantially middle portion of four sides of the inner surface in the vertical direction. Have been. Inside the outer plate 10b of the casing main body 10 below the step portion 10a, a pair of upper and lower scroll walls 11a and 11b form a rotation axis of the impeller 26a by a plate-like portion rising from the bottom plate of the casing main body 10. It is formed symmetrically with respect to the point. As shown in FIG. 1, the scroll walls 11a and 11b move from the tongue portion 11c closest to the impeller 26a of the centrifugal fan 26 along the rotation direction of the impeller 26a (see the arrow R). The distance from the outer periphery of the impeller 26a gradually increases, and the tip of each scroll wall 11a is connected to the left and right outer plates 10b of the casing main body 10 below the stepped portion 10a. An extension 11d extending from the tongue 11c to the opposite side of the scroll walls 11a and 11b extends parallel to the left and right outer plates 10b of the casing body 10 and is connected to the front and rear outer plates 10b. Accordingly, each of the discharge passages B formed by the scroll walls 11a and 11b extends from the predetermined position of the impeller 26a to both sides in a substantially tangential direction of the impeller 26a, and each of the front ends on the side of the outlet 21 is formed in the casing main body 10a. And is bent so as to be parallel to the rotation axis direction of the impeller 26a. As described above, since each end of the discharge passage B is formed by the outer plate 10b of the casing body 10, the shape of this portion is defined by the outer plate 10b of the casing A when viewed from the rotation axis direction of the impeller 26a. Substantially coincides with the outline of the rectangular area to be processed. Further, a part of the scroll walls 11a and 11b is disposed so as to be in contact with the outer plate 10b of the casing A, that is, the outline of the above-described rectangular area.
[0027]
As shown in FIG. 2, the intermediate cover 15 has a stepped portion 10 a of the casing body 10 and a scroll wall 11 a at a peripheral portion outside the square central recess 16 at the center where the supporting stepped portion 17 is formed in the middle. , 11b are supported in contact with the upper surfaces thereof, and each outer edge is engaged with the inner surface of the upper edge of the casing body 10. A large round opening 16a is formed at the center of the bottom surface of the square central concave portion 16, and a circular support cover 16b is concentric with the opening 16a in the central concave portion 16 through a number of radially and circumferentially extending support bars. It is supported by. The motor 26b of the centrifugal fan 26 is mounted concentrically on the support cover 16b via a bracket (not shown), and an impeller 26a is mounted on the lower end of the motor shaft of the motor 26b via a damper for preventing noise. Have been. An annular gap provided with a large number of support bars between the opening 16a and the support cover 16b forms a suction port of the centrifugal fan 26.
[0028]
As shown in FIG. 1 by a two-dot chain line, the intermediate cover 15 has rectangular discharge ports at positions corresponding to the outlets 21 formed on both sides (upper right and lower left in FIG. 1) of the front cover 20 described later. 18 are formed. In FIG. 1, a shelf plate 19 which is in contact with the step portion 10 a and the upper surface of the scroll wall 11 is formed above the left discharge port 18 and below the right discharge port 18. 2). When the intermediate cover 15 is attached to the casing body 10, most of the upper part of the space between the scroll walls 11 a and 11 b is closed by the lower surface of the central recess 16 and the shelf 19, and the remaining part communicates with the discharge port 18. Is done. The scroll walls 11 a and 11 b and the discharge port 18 form a pair of discharge passages B provided on both sides of the centrifugal fan 26 and guiding the air sent from the impeller 26 a to each of the discharge ports 21.
[0029]
A rectangular plate-shaped dust filter 27 is mounted on the support step 17 which is located slightly above the bottom surface of the central recess 16 of the intermediate cover 15 where the suction port of the centrifugal fan 26 is formed so as to cover the suction port. And is detachably locked by a clip (not shown) or the like. The material of the dust collecting filter 27 is arbitrary such as filter paper, nonwoven fabric, open-cell foam, and the like. As shown in FIG. 2, a downward flange 19b is formed on the shelf plate 19 of the intermediate cover 15 at the upper left in FIG. 1, at a position corresponding to the first air intake port 12 formed on the bottom plate of the casing body 10. Provided introduction hole 19a. The upper part of the inner surface 25a of the cylindrical body 25 is fitted to the outer periphery of the flange 19b, and the upper space connected to the inside of the cylindrical body 25 and the introduction hole 19a passes through the outside air through the dust collecting filter 27. A first suction passage C1 to be introduced into the centrifugal fan 26 is formed.
[0030]
A shutter 30 is inserted into a round introduction hole 19a formed in the shelf plate 19 of the intermediate cover 15 and includes a cylindrical portion 31 provided with an opening 33 and a top plate portion 32 closing the upper end thereof, and can be moved up and down by a knob 30a. ing. In the opening 33, a net N for insect repelling, which is composed of vertical and circumferential bars, is formed. When the shutter 30 is pulled up as shown in FIG. 2, the shutter 30 opens the first suction passage C <b> 1 for introducing outside air into the centrifugal fan 26, and reaches a position where the outer edge of the top plate 32 contacts the upper surface of the shelf 19. In the pushed state, the first suction passage C1 is closed.
[0031]
The front cover 20 covers the entire upper side of the casing main body 10 and the intermediate cover 15 as shown in FIGS. 1 to 3, and has a large number of vertical bars and horizontal bars on both sides thereof (upper right and lower left in FIG. 1). Is formed in a rectangular outlet 21. The plate-shaped dust filter 27 is located between the suction port of the centrifugal fan 26 and the center of the front cover 20, and the partition plate 22 protruding downward from the inner surface of the front cover 20 is formed on the upper surface of the dust filter 27. And separates the space between the inner surface of the front cover 20 and the upper surface of the dust filter 27 into a part of the first suction passage C1 and the second suction passage C2. A second air suction port 13 formed of a number of slits formed in the vicinity of the step portion 10a of the outer plate 10b at the front and rear of the casing body 10 is communicated with the second suction passage C2, and suction is performed from the second air suction port 13. The air in the room is introduced into the centrifugal fan 26 from the second suction passage C2 through the dust collection filter 27.
[0032]
A part of the first suction passage C1 communicating with the first air suction port 12 of the bottom plate of the casing body 10 includes a scroll wall 11a which is an upper left portion in FIG. 1 and a casing body 10 which is below the step portion 10a. Are provided in a triangular space formed between the corners of the outer plate 10b. A cylindrical body 25 made of polystyrene foam is attached to the outer periphery of the flange 12a of the first air intake port 12 by fitting a small-diameter portion below the inner surface 25a thereof, and the upper end surface of the cylindrical body 25 is a stepped portion. It is almost the same height as 10a. The operation of the air purifier is controlled by a triangular space formed between the corners of the outer plate 10b of the casing body 10 on the shelf 19 of the intermediate cover 15 at the lower right in FIG. A control device 29 is provided. That is, a part of the first suction passage C1 and the control device 29 are disposed in a region other than the discharge passage B in the above-described rectangular region when viewed from the rotation axis direction of the impeller 26a.
[0033]
At the end of each discharge passage B, a deodorizing filter 28 for deodorizing and removing harmful gas is provided almost in parallel with the portion of the front cover 20 where the outlet 21 is formed. The deodorizing filter 28 of this embodiment uses a photocatalyst, and is formed by extruding a mixture of a catalyst, activated carbon, and a binder so as to form a number of cell passages having a small passage width arranged in parallel with each other. After that, it has a honeycomb structure cut to a predetermined thickness, and the width of the passage is considerably smaller than the thickness. The deodorizing filter 28 is attached to the step at the end of each discharge passage B so that each cell passage is parallel to the direction toward the front. Although the cross-sectional shape of the cell passage of this embodiment is a small square, it may be hexagonal or another cross-sectional shape. An ultraviolet irradiator 28a for activating the deodorizing filter 28 is provided in the discharge passage B on the front side (the centrifugal fan 26 side) of each deodorizing filter 28. The ultraviolet irradiator 28a is a device in which two LEDs are provided on a part of an elongated substrate and sealed in a transparent synthetic resin tube.
[0034]
As shown in FIG. 2, this air purifier is used by being installed so as to be half-buried in a wall 40 of a building such as a house. The inner wall plate 40a of the wall 40 is formed with a mounting opening 40c into which a portion below the step 10a of the casing body 10 of the air purifier can be inserted, and the outer surface of the step body 10a of the casing body 10 is formed of the inner wall plate 40a. It is attached to the inner wall plate 40a so as to contact the surface. A hole 40d is formed in the outer wall plate 40b at a position corresponding to the first air suction port 12, and the tip of the suction cylinder 41 inserted from the outside through the hole 40d is connected to the first air suction port 12, The first suction passage C1 is communicated with the outside air.
[0035]
The ventilation operation of the air purifier is performed with the shutter 30 opened. In this state, the outside air sucked from the first air suction port 12 on the back of the casing main body 10 through the first suction passage C1 and the second air suction on the side surface of the casing main body 10 through the second suction passage C2. Any room air sucked from the port 13 is sucked into the centrifugal fan 26 from the dust collection filter 27 through the suction port. The opening 16a forming the suction port to the centrifugal fan 26 is a circular shape smaller than the rectangular plate-shaped dust filter 27 and the supporting step 17 supporting the same, but the supporting step 17 is in the height direction of the central recess 16. Since a considerable space is formed between the lower surface of the dust filter 27 and the bottom surface of the central concave portion 16, air flows around the dust filter 27 outside the opening 16 a. And the dust collecting filter 27 is effectively used on almost the entire surface. The air sent out from the impeller 26a is guided by the scroll walls 11a and 11b, enters the discharge passages B on both sides, all passes through the deodorizing filter 28, and from the outlets 21 formed on both sides of the front cover 20. It is blown out toward the front. Each air from each of the suction passages C1 and C2 is cleaned by removing dust when passing through the dust collecting filter 27 and deodorizing and removing harmful gas when passing through the deodorizing filter 28.
[0036]
The circulation operation is performed with the shutter 30 closed. In this state, only the room air sucked from the second air suction port 13 on the side surface of the casing body 10 through the second suction passage C2 passes through the dust collection filter 27. It is sucked by the impeller 26a of the centrifugal fan 26. However, other effects are the same as those of the ventilation operation.
[0037]
In the embodiment described above, the centrifugal fan 26 is provided at the center of the central concave portion 16 of the casing body 10, the outlet 21 is provided on both sides of the front cover 20, and the discharge passage B is provided on both sides of the centrifugal fan 26. Since the air sent from 26a is sent to each outlet 21 on both sides, the angle range of scroll walls 11a and 11b whose distance from the outer periphery of impeller 26a gradually increases becomes as small as about 90 degrees. As a result, the maximum value of the distance from the outer periphery of the impeller 26a in the scroll walls 11a and 11b decreases, so that the scroll walls 11a and 11b are miniaturized. The casing A of the air purifier including the scroll walls 11a and 11b is small. And compact. Further, the air passing through the discharge passage B is blown out toward the front from outlets 21 formed on both sides of the front cover 20, while outside air for ventilation is passed through the first suction passage C1 to the first air outlet on the rear surface of the casing body 10. The air for circulation is introduced into the centrifugal fan 26 from the air intake port 12, and the indoor air for circulation is introduced into the centrifugal fan 26 from the second air intake port 13 on the side surface of the casing body 10 via the second intake passage C2. A part of the air blown out from the outlet 21 is not immediately sucked into the centrifugal fan 26 from the first and second air inlets 12 and 13 (particularly the second air inlet 13). As a result, the efficiency of air cleaning does not decrease.
[0038]
Further, in this embodiment, a dust filter 27 is provided in the central concave portion 16 of the intermediate cover 15, and suction passages C1 and C2 are formed between the dust filter 27 and the inner surface of the front cover 20. A deodorizing filter 28 is provided at the end of each of the discharge passages B that guides the air sent out from the front cover 20 to the blowout ports 21 formed on both sides of the front cover 20. Since the levers 27 and 28 do not overlap with each other, and the thickness of the casing A is reduced accordingly, the air purifier becomes smaller and more compact.
[0039]
Further, in this embodiment, the deodorizing filter 28 uses a photocatalyst, and the ultraviolet irradiator 28a for irradiating the deodorizing filter 28 with ultraviolet rays is provided in the discharge passage B which is on the near side of the end of the discharge passage B. . Since the photocatalyst has a relatively high ability to decompose odors and harmful gases, this can enhance the effects of deodorization and harmful gas decomposition. Moreover, since the ultraviolet irradiator 28a is provided in the discharge passage B where there is no interfering member, it is not necessary to expand the casing A to provide the ultraviolet irradiator 28a. However, the deodorizing filter of the present invention is not limited to a filter using a photocatalyst, and a normal temperature catalyst that deodorizes at room temperature and decomposes harmful gases such as formaldehyde can also be used.
[0040]
In this embodiment, the deodorizing filter 28 has a honeycomb structure having a large number of cell passages having a small passage width, and is provided at the end of each discharge passage B so that each cell passage is parallel to the direction toward the front. In this case, the air that has passed through the discharge passage B is rectified by passing through the honeycomb structure of the deodorizing filter 28 and is blown out from the blowout port 21. As a result, the airflow blown out from the outlet 21 is improved in directivity toward the front and is less likely to spread laterally, so that a part of the air that has been cleaned and is blown out from the outlet 21 is immediately reduced to the first and the first. The suction from the second air inlets 12 and 13 (especially the second air inlet 13) is further reduced. Further, even when this air purifier is installed in a corner of a room formed by two walls orthogonal to each other, the air flow rarely spreads sideways. There is less pollution. However, the present invention can also be implemented using a deodorizing filter that does not use a carrier having a honeycomb structure.
[0041]
Further, in this embodiment, the first suction passage C1 sucks outside air from the first air suction port 12 formed on the back surface of the casing main body 10, and the second suction passage C2 is formed on the second side formed on the side surface of the casing main body 10. The indoor air is sucked from the air suction port 13 of each of the air suction ports 13 and supplied to the centrifugal fan 26, and the shutter 30 provided in the first suction passage C1 is opened and closed or its opening degree is changed, so that each of the air suction ports 12 and The ratio of the intake amount of the outside air and the intake amount of the room air to be taken in from the position 13 is changed. However, the present invention can be implemented without the shutter 30. When the shutter 30 is provided, when the shutter 30 is closed, the amount of outside air sucked from the first air suction port 12 becomes 0, and when the shutter 30 is fully opened, the room sucked from the second air suction port 13 is provided. The ratio of the amount of outside air sucked from the first air suction port 12 to the amount of air is maximized. The ratio of room air to outside air when the shutter 30 is fully opened can be changed by changing the position of the partition plate 22 provided on the front cover 20 and changing the ratio of the flow path resistance of the two suction passages C1 and C2. This partition plate 22 can also be omitted.
[0042]
Furthermore, in this embodiment, the centrifugal fan 26 provided at the center of the casing A is symmetrically arranged with respect to the rotation axis of the impeller 26a, and the distance from the outer periphery of the impeller 26a is in the rotational direction of the impeller 26a. A discharge passage B is formed by a pair of scroll walls 11a, 11b that gradually increase along the width of the scroll wall 11a, 11b such that a part of the scroll wall 11a, 11b is in contact with the outline of a rectangular area defined by the outer plate 10b of the casing A. The end portions of the discharge passage B are formed by the outer plate 10 b of the casing body 10. By doing so, the size of the casing A defined by the outer plate 10b with respect to the required size of the discharge passage B is minimized, and the compactness of the air purifier is improved.
[0043]
Further, in this embodiment, the outer plate 10b of the casing body 10 which is rectangular when viewed from the direction of the rotation axis of the impeller 26a of the centrifugal fan 26 is located near one corner of each of the opposing sides with the above-mentioned rotation axis interposed therebetween. Each air outlet 21 is provided, and the operation of the air purifier is controlled in a substantially triangular area inevitably generated between each of the other corners and the scroll walls 11a and 11b opposed to each other with the same rotation axis interposed therebetween. Since the control device 29 and the suction passages C1 and C2 are provided, a special space for providing the control device 29 and the suction passages C1 and C2 is not required. Is not inhibited.
[Brief description of the drawings]
FIG. 1 is a front view showing a casing main body of an embodiment of an air purifier according to the present invention.
FIG. 2 is an overall sectional view taken along line 2-2 of FIG. 1 in an assembled state of the embodiment described above.
FIG. 3 is an overall perspective view of the above-described embodiment in an assembled state.
[Explanation of symbols]
10b: outer plate, 11a, 11b: scroll wall, 12, 13: air inlet (first air inlet, second air inlet), 20: front cover, 21: outlet, 26: centrifugal fan, 26a impeller, 27 dust collecting filter, 28 deodorizing filter, 28a ultraviolet irradiator 28a, 30 shutter, A casing, B discharge passage, C1, C2 suction passage (first suction passage, second suction passage) Intake passage).

Claims (8)

A centrifugal fan is provided in the casing, and the centrifugal fan guides air sent from the impeller by a scroll wall whose distance from the outer periphery of the impeller gradually increases along the rotation direction of the impeller. A discharge passage leading to the impeller is formed, and a filter is provided in at least one of the suction passage and the discharge passage for introducing air from the air suction port of the casing to the impeller. In the air purifier, the impeller of the centrifugal fan is provided in a central portion of the casing, the outlet is provided on both sides of a front cover of the casing, and the discharge passage is provided on both sides of the impeller. The air sent from the car is sent from a predetermined position in the rotation direction of the impeller to each of the outlets on the both sides, and is blown toward the front. Out, the suction passage air cleaner characterized by being configured so as to suck the air from at least one of the back and side of the casing. 2. The air purifier according to claim 1, further comprising: a dust collecting filter that covers immediately before a suction side of the centrifugal fan, and the suction passage is formed between the dust collecting filter and a central inner surface of the front cover. An air purifier, wherein a deodorizing filter is provided at an end of the discharge passage inside the outlet formed on both sides of the front cover. The air purifier according to claim 2, wherein the deodorizing filter uses a photocatalyst, and an ultraviolet irradiator that irradiates the deodorizing filter with ultraviolet light is provided in the discharge passage that is on the front side of the end of the discharge passage. An air purifier characterized by being provided. 4. The air purifier according to claim 2, wherein the deodorizing filter has a honeycomb structure including a plurality of cell passages having a small passage width and arranged in parallel to a direction toward the front. 5. And air purifier. 4. The air purifier according to claim 1, wherein the suction passage includes a first air suction port formed on a back surface of the casing and a second air suction port formed on a side surface of the casing. 5. An air purifier, wherein air from different locations is taken in from both sides, and a shutter for changing a ratio of an amount of air taken in from each of the air intake ports is provided in a part of the intake passage. A centrifugal fan in the casing, a suction passage for guiding air sucked from an air suction port to the centrifugal fan, a discharge passage for guiding air discharged from the centrifugal fan to an outlet, and at least one of the suction passage and the discharge passage. In an air purifier used by being attached to a wall of a building, comprising a filter provided on any one of the air purifiers,
The discharge passage in which the impeller of the centrifugal fan is disposed in the center is disposed symmetrically with respect to the rotation axis of the impeller, and the distance from the outer periphery of the impeller is along the rotation direction of the impeller. Formed by a pair of gradually increasing scroll walls,
A part of the scroll wall is disposed so as to be in contact with a contour of a predetermined rectangular area in the casing when viewed from a rotation axis direction of the impeller,
The shape of each end of the discharge passage, which extends substantially in the tangential direction of the impeller and is guided to the outlet, substantially matches the contour of the rectangular region when viewed from the rotation axis direction of the impeller. An air purifier characterized by the following. The air purifier according to claim 6, wherein the predetermined rectangular area is a rectangular area defined by an outer plate of the casing. The air purifier according to claim 6 or 7, wherein a control device that controls an operation of the air purifier in a region other than the discharge passage in the rectangular region when viewed from a rotation axis direction of the impeller; An air cleaner, wherein at least one of the suction passages is provided.

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