JP4915355B2 - Indoor unit of air conditioner - Google Patents

Description

  The present invention relates to an indoor unit of an air conditioner configured to remove dust trapped by an air filter.

  2. Description of the Related Art Conventionally, an indoor unit of an air conditioner provided with an air filter at an air suction port has been known that includes dust removing means for removing dust trapped by the air filter. As this type of indoor unit, as disclosed in, for example, Patent Document 1 or the like, a unit configured to suck dust attached to an air filter with a suction nozzle as a dust removing unit, or as a dust removing unit A brush configured to scrape dust off is known.

In any of the above-described configurations, components such as a heat exchanger and an indoor fan are disposed in a box-shaped casing, and an air filter, a dust removing means, and the like are provided at the suction port of the indoor fan. It is arranged. The indoor side of the casing is covered with an indoor panel.
JP 2005-83612 A

  By the way, in the configuration including the dust removing means for removing the dust attached to the air filter as in the conventional example, the dust removing means is viewed in plan view so that the dust attached to the air filter can be removed. However, when the air filter is removed at the time of maintenance, there is a problem that the air filter is caught on the dust removing means and it is difficult to remove the air filter.

  The present invention has been made in view of such points, and an object thereof is to interfere with dust removing means in an indoor unit of an air conditioner in which an air filter is provided on the suction side of an indoor fan. Therefore, there is a configuration in which the air filter can be easily detached.

  In order to achieve the above object, in the indoor unit (3) of the air conditioner (1) according to the present invention, the dust removing means (50) for removing dust trapped by the air filter (30) is pivotally supported. The dust removing means (50) can be easily moved to a position where interference with the air filter (30) can be avoided by making the means (81, 86) rotatable.

  Specifically, in the first invention, in the casing (18, 101), an indoor heat exchanger (22), an indoor fan (21) for blowing out air sucked from the room to the indoor side, and the indoor fan (21 ) And an indoor unit of an air conditioner provided with an air filter (30) provided on the suction side.

And a dust removing means (50) for removing dust trapped by the air filter (30), and one end side of the dust removing means (50), and the position of the dust removing means (50) is The dust removing means (50) is arranged so as to be switchable between a dust removing position for removing dust from the air filter (30) and a standby position outside the air filter (30) with respect to the dust removing position. Rotating support means (81, 86) for rotatably supporting , and a ventilation partition plate (23, 24) for partitioning the inside of the casing (18, 101) into a suction side and a blow-out side of the indoor fan (21) The rotation support means (81, 86) is configured to rotatably support the dust removing means (50) with respect to the ventilation partition plate (23, 24), and the rotation support means (81, 86) moves the dust removing means (50) to the standby position while rotating the dust removing means (50) to the standby position. As is spaced below the air filter (30), assumed to be movable in downward according to the rotation.

  With this configuration, the dust removing means (50) can be turned by the turning support means (81, 86) connected to one end thereof, and the dust removing means (50) can be moved from the air filter (30). It is possible to easily switch between a dust removal position for removing dust and a standby position outside the air filter (30) with respect to the dust removal position. Thereby, when removing an air filter (30), it can prevent that this air filter (30) interferes with a dust removal means (50), and can remove this air filter (30) easily.

In addition, as described above, the dust removing means (50) is configured to be rotatable so that it is not necessary to remove the dust removing means (50) when removing the air filter (30). Workability can be improved .

In addition, the above configuration makes it possible to remove the air filter (30) while the dust removing means (50) is supported by the ventilation partition plates (23, 24) in the casing (18, 101). Workability can be improved .

Further, according to the above configuration, even when the standby position of the dust removing means (50) is a position where a part of the dust removing means (50) overlaps the air filter (30) in a plan view, the rotating support is provided. By rotating the means (81, 86), the dust removing means (50) can be separated below the air filter (30), and when the air filter (30) is detached, the air filter (30) Can be prevented from interfering with the dust removing means (50).

The rotation support means (81, 86) is provided so as to pass through the suction side partition plate (25) located below the ventilation partition plate (23, 24), and the rotation support means. (81, 86) and the suction side partition plate (25) are in contact with each other vertically when the dust removing means (50) is in the dust removing position, and when the dust removing means (50) is in the standby position. Protrusions (86i, 25b) are preferably provided at positions where they do not contact each other ( second invention).

  Thereby, the dust removing means (50) can be moved up and down with respect to the air filter (30) by turning the turning support means (81, 86). That is, the dust removing means (50) is located at the dust removing position, and the protrusion (86i) of the rotation support means (81, 86) and the protrusion (25b) of the suction side partition plate (25) In the state where they are in contact with each other vertically, the rotation support means (81, 86) can be lifted with respect to the suction side partition plate (25), and the rotation support means (81, 86) The connected dust removing means (50) can be lifted and brought into close contact with the air filter (30). On the other hand, the dust removing means (50) is positioned at the standby position, and the protrusion (86i) of the rotation support means (81, 86) and the protrusion (25b) of the suction side partition plate (25) are When not in contact, the rotation support means (81, 86) approaches the suction side partition plate (25), so that the dust removal means (50) is also positioned below the dust removal position. . Thereby, when removing the said air filter (30), it can prevent that this air filter (30) interferes with the said dust removal means (50).

The protrusions (86i, 25b) are respectively formed on protrusions extending in the rotation direction of the rotation support means (81, 86), and the dust removal means (50) is in the standby position. It is preferable that the end portions facing each other at a certain time are inclined so that the protrusion height decreases toward the tip in the extending direction of the protrusions (86i, 25b) ( third invention). .

  As a result, the rotation support means (81, 86) is rotated so that the protrusions (86i, 25b) respectively formed on the rotation support means (81, 86) and the suction side partition plate (25) are applied. When the contact state or the contact state is changed to the separated state, the projecting portions (86i, 25b) can be smoothly contacted / separated.

Moreover, it is preferable to further include drive means (95) for driving the rotation support means (81, 86) ( fourth invention). In particular, the driving means (95) is arranged so that the dust removing means (50) is positioned at the standby position when the air filter is attached / detached, while the dust removing means (50) is positioned at the dust removing position when the dust is removed. It is assumed that the support means (81, 86) is driven ( fifth invention).

  Thereby, the dust removing means (50) can be rotated by the driving means (95), and the dust removing means (50) is positioned at the dust removing position when removing the dust, while the air filter (30) is attached and detached. Since it can sometimes be positioned at the standby position, the air filter (30) can be easily detached without manually moving the dust removing means (50) when the air filter (30) is detached. Become.

Further, the dust collecting means (90) for collecting the dust removed by the dust removing means (50), and the dust removed by the dust removing means (50) are collected by the dust collecting means (90). preferably, the dust transfer means (80) for conveying further comprises a (the sixth invention).

  By doing so, the dust removed from the air filter (30) by the dust removing means (50) can be conveyed by the dust conveying means (80) and collected in the dust collecting means (90). The frequency of collection can be reduced, and maintenance work can be reduced.

The dust removing means (50) includes a dust removing unit (51, 52, 61) for removing dust from the air filter (30), and dust removed by the dust removing unit (51, 52, 61). And the dust transport means (80) transports the dust to the dust collecting means (90) using the air blown from the indoor fan (21). The rotation support means (81, 86) has a ventilation path (89) formed therein so as to constitute a part of the dust transfer means (80). The storage section (62) of the removing means (50) is configured so that the indoor fan passes through the ventilation path (89) in the rotation support means (86) so as to constitute a part of the dust transfer means (80). It is preferable to communicate with the blowout side of (21) ( seventh invention).

  In this way, the dust removing means (50) is provided with the dust removing section (51, 52, 61) and the storage section (62), and the storage section (62) is a part of the dust transport means (80). The dust removed by the dust removing section (51, 52, 61) is once collected in the storage section (62), and the dust is efficiently transported into the dust collecting means (90) by the dust transport means (80). can do. That is, the ventilation path (89) which comprises a part of dust conveyance means (88) is formed in the inside of a rotation support means (81, 86), and the said storage part (62) is passed through this ventilation path (89). Is connected to the blowing side of the indoor fan (21), so that the storage part (62) of the dust removing means (50) uses the air blown from the indoor fan (21) to transfer dust ( 80) part of. Thereby, the dust in the said storage part (62) can be efficiently conveyed to a dust collection means (90), and dust can be reliably collected in this dust collection means (90).

The rotation support means (81, 86) includes an introduction duct (86) that constitutes a part of the ventilation path (89), and the introduction duct (86) is cylindrical. The dust removing means (50) is configured to rotate around the introduction duct (86) ( eighth invention).

  Thereby, using the air blown from the indoor fan (21), the dust removing means (50) is rotated while conveying the dust in the dust removing means (50) to the dust collecting means (90). Can do. That is, with the above-described configuration, it is possible to achieve both reduction in maintenance work by collecting dust in the dust collecting means (90) and improvement in work efficiency at the time of attaching / detaching the air filter (30).

The casing (18, 101) includes a ventilation partition plate (23, 24) that divides the casing (18, 101) into a suction side and a blow-out side of the indoor fan (21), and the ventilation partition plate (23, 24) and a suction side partition plate (25) located below, and the introduction duct (86) is provided between the ventilation partition plate (23, 24) and the suction side partition plate (25). The upstream duct (86a) located at the bottom and the downstream duct (86b) located below the suction side partition (25) are connected so as to sandwich the peripheral edge of the suction side partition (25). ( 9th invention).

  In this way, the introduction duct (86) of the rotation support means (81, 86) is constituted by the two members (86a, 86b), and these members sandwich the opening peripheral portion of the suction side partition plate (25). By connecting in this manner, the introduction duct (86) can rotate with respect to the suction side partition plate (25) in a state where the introduction duct (86) is inserted through the suction side partition plate (25). Thereby, the air blown from the indoor fan (21) can be introduced into the storage part (62) of the dust removing means (50) by the introduction duct (86) and conveyed to the dust collecting means (90). In addition, the introduction duct (86) can be rotated with respect to the suction side partition plate (25), so that the dust removing means (50) can be rotated during maintenance to cause the air filter (30) to rotate. It can also be removed without interfering with the dust removing means (50).

In the above configuration, the air filter (30) has a circular shape in plan view, and the other end side of the dust removing means (50) is connected to the central portion (33) of the air filter (30). ( 10th invention) is preferable.

  In this way, the dust removing means (50) can be arranged so as to extend in the radial direction with respect to the circular air filter (30), and the dust removing means (50) and the air filter (30) can be arranged relative to each other. By rotating, the dust trapped by the air filter (30) can be efficiently removed by the dust removing means (50). When removing the air filter (30), as in the first aspect of the invention, the dust removing means (50) is rotated so that the outer position of the air filter (30) is seen in plan view. It is possible to move the dust removing means (50) until the air filter (30) interferes with the dust removing means (50).

The dust removing means (50) is connected to one end side of the rotation support means (81, 86) in a state in which the connection with the central portion (33) of the air filter (30) on the other end side is released. ) To the standby position (the eleventh invention).

  With such a configuration, the dust removing means (50) can be easily rotated around one end side, and the work of attaching and detaching the air filter (30) becomes easier.

In addition, the other end side of the dust removing means (50) is between the suction side partition plate (25) disposed on the suction side of the indoor fan (21), and the central portion of the air filter (30) ( It is preferable to be fixed to the suction side partition plate (25) in a state of sandwiching 33) (the twelfth invention).

  As a result, the other end side of the air filter (30) and the dust removing means (50) can be fixed together with the suction side partition plate (25). The means (50) can be rotated and the air filter (30) can be removed, so that the workability during maintenance can be improved.

Further, a rotation shaft portion (28) protruding downward is provided on the lower surface of the suction side partition plate (25), and the rotation shaft portion is disposed at the center portion (33) of the air filter (30). An insertion hole (33a) into which (28) can be inserted is formed, and the insertion hole (33a) of the air filter (30) is provided at the other end of the dust removing means (50). It is preferable that a filter mounting portion (68) is provided that is connected to the rotary shaft portion (28) by the locking member (28a) in a state where the rotary shaft portion (28) of (25) is inserted (first). 13 inventions).

  Accordingly, the air filter (30) can be sandwiched between the suction side partition plate (25) and the dust removing means (50) in a rotatable state. Accordingly, a configuration in which the air filter (30) and the dust removing means (50) can be rotated relative to each other can be realized, and the air filter (30) and the dust removing means (50) can be combined into the suction side partition plate (25). It can be fixed, and by releasing this fixed part during maintenance, it is possible to rotate the dust removing means (50) and remove the air filter (30).

The locking member (28a) has a shaft portion (28c) that engages with the rotating shaft portion (28), and has a diameter larger than that of the shaft portion (28c) on one end side of the shaft portion (28c). A head portion (28b) formed, and the filter mounting portion (68) includes a distal end portion of the shaft portion (28c) of the locking member (28a) and the rotating shaft portion (28). The filter mounting portion (68) extends in the rotating direction of the dust removing means (50) so that the filter mounting portion (68) can be detached from the lower position of the rotating shaft portion (28) in the horizontal direction. A slit portion (68a) is preferably formed ( fourteenth invention).

  In this way, the filter mounting portion (68) can be moved to the locking member (68) only by loosening the engagement without removing the locking member (28a) from the rotating shaft portion (28) of the suction side partition plate (25). 28a) and the rotary shaft part (28) can be detached horizontally. That is, the filter mounting portion (68) is formed with a slit portion (68a) extending in the rotational direction of the dust removing means (50), so that the engagement of the locking member (28a) is loosened. When the dust removing means (50) is rotated, the filter mounting portion (68) is slid horizontally with respect to the shaft portion (28c) of the locking member (28a), and the filter mounting portion (68) can be detached from the position below the rotating shaft (28) in the horizontal direction. Thereby, the dust removing means (50) can be rotated without removing the locking member (28a).

In particular, the locking member (28a) preferably has a head portion (28b) smaller than the diameter of the insertion hole (33a) of the air filter (30) and larger than the width of the slit portion (68a) ( 15th invention).

Thereby, it becomes possible to remove the air filter (30) without removing the locking member (28a) from the rotating shaft part (28) of the suction side partition plate (25). That is, since the head (28b) of the locking member (28a) has a smaller diameter than the insertion hole (33a) of the central portion (33) of the air filter (30), the head (28b) is inserted into the insertion hole ( 33a), and the air filter (30) can be removed without removing the locking member (28a). On the other hand, since the head (28b) of the locking member (28a) is larger than the width of the slit (68a) of the filter mounting portion (68), the locking member (28a) causes the filter mounting portion (68). Can be locked to the rotating shaft (28) .

  As described above, according to the present invention, the dust removing means (50) for removing the dust trapped by the air filter (30), the dust removing position for removing dust from the air filter (30), Rotating support means (81, 86) for rotatably supporting the dust removing means (50) is provided so that the dust removing means (50) can be moved to a standby position outside the air filter (30) with respect to the dust removing position. Therefore, when removing the air filter (30), the dust removing means (50) can be easily moved to a position where the air filter (30) can be easily removed, and workability during maintenance work can be improved.

Further, according to the present invention, the dust removing means (50) is provided with respect to the ventilation partition plate (23, 24) that partitions the suction side and the blow-out side of the indoor fan (21). 86), the above configuration can be realized.

According to the present invention, the rotation support means (81, 86) moves the dust removal means (50) to the air filter (30) while rotating the dust removal means (50) to the standby position. The dust removing means (50) is configured to be movable downward so as to be separated from the air filter. Therefore, even when the standby position of the dust removing means (50) overlaps the air filter (30) in a plan view, The dust removing means (50) is separated below the air filter (30) by the rotation of the moving support means (81, 86), so that the air filter (30) does not interfere with the dust removing means (50). It can be removed. Therefore, workability at the time of performing maintenance of the air filter (30) can be improved.

According to the second aspect of the present invention, each of the rotation support means (81, 86) and the suction side partition plate (25) that passes through the rotation support means (81, 86) is provided with dust removal means ( Protrusions (86i, 25b) are provided at positions that abut against each other when the position of 50) is the dust removal position and not abut against each other when the position of the dust removal means (50) is the standby position. Therefore, the configuration of the first invention can be easily realized.

According to the third aspect of the invention, the protrusion (86i, 25b) includes the dust removing means (50) out of both ends of the protrusion extending in the turning direction of the turning support means (81, 86). ) In the standby position, the projecting heights of the ends facing each other become lower toward the distal end in the extending direction, so that the rotation support means (81, 86) and When the protruding parts (86i, 25b) of the suction side partition plate (25) are in contact with or separated from each other, they can be smoothly contacted and separated, and the dust removal means (50) can be moved up and down smoothly. Can be made.

According to the fourth aspect of the present invention, since the rotation support means (81, 86) is configured to be driven by the drive means (95), the rotation support means (81, 86) is manually operated. Without driving, it can be driven by the driving means (95). In particular, according to the fifth invention, the driving means (95) is configured to position the dust removing means (50) at the standby position when the air filter is attached / detached, and at the dust removing position when removing the dust. Therefore, the air filter (30) can be easily detached.

According to the sixth invention, the dust collecting means (90) for collecting the dust removed by the dust removing means (50), and the dust removed by the dust removing means (50) Since the dust collecting means (80) for conveying to the dust collecting means (90) is provided, the frequency of dust collection can be reduced and the maintenance work can be reduced.

According to the seventh invention, the dust removing means (50) includes a dust removing part (51, 52, 61) and a storage part (62), and the storage part (62) Since it communicates with the blowing side of the indoor fan (21) via the ventilation path (89) formed in the rotation support means (81, 86), the storage part (62) and the ventilation path (89) A part of the dust transport means (80) for transporting the dust using the air blown from the indoor fan (21) is configured, and the dust in the storage part (62) is reliably placed in the dust collecting means (90). It is possible to improve the efficiency of dust collection by the dust collection means (90).

According to the eighth invention, the rotation support means (81, 86) includes a cylindrical introduction duct (86) constituting a part of the ventilation path (89), and the dust Since the removing means (50) is configured to be rotatable around the introduction duct (86), it is possible to reduce both dust collection work and improve workability of the air filter attaching / detaching work.

According to the ninth aspect of the present invention, the introduction duct (86) includes the upstream duct located between the ventilation partition plate (23, 24) and the suction side partition plate (25) positioned below the ventilation partition plate (23, 24). (86a) and the downstream duct (86b) located below the second partition plate (25) are connected so as to sandwich the opening peripheral edge of the suction side partition plate (25). The introduction duct (86) can be pivotally inserted into the suction side partition plate (25), and the rotatable dust removing means (50) can be realized. That is, with the above-described configuration, it is possible to configure the dust transfer means (80) that transfers dust by the air blown from the indoor fan (21), and to realize a configuration in which the dust removal means (50) can rotate. Can do. Therefore, with the above-described configuration, it is possible to improve the workability of the maintenance work while improving the dust collection efficiency of the dust collection means (90).

According to the tenth invention, when the air filter (30) has a circular shape, the other end side of the dust removing means (50) is connected to the central portion (33) of the air filter (30). Therefore, the dust removing means (50) can be arranged in the radial direction of the circular air filter (30), and by rotating the dust removing means (50) and the air filter (30) relatively, Dust adhering to the air filter (30) can be efficiently removed.

According to the eleventh invention, the dust removing means (50) is connected to one end side in a state where the connection with the central portion (33) of the air filter (30) on the other end side is released. Since the pivot support means (81, 86) is configured to be pivotable to the standby position, the air filter (30) can be attached and detached more easily.

According to the twelfth aspect of the invention, the dust removing means (50) is disposed on the suction side partition plate (25) in a state where the air filter (30) is sandwiched between the suction side partition plate (25). Since it is fixed, the dust removing means (50) and the air filter (30) can be easily attached and detached, and the workability during maintenance can be improved.

According to the thirteenth invention, the insertion hole (33a) of the air filter (30) is provided on the other end side of the dust removing means (50), and the rotating shaft portion (28) of the suction side partition plate (25). Since the filter mounting portion (68) that is locked to the rotary shaft portion (28) by the locking member (28a) from below is provided, the rotatable air filter (30) The configuration can be realized and the air filter (30) and the dust removing means (50) are fixed together, so that the workability of the maintenance work can be improved.

According to the fourteenth aspect of the invention, the filter mounting portion (68) has the filter member in a state where the tip of the shaft portion (28c) of the locking member (28a) is engaged with the rotating shaft portion (28). Since the slit portion (68a) extending in the rotational direction of the dust removing means (50) is formed so that the mounting portion (68) can be detached horizontally from below the rotating shaft portion (28), The dust removing means (50) can be rotated without removing the locking member (28a), and the workability during maintenance can be further improved.

Further, according to the fifteenth aspect , the head (28b) of the locking member (28a) is formed with a smaller diameter than the insertion hole of the air filter (30) and larger than the width of the slit portion (68a). Therefore, the air filter (30) can be removed without removing the locking member (28a), and the workability during maintenance can be further improved .

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It should be noted that the following description of the preferred embodiment is merely illustrative in nature and is not intended to limit the present invention, its application, or its use.

  This embodiment relates to an air conditioner (1) provided with an indoor unit (3) according to the present invention. In this air conditioner (1), the indoor unit (3) is installed on the ceiling of the indoor space. Hereinafter, the configuration of the air conditioner (1) according to the present embodiment will be described first, and then the configuration of the indoor unit (3) will be described.

<overall structure>
As shown in FIG. 1, the air conditioner (1) includes an outdoor unit (2) and an indoor unit (3). The outdoor unit (2) is provided with a compressor (4), an outdoor heat exchanger (5), an expansion valve (6), a four-way switching valve (7), and an outdoor fan (8). The indoor unit (3) is provided with an indoor heat exchanger (22) and an indoor fan (21).

  In the outdoor unit (2), the discharge side of the compressor (4) is connected to the first port (P1) of the four-way switching valve (7). The suction side of the compressor (4) is connected to the third port (P3) of the four-way switching valve (7).

  The outdoor heat exchanger (5) is configured as a cross fin type fin-and-tube heat exchanger. One end of the outdoor heat exchanger (5) is connected to the fourth port (P4) of the four-way switching valve (7). The other end of the outdoor heat exchanger (5) is connected to the liquid side closing valve (9a).

  The outdoor fan (8) is provided in the vicinity of the outdoor heat exchanger (5). In the outdoor heat exchanger (5), heat exchange is performed between the outdoor air sent by the outdoor fan (8) and the refrigerant flowing through the heat exchanger (5). Between the outdoor heat exchanger (5) and the liquid side closing valve (9a), an expansion valve (6) having a variable opening is provided. The second port (P2) of the four-way selector valve (7) is connected to the gas side shut-off valve (9b).

  The four-way selector valve (7) is in a first state in which the first port (P1) and the second port (P2) communicate with each other and the third port (P3) and the fourth port (P4) communicate with each other. (The state indicated by the solid line in FIG. 1), the second port (P1) and the fourth port (P4) communicate with each other, and the second port (P2) and the third port (P3) communicate with each other. The state (state indicated by a broken line in FIG. 1) can be switched.

  In this air conditioner (1), the heating operation is performed when the four-way switching valve (7) is in the first state, and the cooling operation is performed when the four-way switching valve (7) is in the second state. In the heating operation, in the refrigerant circuit shown in FIG. 1, a vapor compression refrigeration cycle in which the outdoor heat exchanger (5) functions as an evaporator and the indoor heat exchanger (22) functions as a condenser is performed. On the other hand, in the cooling operation, a vapor compression refrigeration cycle in which the outdoor heat exchanger (5) functions as a condenser and the indoor heat exchanger (22) functions as an evaporator is performed in the refrigerant circuit shown in FIG.

<Configuration of indoor unit>
Below, the structure of the said indoor unit (3) is demonstrated in detail based on FIGS. 2-4.

  As shown in FIGS. 2 and 3, the indoor unit (3) includes a main unit (10) including the indoor fan (21) and an indoor heat exchanger (22), and a chamber of the main unit (10). A cleaning unit (100) arranged on the inner side and a decorative panel (11) covering the indoor side of the cleaning unit (100) are provided. That is, the indoor unit (3) is formed by laminating the main unit (10), the cleaning unit (100), and the decorative panel (11) in order from the top as shown in FIG.

  The main unit (10) includes a box-shaped main casing (18) installed so as to open toward the room. In the main casing (18), an indoor fan (21), indoor heat An exchanger (22), a drain pan (23), a bell mouth (24) and an electrical component box (20) are disposed. In the present embodiment, a ventilation partition plate that covers the lower side of the main casing (18) of the main unit (10) is configured by a part of the drain pan (23) and a part of the bell mouth (24). .

  A heat insulating material (17) is laminated on the inner surface of the main casing (18). Further, as described later, the main casing (18) is suspended and supported from the ceiling surface of the ceiling so that the opening side is positioned on the indoor side.

  The indoor fan (21) is a so-called turbo fan. As shown in FIG. 2, the indoor fan (21) is disposed near the center of the main casing (18) of the main unit (10), and is located above the suction port (13) of the decorative panel (11) described later. ing. The indoor fan (21) includes a fan motor (21a) and an impeller (21b). The fan motor (21a) is fixed to the top plate of the main casing (18). The impeller (21b) is connected to the rotation shaft of the fan motor (21a).

  A bell mouth (24) is provided below the indoor fan (21) so as to communicate with the suction port (13). As shown in FIG. 2, the bell mouth (24) has a space on the upstream side of the indoor heat exchanger (22) in the indoor unit (3) that is connected to the indoor fan (21) side (the indoor fan (21) It is divided into a blowout side) and a suction grille (12) side (a suction side of the indoor fan (21)). By providing the bell mouth (24), the air sucked from below the bell mouth (24) by the indoor fan (21) is blown out in the circumferential direction above the bell mouth (24).

  Further, the ventilation partition plate of the present embodiment constituted by the bell mouth (24) and the drain pan (23) has one corner among the four corners of the rectangular parallelepiped body casing (18) as shown in FIG. An opening (24a) is formed at a position corresponding to the part. This opening (24a) constitutes an inlet of an introduction duct (86) described later. In addition, the opening (24a) is a cover (not shown) so that the air blown from the indoor fan (21) does not leak in the case of the indoor unit (3) without the cleaning unit (100) (main unit (10) only). Omitted).

  The indoor heat exchanger (22) is formed in a square shape in plan view, and is disposed in the main body casing (18) so as to surround the indoor fan (21). In the indoor heat exchanger (22), heat exchange is performed between the indoor air (blowing air) sent by the indoor fan (21) and the refrigerant circulating in the heat exchanger (22).

  The drain pan (23) is provided below the indoor heat exchanger (22). The drain pan (23) is for receiving drain water generated by condensation of moisture in the air in the indoor heat exchanger (22). The drain pan (23) is provided with a drain pump for draining drain water (not shown). In addition, the drain pan (23) is inclined so that drain water collects at the location where the drain pump is installed.

  The electrical component box (20) contains various electrical components for controlling the operation of components such as the indoor fan (21) in the indoor unit (3). As shown in FIG. It is arranged below the bell mouth (24) and outside the inlet so as not to overlap the inlet of the indoor fan (21) in plan view. In the present embodiment, the electrical component box (20) is arranged on the opposite side of the opening (24a) formed in the bell mouth (24) with the suction port of the indoor fan (21) in between. .

  The cleaning unit (100) includes a circular air filter (30), a dust removing means (50), a dust transporting means (80), a dust collection box in a substantially rectangular chamber casing (101) in plan view. (90) (dust collecting means) and the like are provided. That is, the cleaning unit (40) removes dust attached to the air filter (30) located on the suction side of the indoor fan (21) by the dust removing means (50) and removes it as will be described in detail later. The collected dust can be transferred into the dust collection box (90) by the dust transfer means (80) and stored in the dust collection box (90).

  The chamber casing (101) is formed in the same size as the main body casing (18) of the main body unit (10), and as shown in FIG. 102) is disposed on the indoor side of the main casing (18). In addition, a decorative panel (11) is attached to the indoor side of the chamber casing (101) with a seal member (103) interposed therebetween.

  The chamber casing (101) is formed with four air passages (101a) along each side. Each air passage (101a) is provided in the main unit (10) so as to communicate with a space in the main casing (18) formed outside the indoor heat exchanger (22). The air after heat exchange with the refrigerant in the heat exchanger (22) is configured to flow toward the indoor side. That is, the air flowing through the air passage (101a) of the chamber casing (101) is supplied to the indoor space from the air outlet (14) formed in the decorative panel (11). As shown in FIG. 2, the portion of the chamber casing (101) that forms the inside of the air passage (101a) is connected to the drain pan (23) of the main unit (10) via a seal member (104). Is supported from below.

  The decorative panel (11) is formed in a rectangular plate shape in plan view (see FIG. 3). As shown in FIG. 2, the decorative panel (11) has a plan view shape that is a plan view shape of the main body casing (18) of the main body unit (10) and the chamber casing (101) of the cleaning unit (100). It is formed to be one size larger than that. As described above, the decorative panel (11) is attached so as to cover the lower side of the chamber casing (101) with the seal member (103) interposed therebetween, whereby the decorative panel (11) It will be exposed indoors in the state shown in FIG.

  Moreover, as shown in FIG. 3, the said decorative panel (11) is formed with one suction inlet (13) and four blower outlets (14, 14,...). The suction port (13) is formed in a substantially rectangular shape at the center of the decorative panel (11), and is fitted with a suction grill (12) having a slit portion (12a) described later. Each said blower outlet (14) is formed in the elongate rectangular shape, and it follows each side of the said decorative panel (11) corresponding to the air path (101a, 101a, ...) of the said cleaning unit (100). Is provided. Each air outlet (14) is provided with a wind direction adjusting plate (15) (see FIG. 2 and the like). The wind direction adjusting plate (15) is configured to rotate and adjust the wind direction (the blowing direction).

  The suction grill (12) is a cover member having a slit portion (12a) in which a plurality of slit-shaped openings are formed at the center thereof, and covers the suction port (13) of the decorative panel (11). It is attached. In addition, the suction grill (12) is provided with a nozzle insertion portion (110) for inserting a nozzle of a vacuum cleaner, as will be described later. The nozzle insertion portion (110) is configured to be able to insert the nozzle of the cleaner so that the dust stored in the dust collection box (90) of the cleaning unit (100) can be collected by the cleaner. Yes.

  Further, the decorative panel (11), as will be described later, when a predetermined amount or more of dust is stored in the dust collection box (90) of the cleaning unit (100), or dust removing means (50) An LED (16) that is turned on when dust adhering to the air filter (30) is removed is provided.

<Configuration of cleaning unit>
Next, the structure in the said cleaning unit (100) is demonstrated in detail below based on FIGS.

  As described above, the cleaning unit (100) includes the air filter (30), the dust removing means (50), the dust conveying means (80), the dust collecting unit in the substantially rectangular chamber casing (101) in plan view. A box (90) and an electrical component box (105) are arranged to clean the air filter (30) located below the inlet of the indoor fan (21) of the main unit (10). Unit.

  Further, the cleaning unit (100) is provided with a partition plate (25) (suction side partition plate) so as to cover the lower part of the bell mouth (24). For example, as shown in FIG. 2, the partition plate (25) partitions the space between the bell mouth (24) and the suction grill (12) vertically. That is, the partition plate (25) partitions the upstream space of the indoor heat exchanger (22) into an indoor heat exchanger (22) side including a bell mouth (24) and a suction grille (12) side. .

  As shown in FIGS. 2 and 5, a vent hole (26) is formed in the center of the partition plate (25) for allowing air sucked from the suction port (13) to flow into the bell mouth (24). ing. The vent hole (26) is partitioned in a sector shape by four radial beam portions (27) in which the circular hole extends in the radial direction. The radial beam portions (27) are connected to each other at the circle center of the vent hole (26), and a cylindrical filter rotation shaft (28) (rotation shaft portion) is formed projecting downward at that portion. . The filter rotation shaft (28) is a rotation shaft for rotating the air filter (30). One of the radial beam portions (27) includes a filter presser (29) for pressing the air filter (30) against the rotating brush (51) of the dust removing means (50) from above. Are provided.

  As will be described in detail later, a service hole (25a) is formed on the side of the vent hole (26) of the partition plate (25) so as to be connected to the vent hole (26). A service lid (106) is disposed so as to close the hole (25a) (see FIGS. 19 and 20).

  As shown in FIG. 5, the air filter (30) is disposed below the vent hole (26) of the partition plate (25) and has a larger diameter than the bell mouth (24) and the vent hole (26). It is formed in a disk shape. Specifically, the air filter (30) includes an annular filter body (31) and a mesh member (37). A gear portion (32) is provided on the outer peripheral surface of the filter main body (31), while six radial ribs (34) extending radially in the radial direction are provided at the center of the filter main body (31). A cylindrical shaft insertion portion (33) (central portion) to be supported is provided. That is, each radial rib (34) extends radially from the shaft insertion portion (33) and is connected to the filter body (31). In addition, an annular inner circumferential rib (35) and outer circumferential rib (36) arranged concentrically with the filter body (31) are provided inside the filter body (31). The outer circumferential rib (36) has a larger diameter than the inner circumferential rib (35). Here, as shown in FIG. 6, the shaft insertion portion (33) includes a filter rotation shaft (28) having an inner diameter of the insertion hole (33a) formed in the partition plate (25), and a set screw to be described later. (28a) It has a larger diameter than the head (28b) of the (locking member).

  The mesh member (37) is stretched over the entire inside of the filter body (31). The air sucked from the suction port (13) passes through the mesh member (37) of the air filter (30) and flows into the bell mouth (24). At that time, dust in the air is captured by the mesh member (37).

  The air filter (30) is urged downward by the filter retainer (29) described above coming into contact with the upper surface of each annular circumferential rib (35, 36). Thus, the air filter (30) is pressed against the rotating brush (51) of the dust removing means (50) described later. Therefore, with this configuration, it is possible to improve the dust removal efficiency by the dust removing means (50).

  As shown in FIGS. 5 and 6, the air filter (30) is fitted so that the shaft insertion portion (33) is rotatable with respect to the filter rotation shaft (28) of the partition plate (25). Below the air filter (30), a dust container (60) of the dust removing means (50) is disposed, and the air filter (30) is fitted into the filter rotating shaft (28). A filter mounting portion (68) of the dust container (60) described later and a filter rotation shaft (28) of the partition plate (25) are fixed by a set screw (28a). Thus, the air filter (30) is held between the partition plate (25) and the dust container (60).

  In the vicinity of the air filter (30), as shown in FIGS. 4 and 7, filter driving means (40) for rotationally driving the air filter (30) is provided. As shown in FIG. 7, the filter driving means (40) includes a filter driving motor (41) and a limit switch (44). A drive gear (42) is provided on the drive shaft of the filter drive motor (41), and the drive gear (42) meshes with the gear portion (32) of the air filter (30). A switch actuating portion (43) that is a projecting piece is provided on one end surface (lower surface in the example in the figure) of the drive gear (42). The switch operating portion (43) moves the lever (44a) by contacting the lever (44a) of the limit switch (44) by the rotation of the drive gear (42). When the lever (44a) is operated, the limit switch (44) detects it. That is, the switch actuating part (43) and the limit switch (44) are configured to detect the rotation of the drive gear (42), and accordingly, according to the rotation speed of the drive gear (42). It is possible to detect the timing for operating the dust removing means (50), or to detect an abnormality when the drive gear (42) is not rotating.

  Next, the dust removing means (50), the storage amount detecting means (70), the dust conveying means (80) and the dust collecting box (90) provided in the cleaning unit (100) will be described with reference to FIGS. This will be described with reference to FIG.

  The dust removing means (50) is for removing dust trapped by the air filter (30). As shown in FIG. 10 and FIG. 11, the dust removing means (50) collects the removed dust as a rotating brush (51) and a cleaning brush (52), which are brush members, and a brush driving means (53). And a dust container (60) for storing the dust. As shown in FIG. 10, the rotating brush (51) and the cleaning brush (52) are provided in the brush opening (63) of the dust container (60).

  The rotating brush (51) includes an elongated cylindrical shaft (51a) and a brush (51b) provided on the outer peripheral surface of the shaft (51a). This brush (51b) is comprised by several hair transplantation. The brush (51b) is provided on a part of the outer surface of the shaft (51a) along the axial direction of the shaft (51a).

  The cleaning brush (52) is disposed on one side of the rotating brush (51) so as to be in contact with the rotating brush (51). The cleaning brush (52) includes a main body portion (52a), a brush (52b), and a spring portion (52c). The main body (52a) is a plate-like member and is formed to have the same length corresponding to the shaft (51a) of the rotating brush (51). The main body (52a) is arranged to face the outer peripheral surface of the rotating brush (51) at a predetermined interval. The upper part of the main body (52a) is formed in an arc shape along the outer peripheral surface of the shaft (51a) of the rotating brush (51). A brush (52b) is provided on the arcuate upper portion of the main body (52a) over the length direction of the main body (52a). The spring portion (52c) is configured by a leaf spring, and one end portion thereof is connected to the lower end of the main body portion (52a), while the other end portion thereof is the dust container (60). Connected to the inner wall. That is, the lower end portion of the main body portion (52a) is supported by the spring portion (52c).

  The rotary brush (51) and the cleaning brush (52) are each formed to have a length equal to or greater than the radius of the circular air filter (30), and the center of the circle of the air filter (30) It is arrange | positioned so that it may extend radially outward from. That is, as shown in FIG. 4, the dust removing means (50) is arranged to extend in the radial direction of the air filter (30).

  The rotating brush (51) is configured to remove dust from the mesh member (37) when the brush (51b) contacts the mesh member (37) of the rotating air filter (30). Further, as shown in FIGS. 10 and 11, the rotating brush (51) is reversibly rotated by the brush driving means (53). As shown in FIGS. 8 and 9, the brush drive means (53) includes a brush drive motor (54), a drive gear (55) and a driven gear (56) that mesh with each other. The drive gear (55) is provided on the drive shaft of the brush drive motor (54), and the driven gear (56) is provided on the end of the shaft (51a) of the rotating brush (51). With this configuration, the rotation of the brush drive motor (54) is transmitted to the rotary brush (51) via the drive gear (55) and the driven gear (56), and the rotary brush (51) is rotationally driven.

  With the above configuration, when the rotating brush (51) is rotated by the brush driving means (53), the brush (52b) of the cleaning brush (52) is in contact with the brush (51b) of the rotating brush (51), The cleaning brush (52) removes dust from the brush (51b) of the rotating brush (51). That is, the cleaning brush (52) is for removing dust from the rotating brush (51) and cleaning the rotating brush (51), and the brush driving means (53) The rotating brush (51) is rotated so that dust captured by the brush (51b) of 51) is rubbed against the cleaning brush (52).

  The brushes (51b, 52b) of the rotating brush (51) and the cleaning brush (52) are made of a so-called pile fabric. This pile fabric is a hair fiber in which hair (pile yarn) is woven into a base fabric, and has a relatively short hair. Moreover, this pile fabric is an inclined pile whose fur is inclined in a certain direction.

  Specifically, the bristles of the brush (51b) in the rotating brush (51) are inclined from the shaft (51a) toward the left side in FIG. That is, the bristles of the brush (51b) are inclined so as to face the rotation direction of the air filter (30). Thus, when the air filter (30) rotates so as to face the bristles of the brush (51b), the dust trapped on the mesh member (37) is efficiently scraped out.

  Further, the bristles of the brush (52b) in the cleaning brush (52) are inclined obliquely downward from the main body (52a) in FIG. That is, the bristles of the brush (52b) are inclined so as to face the rotation direction when the rotating brush (51) rotates clockwise in FIG. Accordingly, the rotating brush (51) is attached to the brush (51b) of the rotating brush (51) by rotating so as to face the hair of the brush (52b) of the cleaning brush (52). Dust can be removed with the brush (52b) of the cleaning brush (52).

  The dust removing operation of the rotating brush (51) and the cleaning brush (52) will be described in detail later.

  The dust container (60) is for collecting and temporarily storing dust removed from the rotating brush (51) by the cleaning brush (52). The dust container (60) has a columnar shape in which the upper part bulges to the right with respect to the lower part in a side view (when viewed from the right side in FIG. 8) and is bent in a slightly inverted shape. Container. In the dust container (60), the upper part is a removing part (61) on which a rotating brush (51) for removing dust from the air filter (30) is disposed, and the lower part is the rotating brush. It is a storage part (62) for storing the dust removed from the air filter (30) by (51). In addition, the dust removal part of this invention respond | corresponds to the structure by which the rotating brush (51) and the cleaning brush (52) were arrange | positioned in the removal part (61) of the said dust storage container (60).

  Specifically, a brush opening (63) is formed on the upper surface of the removal portion (61) so as to extend in the longitudinal direction, and dust is removed in the brush opening (63) as described above. A rotating brush (51) and a cleaning brush (52) of the means (50) are provided. Moreover, the filter attachment part (68) mentioned above is provided in one side surface of the said removal part (61). The configuration of the filter mounting portion (68) and the connection structure with the air filter (30) will be described later.

  The storage part (62) bulges in a circular arc shape at the lower end side (bottom side) in a sectional view. And the dust removed from the rotating brush (51) by the cleaning brush (52) falls and is stored in the arc portion of the storing portion (62). Moreover, the said storage part (62) is formed in the cylinder shape, and the both ends (66,67) of the longitudinal direction are opening. A damper box (81) of a dust transfer means (80) described later is connected to the first end (66) of the storage section (62), and a dust transfer means described later is connected to the second end (67). The (80) transfer duct (88) is connected.

  Further, as shown in FIG. 10, the dust storage container (60) is provided with a storage amount detecting means (70) for detecting the amount of dust stored in the storage portion (62). The storage amount detection means (70) includes a light emitting LED (72) and a phototransistor (73) housed in a sensor box (71). The sensor box (71) is provided near the second end (67) of the storage part (62) of the dust storage container (60) so as to extend in the transverse direction of the storage part (62) and cover the bottom thereof. (See FIGS. 5, 8, and 9). The light emitting LED (72) and the phototransistor (73) are disposed in the sensor box (71) so as to face each other with the reservoir (62) sandwiched in the transverse direction. On the other hand, a first transparent window (64) and a second transparent window (65) are provided on the wall surface of the storage part (62) corresponding to the light emitting LED (72) and the phototransistor (73), respectively. Yes.

  With the above configuration, in the storage amount detection means (70), the light generated by the light emitting LED (72) sequentially passes through the first transparent window (64) and the second transparent window (65), and then the phototransistor ( 73) the light intensity is detected. Depending on the light intensity detected by the phototransistor (73), the amount of dust stored in the storage part (62) (that is, the degree of filling) can be detected. That is, when the amount of stored dust is small, the transmittance of light from the first transparent window (64) to the second transparent window (65) in the storage part (62) increases and is detected by the phototransistor (73). The intensity of light is increased. Conversely, if the amount of stored dust is large, the transmittance of light from the first transparent window (64) to the second transparent window (65) in the storage part (62) is lowered, and the phototransistor (73) The detected light intensity becomes low. Therefore, according to this storage amount detection means (70), for example, when the light intensity becomes a predetermined value or less, it can be determined that the storage amount of the storage unit (62) is large. As a result, even after a dust transport operation for transporting dust in the storage section (62) by a dust transport means (80) described later, the dust in the storage section (62) is stored by the storage amount detection means (70). When it is detected that there is a large amount of storage, it is possible to determine that the dust collection box (90), which is the dust transfer destination, is full.

  Further, as described above, by providing the storage amount detection means (70) near the second end (67) of the storage section (62) connected to the transport duct (88), dust is transferred to the transport section. Even when the second end (67) is clogged with dust when transported through the duct (88) and collected in the dust collection box (90), the state can be detected. . That is, in the configuration as in the present embodiment, dust is most likely to be clogged around the second end portion (67) of the storage portion (62), which is a connection portion with the transfer duct (88). By providing the storage amount detection means (70), it becomes possible to more reliably detect dust clogging.

  For example, as shown in FIGS. 4, 5, 8, 12, and 14, the dust transfer means (80) includes the above-described damper box (81), transfer duct (88), introduction duct ( 86) and a suction duct (87).

  The damper box (81) is formed in a rectangular parallelepiped shape, and one end side in the longitudinal direction thereof is connected to the first end (66) of the reservoir (62). As shown in FIGS. 12 and 14, a damper (82) that is an opening / closing member is provided in the damper box (81). When the damper (82) is closed, the internal space of the damper box (81) is partitioned in the longitudinal direction. That is, the internal space of the damper box (81) is divided into a first chamber (81a) on the other end side and a second chamber (81b) on the dust container (60) side on one end side by the damper (82). Partitioned. As described above, the first end (66) of the reservoir (62) is connected to the second chamber (81b) that is defined on one end of the damper box (81). The two chambers (81b) communicate with the storage part (62).

  As shown in FIGS. 9 and 14, the dust transfer means (80) includes a damper drive motor (83), a drive gear (84), and a driven gear (85) for opening and closing the damper (82). ing. The drive gear (84) is connected to the drive shaft of the damper drive motor (83), and the driven gear (85) is connected to the rotating shaft of the damper (82). The drive gear (84) and the driven gear (85) are arranged so as to mesh with each other. With this configuration, the rotation of the damper drive motor (83) is transmitted to the rotating shaft of the damper (82) via the gears (84, 85). As a result, an opening / closing operation is performed in which the damper (82) rotates about the rotation axis by the rotation of the damper drive motor (83).

The introduction duct (86) is a cylindrical member, one end of which is connected to the upper surface of the damper box (81) and communicates with the first chamber (81a) in the damper box (81) . ing. On the other hand, the other end side of the introduction duct (86) extends vertically upward from the damper box (81) and is provided between the cleaning unit (100) and the main unit (10) as shown in FIG. The partition plate (25) is passed through and connected to the extending portion of the drain pan (23) of the main unit (10). In the extended portion of the drain pan (23), an introduction port (86d) which is a through hole is formed. The introduction duct (86) communicates with the space on the indoor fan (21) side through the introduction port (86d). That is, the introduction duct (86) is configured to introduce the air blown from the indoor fan (21) into the damper box (81). Accordingly, a ventilation passage (89) for the blown air is formed in the introduction duct (86) and the damper box (81) . Note that the configuration of the introduction duct (86) will be described in detail later in the description of the rotating structure.

  For example, as shown in FIGS. 14 and 15, the suction duct (87) has one end on the inflow side connected to the lower surface on one end side of the damper box (81), and the inside of the damper box (81). To the second chamber (81b). On the other hand, the other end on the outflow side of the suction duct (87) is connected to a nozzle insertion portion (110) formed on the decorative panel (11). This nozzle insertion part (110) has an opening for inserting and sucking the nozzle of the cleaner.

  Specifically, as shown in FIG. 15, the suction duct (87) includes a connecting pipe (87a) rotatably provided on the lower surface of the damper box (81), and the connecting pipe (87a). And a flexible duct (87b) connecting the nozzle insertion portion (110) of the decorative panel (11). In this way, the connecting pipe (87a) connected to the damper box (81) is configured to be rotatable, and the connecting duct (87a) and the nozzle insertion portion (110) can be deformed to be a flexible duct (87b). 15), the damper box (81) and the nozzle are inserted even when the orientation of the slit portion (12a) of the suction grille (12) is changed in the bottom view when installed as shown in FIG. The part (110) can be securely connected. Therefore, the direction of the slit portion (12a) of the suction grill (12) can be freely changed according to the user's preference.

  2 to 4, one end of the transfer duct (88) is connected to the second end (67) of the storage portion (62) in the dust storage container (60), and the other end will be described later. Connected to the dust collection box (90). The dust storage container (60) and the dust collecting box (90) can be communicated with each other by the transfer duct (88), and the dust can be transferred in the transfer duct (88). The transfer duct (88) is formed of a flexible tube.

  In the dust transfer means (80) having the above-described configuration, the damper (82) of the damper box (81) is closed in the normal operation in which air conditioning is performed (see FIG. 14A). Thereby, the air blown from the indoor fan (21) is not introduced into the second chamber (81b) of the damper box (81). On the other hand, when the dust in the dust container (60) is transported to the dust collection box (90), the damper (82) of the damper box (81) is opened (see FIG. 14B). Thereby, the air blown from the indoor fan (21) is introduced into the dust container (60) through the introduction duct (86) and the damper box (81). As a result, the dust in the dust container (60) flows along with the introduced air through the transfer duct (88) and is transferred into the dust collection box (90). In other words, as described above, by opening the damper (82) in the damper box (81), the dust in the dust container (60) is removed using the air blown from the indoor fan (21). (60) The sheet can be discharged from the inside and conveyed to a predetermined position.

  Furthermore, in the dust transfer means (80), even when the dust collected in the dust collection box (90) is discharged out of the casing (101), the damper (82) of the damper box (81) It is closed (see FIG. 14C). In this case, the dust in the dust collection box (90) is sucked from the nozzle insertion portion (110) by a vacuum cleaner, so that the dust in the transport duct (88), the damper box (81), and the suction duct (87 ) Through the vacuum cleaner.

  As described above, the dust collection box (90) is configured to transport and store the dust in the dust storage container (60). For example, as shown in FIGS. 3 and 4, the dust collection box (90) is formed in a slightly elongated and substantially rectangular parallelepiped shape, and is disposed below the partition plate (25) like the dust container (60). ing. The dust collection box (90) is disposed on the side of the air filter (30) and along one end of the partition plate (25) so as not to overlap the air filter (30) in plan view. Has been. In the present embodiment, the dust collection box (90) is opposed to the damper box (81) with the air filter (30) interposed therebetween, and the electrical component box ( 20) and the service lid (106) (see FIGS. 18 to 20). The dust collection box (90) has a side plate on the air filter (30) side that corresponds to the outer periphery of the air filter (30) in order to prevent interference with the air filter (30). Thus, it is formed in an arc shape.

  The dust collection box (90) has an inflow port (94) formed on a side surface of one end (one side), and the inflow port (94) includes the transfer duct (88). The other end side is connected. On the other hand, the other end portion (other side portion) of the dust collection box (90) passes through the chamber casing (101) of the cleaning unit (100), and the end surface of the dust collection box (90) is outside the casing (101). An exhaust port (91) opening in the direction is provided. That is, the dust collection box (90) is provided with an exhaust port (91) at the end opposite to the side to which the transfer duct (88) is connected, and the inside of the dust collection box (90) has air in the longitudinal direction. It is easy to flow. The dust collection box (90) has a smaller cross-sectional area at the exhaust port (91) side than at the other parts. Here, in FIG. 4, reference numeral 93 denotes a seal member that seals a portion of the dust collection box (90) that passes through the chamber casing (101) from the inside of the casing.

  In the dust collection box (90), a filter (92) is provided near the exhaust port (91). By providing this filter (92), when dust is transported from the dust container (60) into the dust collection box (90), air is exhausted from the exhaust port (91), while the transported dust is Is captured by the filter (92) and does not flow out of the exhaust port (91). In addition, when dust is discharged from the dust collection box (90) by suction by a vacuum cleaner, the room air flows into the dust collection box (90) through the exhaust port (91). Dust in the air is captured by the filter (92).

  As described above, since the pressure balance in the dust collection box (90) becomes appropriate by the supply and exhaust of air through the exhaust port (91), the dust transport operation and the discharge operation to the dust collection box (90) are appropriate. To be done.

  The electrical component box (105) accommodates electronic parts and the like for driving and controlling the filter driving means (40), the dust removing means (50), the dust conveying means (80), etc. in the cleaning unit (100). Therefore, the internal electrical components are electrically connected to the electrical components in the electrical component box (20) of the main unit (10) so that signals can be transmitted and received by signal lines and the like.

  Further, as shown in FIG. 3, the electrical component box (105) has a side adjacent to the side where the dust collection box (90) is disposed below the partition plate (25) of the cleaning unit (100). And it arrange | positions in the position which opposes the damper box (81) connected to the said dust storage container (60) on both sides of an air filter (30). Thus, as will be described in detail later, when removing the service lid (106) and the air filter (30) provided on the partition plate (25) of the cleaning unit (100) during maintenance, the dust container (60) It is possible to reliably prevent the electrical component box (105) from interfering with the dust container (60) even if it is rotated.

<Rotating structure>
Next, the rotating structure of the dust removing means (50), which is a characteristic part of the present invention, will be described in detail below based on FIG. 12 and FIG.

As described above, the dust container (60) of the dust removing means (50) is connected to the damper box (81) at the first end (66). An introduction duct (86) is connected to the upper surface of the damper box (81) and communicates with the first chamber (81a) in the damper box (81) . As shown in FIG. 12, the introduction duct (86) extends vertically upward so as to penetrate the partition plate (25) provided between the cleaning unit (100) and the main unit (10). The other end side is connected to the extension part of the drain pan (23) of the main unit (10).

  The introduction duct (86) includes an upstream duct (86a) and a downstream duct (86b) having a circular cross section, and these two members (83a, 83b) are set screws ( 86c) connected vertically.

  The upstream duct (86a) is formed so that its cross-sectional area (flow path area) is larger than the cross-sectional area (flow path area) of the downstream duct (86b). The lower end (lower side in FIG. 12) of the downstream duct (86b) is connected to the upper surface of the damper box (81), while the upper end (upper side in FIG. 12) of the upstream duct (86a) is the drain pan. It is in contact with the horizontally extending extension part (23) via a seal member (86e). Since the inlet port (86d), which is a through hole, is formed in the extended portion of the drain pan (23), the upstream duct (86a) is connected to the indoor fan (21) side through the inlet port (86d). It communicates with the space.

  The upstream duct (86a) is formed with a stepped portion (86f) so that the lower portion has a smaller diameter than the upper portion. The downstream duct (86b) has a flange portion (86g) that extends outward at the upper portion thereof. And the level | step-difference part (86f) of the said upstream duct (86a) and the flange part (86g) of the said downstream duct (86b) are connected by the set screw (86c) in the state where it overlapped in the up-down direction. .

  Here, on the upper surface of the flange portion (86g) of the downstream duct (86b), as shown in FIG. 12, a screw mounting portion (86h) to which the set screw (86c) is screwed is provided. Therefore, a gap is formed in the outer peripheral portion between the step portion (86f) of the upstream duct (86a) and the flange portion (86g) of the downstream duct (86b). The upstream duct (86a) and the downstream duct (86b) are connected so that the opening peripheral edge of the partition plate (25) is located in the gap. With this configuration, the upper end of the introduction duct (86) is connected to the bell mouth (24) while sandwiching the opening peripheral edge of the partition plate (25) so that the introduction duct (86) does not fall off. It becomes possible.

  Further, as described above, the opening peripheral edge of the partition plate (25) is sandwiched between the step (86f) of the upstream duct (86a) and the flange (86g) of the downstream duct (86b). By doing so, the connecting portion between the upstream duct (86a) and the downstream duct (86b) can be rotated with respect to the partition plate (25). Moreover, in the present embodiment, the contact portion between the upstream duct (86a) and the seal member (86e) is also configured to be rotatable, so that the introduction duct (86) and the damper box (81) The dust removing means (50) can rotate integrally around the axis (introduction port) of the introduction duct (86). Therefore, the dust removing means (50) is provided with a dust removing position (see FIGS. 4 and 18) for removing dust from the air filter (30), and a standby on the outside of the air filter (30) from the dust removing position. Switching to a position (see FIGS. 19 and 22) is possible. The standby position may be a position where at least a part of the rotating brush (51) of the dust removing means (50) is positioned outside the air filter (30) in plan view.

Here, the damper box (81) and the introduction duct (86) correspond to the rotation support means according to the present invention.

  A projecting portion (86i) projecting downward is provided on the outer peripheral side of the stepped portion (86f) of the upstream duct (86a). Further, when the dust removing means (50) is in the dust removing position on the upper surface of the partition plate (25), the position corresponding to the protrusion (86i) of the introduction duct (86) is moved upward. A protruding portion (25b) that protrudes is provided. These protrusions (86i, 25b) are formed on the ridges so as to extend in the rotational direction of the introduction duct (86), and when the dust removing means (50) is in the standby position, they are in contact with each other. The length is such that it does not touch. Therefore, when the dust removing means (50) is in the dust removing position, the protrusions (86i, 25b) are in contact with each other vertically (see FIG. 13 (A)), while the dust removing means (50) When in the standby position, they do not contact each other (see FIG. 13B). Thus, when the dust removing means (50) is in the dust removing position, the introduction duct (86) and the dust removing means (50) are arranged so that the protrusion (25b) The dust removing means (50) is pushed up to the lower surface of the air filter (30) by being lifted by the protruding height. On the other hand, when the dust removing means (50) rotates to the standby position, the introduction duct (86) and the dust removing means (50) are positioned lower than in the dust removing position, The removing means (50) is spaced below the air filter (30). Therefore, the height position of the dust removing means (50) with respect to the air filter (30) can be changed by the rotation of the introduction duct (86).

  In this way, when the standby position of the dust removing means (50) is such that at least a part of the dust removing means (50) overlaps the air filter (30) in plan view, By rotating the dust removing means (50) to the standby position, the air filter (30) is prevented from interfering with the dust removing means (50) when the air filter (30) is detached. Can do. Therefore, the maintenance workability of the air filter (30) can be improved.

  As shown in FIG. 13, each of the protrusions (86i, 25b) has an end on the side facing each other when the dust removing means (50) is in the standby position, and the protrusions (86i, 25b). Since the projecting height is gradually reduced toward the tip in the extending direction, the introduction duct (86) is rotated so that the dust removing means (50) is in the dust removing position or standby. When switching to the position, the protrusions (86i, 25b) smoothly contact or separate. Therefore, with this configuration, the introduction duct (86) and the dust removing means (50) can be smoothly moved up and down.

  The dust removing means (50) may be rotated by a drive motor (95) that is a drive means. Specifically, as shown in FIGS. 21 and 22, a second drive gear (97) is provided on the outer periphery of the downstream duct (86b) of the introduction duct (86). A first drive gear (96) connected to the drive motor (95) is disposed so as to mesh with the drive gear (97). Thereby, the rotation of the drive motor (95) is transmitted in the order of the first drive gear (96) and the second drive gear (97), and the introduction duct (86) can be rotated.

  The drive motor (95) is drive-controlled so that the dust removal means (50) is positioned at the standby position during normal operation for air conditioning, and at the dust removal position during dust removal. Thus, the dust removing means (50) is arranged so as to extend in the radial direction of the air filter (30) only at the time of dust removal, so that the air flow is caused by the dust removing means (50) during normal operation. Inhibition can be prevented.

  The drive motor (95) is configured to position the dust removing means (50) at a standby position except when removing dust from the air filter (30) by the dust removing means (50). ing. That is, the dust removing means (50) is positioned at the standby position when the air filter (30) is detached. This eliminates the need to manually move the dust removing means (50) when the air filter (30) is detached, so that the air filter (30) can be easily detached.

  As described above, when the dust removing means (50) is rotated by the drive motor (95), the air filter (30) is rotatably supported by the partition plate, and the dust removing means The filter mounting part (68) provided in the dust container (60) of (50) is configured to be detachable from the partition plate (25) as the dust removing means (50) rotates. .

<Air filter mounting structure>
As described above, by providing the cleaning unit (100) with a mechanism for rotating the dust removing means (50) or the like, a filter mounting structure that allows the air filter (30) to be easily removed during maintenance is possible.

  Specifically, as shown in FIGS. 5, 6, 8, and 9, a filter attachment portion for attaching the air filter (30) to one side surface of the removal portion (61) of the dust container (60). (68) is provided. The filter mounting portion (68) is formed so as to protrude in a substantially U shape in plan view so as to open in the bulging direction of the removing portion (61) that bulges laterally from the storage portion (62). It is. That is, the filter mounting portion (68) is provided with a slit portion (68a) that opens in the bulging direction. As shown in FIG. 6, the slit portion (68a) has a screw portion (28c) (shaft portion) of a set screw (28a) whose maximum width is screwed to the filter rotation shaft (28) of the partition plate (25). Is formed so as to be smaller than the diameter of the filter rotation shaft (28).

  Accordingly, as shown in FIG. 6, the set screw is inserted in a state where the air filter (30) is sandwiched between the filter mounting portion (68) and the radial beam portion (27) of the partition plate (25). The air filter (30) can be fixed to the filter mounting portion (68) and the partition plate (25) by screwing (28a) to the filter rotating shaft (28). When removing the air filter (30), the set screw (28a) is loosened, and the dust container (60) having the filter mounting portion (68) in which the slit portion (68a) is formed is The tip of the set screw (28a) is attached to the filter rotation shaft (28) by rotating it to the side opposite to the bulging direction of the removal part (61) (opposite to the opening direction of the filter mounting part (68)). Only the filter mounting portion (68), which is the lower presser of the air filter (30), is moved in the horizontal direction from below the shaft insertion portion (33) of the air filter (30) in a state where the portions are screwed together. Can do. Here, the shaft insertion part (33) of the air filter (30) has a larger inner diameter than the filter rotating shaft (28) of the partition plate (25) and the head (28b) of the set screw (28a). Therefore, the air filter (30) can be removed from below.

  With the air filter (30) mounting structure as described above, the air filter (30) can be easily removed without removing the set screw (28a) during maintenance.

<Maintenance structure>
In the following, when the electric component box (20) of the main unit (10) is maintained, the electric component box (20) is accessed with the cleaning unit (100) attached to the main unit (10). The structure for this is demonstrated.

  Specifically, as shown in FIGS. 18 to 20, the cleaning unit (100) is configured such that the air filter (30) and the service lid (106) can be removed, and the service lid (106) is removed. If removed, the service lid (106) and the electrical component box (20) are provided at a position where the electrical component box (20) of the main unit (10) can be accessed.

  More specifically, the dust container (60) and the damper box (81) are configured to be rotatable about the axis of the introduction duct (86) connected to the damper box (81) as described above. Thus, when removing the air filter (30), the dust container (60) and the damper box (81) can be moved to the side of the air filter (30) (see FIG. 19).

  When the dust container (60) and the damper box (81) are rotated, the transfer duct (88) connecting the dust container (60) and the dust collection box (90). Alternatively, it is necessary to remove the suction duct (87) (flexible duct (87b)) that connects the damper box (81) and the nozzle insertion portion (110) of the decorative panel (11). Therefore, the connection part (107, 108) between the dust carrying container (60) and the dust collecting box (90) of the transport duct (88) and the damper box of the flexible duct (87b) so that it can be easily attached and detached. (81) (The connecting portion (109) with the connecting pipe (87a) employs a structure as shown in Fig. 17. In Fig. 17, as an example, the dust container (60) is connected to the transfer pipe (87a). Although the configuration of the connecting portion (107) with the duct (88) is shown, the same configuration is applied to the other connecting portions (108, 109), which will be described below based on the configuration of FIG.

  Specifically, as shown in FIG. 17, for example, in the connection portion (107) between the dust storage container (60) and the transfer duct (88), the second end portion of the dust storage container (60) ( 67) is provided with a first connection part (132), and a second connection part (133) is provided at the end of the transfer duct (88) corresponding to the first connection part (132). The part (133) is engaged.

  The first connecting portion (132) is formed with a bulging portion (132a) that bulges over the entire circumference on the outer peripheral surface of a substantially cylindrical member. The engaging portion (133c) of the second connecting portion (133) that engages is engaged.

  The second connection portion (133) includes a main body portion (133a) made of a substantially cylindrical member having a larger diameter than the first connection portion (132), and a claw portion (133b) is formed on the outer peripheral surface thereof. ) Are integrally formed. The claw portion (133b) extends outward in the axial direction of the flexible duct (87b) and engages with the bulging portion (132a) of the first connection portion (132). And a protruding piece-shaped lever portion (133d) extending in the opposite direction to the engaging portion (133c), and the engaging portion (133c) and the lever portion (133d) at the intermediate portion thereof. And an elastically deforming portion (133e) that is elastically connected to each other. The lever portion (133d) is formed so as to be positioned radially outward as it goes toward the distal end side. With this configuration, the elastic deformation portion (133e) is deformed by displacing the lever portion (133d) inward in the radial direction, and the engagement portion extends in a direction opposite to the lever portion (133d). (133c) can be displaced radially outward. On the other hand, when the lever portion (133d) is returned to the original position, the engagement portion (133c) is returned to the original position by the elastic restoring force of the elastic deformation portion (133e).

  Therefore, when the engaging portion (133c) of the second connecting portion (133) is engaged with the bulging portion (132a) of the first connecting portion (132), the engaging portion (133c) is expanded. When abutting against the protruding portion (132a), the elastic deformation portion (133e) elastically supporting the engagement portion (133c) is elastically deformed to displace the engagement portion (133c) outward in the radial direction, The engaging portion (133c) and the bulging portion (132a) can be engaged (see FIG. 17B). On the other hand, when removing the second connection part (133) from the first connection part (132), the lever part (133d) is deformed inward in the radial direction, so that the engagement part (133c) has a diameter. The engagement portion (133c) and the bulge portion (132a) are displaced by moving the engagement portion (133c) away from the bulge portion (132a) of the first connection portion (132). Is disengaged.

  With this configuration, the transfer duct (88) can be easily attached to and detached from the dust container (60), and workability during maintenance can be improved. The connection part (108) between the dust collection box (90) and the transfer duct (88) and the connection part (109) with the damper box (81) of the flexible duct (87b) are configured in the same manner. The duct (88, 87b) can be easily attached and detached.

  The dust collection box (90) in the cleaning unit (100) is configured to be detachable from the cleaning unit (100). By removing the dust collection box (90), the dust collection box (90) The service lid (106) provided above the dust collection box (90) is exposed. The service lid (106) is also detachable. As shown in FIG. 20, if the air filter (30) and the service lid (106) are removed in this order, the electrical component box ( 20) is exposed, and maintenance work of the electrical component box (20) becomes possible.

-Driving action-
Next, the operation of the indoor unit (3) will be described with reference to FIGS. The indoor unit (3) is configured to be switchable between a normal operation for air conditioning and a filter cleaning operation for cleaning the air filter (30).

<Normal operation>
In normal operation, the rotating brush (51) is rotated and the brush (51b) is positioned on the cleaning brush (52) side. That is, the rotating brush (51) is rotated to a position where the brush (51b) of the rotating brush (51) does not contact the air filter (30), and the non-brush surface (that is, the brush) of the rotating brush (51) is rotated. The outer peripheral surface of the shaft (51a) not provided with (51b) is made to face the air filter (30). Further, the damper (82) of the damper box (81) is closed (the state shown in FIG. 14A). The air filter (30) is in a stopped state where it is not rotating.

  In this state, the indoor fan (21) is driven. Then, in the indoor unit (3), the indoor air sucked from the suction port (13) passes through the air filter (30) and flows into the bell mouth (24). When air passes through the air filter (30), dust in the air is captured by the mesh member (37) of the air filter (30). The air flowing into the bell mouth (24) is blown out from the indoor fan (21). The blown air is cooled or heated by exchanging heat with the refrigerant in the indoor heat exchanger (22), and then supplied into the room from each outlet (14). Thereby, indoor cooling or heating is performed. In this operation, since the damper (82) of the damper box (81) is closed, the air blown from the indoor fan (21) is not introduced into the dust container (60) through the damper box (81).

  Thus, in normal operation, the brush (51b) of the rotating brush (51) and the air filter (30) are in a non-contact state. That is, the brush (51b) is separated from the air filter (30). Therefore, deterioration due to the brush (51b) kept in contact with the air filter (30) can be prevented, whereby the durability of the rotating brush (51) is improved.

  As shown in FIGS. 21 and 22, in the configuration in which the dust removing means (50) is rotated by the drive motor (95), the drive motor (95) is configured so that the dust removing means (50) is in normal operation. Therefore, the brush (51b) of the rotating brush (51) can be reliably prevented from coming into contact with the air filter (30).

<Filter cleaning operation>
In the filter cleaning operation, the compressor (4) is stopped in the refrigerant circuit shown in FIG. 1, and the refrigerant does not circulate. In this filter cleaning operation, “dust removal operation”, “brush cleaning operation”, “dust transport operation”, and “dust discharge operation” are switchable. The LED (16) provided on the decorative panel (11) is lit during the “dust removal operation”, “brush cleaning operation”, and “dust transfer operation”. Thereby, it is possible to notify the user that these operations are being performed.

  The “dust removal operation” is an operation for removing dust trapped by the air filter (30). The “brush cleaning operation” is an operation for removing dust trapped on the rotating brush (51). The “dust transfer operation” is an operation of transferring dust from the dust container (60) to the dust collection box (90). The “dust discharge operation” is an operation for discharging dust from the dust collection box (90) to the outside of the indoor unit (3).

  In the present embodiment, “dust removal operation” and “brush cleaning operation” are performed alternately. First, in the “dust removal operation”, the indoor fan (21) is stopped. Then, the brush (51b) of the rotating brush (51) is brought into contact with the air filter (30). In this state, the air filter (30) rotates and moves so that the bristles of the brush (51b) of the rotating brush (51) are turned upside down (in the direction of the white arrow in FIG. 11A). At this time, the rotating brush (51) remains stopped.

  Then, dust on the air filter (30) is captured by the brush (51b) of the rotating brush (51) (FIG. 11A). When the lever (44a) of the limit switch (44) of the filter driving means (40) is operated, the filter driving motor (41) is stopped and the rotation of the air filter (30) is stopped. That is, the air filter (30) rotates by a predetermined angle and stops. Therefore, the dust in the area | region which contacted the brush (51b) of the rotating brush (51) in an air filter (30) is removed. Here, since the brush (51b) is implanted so as to be inclined with respect to the rotation direction (movement direction) of the air filter (30), the dust on the air filter (30) is brushed (51b) Is easily scraped off. Therefore, the dust removal efficiency by the rotating brush (51) can be improved. As described above, when the rotation of the air filter (30) stops, the “dust removal operation” is switched to the “brush cleaning operation”.

  In the “brush cleaning operation”, the rotating brush (51) first rotates counterclockwise (counterclockwise) in FIG. 11 with the indoor fan (21) stopped. At that time, the rotating brush (51) rotates so that the brush portions (51b, 52b) come into contact with the cleaning brush (52) while dust is captured by the brush (51b) (FIG. 11 ( B)). The rotating brush (51) stops after rotating by a predetermined rotation angle.

  Thereafter, the rotating brush (51) rotates counterclockwise (clockwise in FIG. 11 (clockwise) in FIG. 11). Then, the dust trapped on the brush (51b) of the rotating brush (51) is removed by the brush (52b) of the cleaning brush (52) (FIG. 11C). This is because the bristles of the brush (52b) of the cleaning brush (52) are planted so as to be inclined downward, that is, so as to stand upside down by the clockwise rotation of the rotating brush (51). This is because the dust adhering to the brush (51b) of the rotating brush (51) is scraped off.

  Further, when the brush portions (51b, 52b) of the rotating brush (51) and the cleaning brush (52) come into contact with each other, the main body portion (52a) of the cleaning brush (52) becomes the rotating brush (51). The main body (52a) is urged toward the rotating brush (51) by the spring (52c), so the brushes (51b, 52b) are not separated from each other. The cleaning brush (52) is appropriately pressed against the rotating brush (51). Therefore, dust can be more reliably removed from the brush (51b) of the rotating brush (51), and the dust can be captured by the brush (52b) of the cleaning brush (52). The rotating brush (51) rotates to the original state (the state shown in FIG. 11A) and stops.

  Subsequently, the rotating brush (51) rotates counterclockwise (counterclockwise) again by a predetermined rotation angle. Then, the dust trapped on the brush (52b) of the cleaning brush (52) is scraped off by the brush (51b) of the rotating brush (51) and falls to the storage part (62) of the dust storage container (60). (FIG. 11D). That is, since the bristles of the brush (51b) of the rotating brush (51) are inclined so as to follow the rotation direction, dust can be scraped off from the brush (52b) of the cleaning brush (52). Even in this case, the cleaning brush (52) is appropriately pressed against the rotating brush (51) by the spring portion (52c), so that dust can be more reliably removed from the cleaning brush (52). .

  Thus, the dust trapped on the rotating brush (51) is removed and stored in the storage part (62) of the dust storage container (60). Thereafter, the rotating brush (51) rotates again clockwise (clockwise) again to return to the original state (FIG. 11A), and the “brush cleaning operation” is temporarily ended.

  When the “brush cleaning operation” as described above is completed, the “dust removal operation” described above is performed again. That is, when the air filter (30) is rotated again and the lever (44a) of the limit switch (44) is actuated again, the air filter (30) is stopped. Thereby, the dust of the area | region which passed the brush (51b) of the rotating brush (51) in an air filter (30) is capture | acquired by the brush (51b) of a rotating brush (51) (FIG. 11 (A)). As described above, the “dust removal operation” and the “brush cleaning operation” are alternately repeated, whereby the dust is removed for each predetermined region of the air filter (30). When the dust is removed in the entire area of the air filter (30), the “dust removal operation” and the “brush cleaning operation” are completely completed. For example, when the lever (44a) of the limit switch (44) is actuated a predetermined number of times, it is determined that the air filter (30) has made one revolution, and the above operation ends.

  By the way, during the above-described “dust removal operation” and “brush cleaning operation”, the storage amount detection means (70) detects the dust storage amount in the dust storage container (60). That is, the light intensity of the light emitted from the light emitting LED (72) is detected by the phototransistor (73). Then, when the detected light intensity of the phototransistor (73) becomes equal to or less than the set value (lower limit value), the amount of dust in the dust container (60) has reached a predetermined amount, and the operation is switched to “dust transfer operation”.

  In the “dust transfer operation”, the rotary brush (51) is stopped in the state of FIG. 11 (A) and the air filter (30) is stopped. Further, the damper (82) of the damper box (81) is in the open state (the state shown in FIG. 14B). In this state, when the indoor fan (21) is driven, the air blown from the indoor fan (21) is introduced into the dust container (60) through the introduction duct (86) and the damper box (81). Is done. As a result, the dust in the dust container (60) is transferred into the dust collection box (90) through the transfer duct (88) together with the air. Then, the amount of dust stored in the dust storage container (60) is reduced, and the light intensity detected by the phototransistor (73) is increased. When the detected luminous intensity becomes equal to or greater than the set value (upper limit value), the “dust transporting operation” is terminated, assuming that most of the dust in the dust container (60) has been discharged. Thereafter, the “dust removal operation” or “brush cleaning operation” is resumed.

  In the filter cleaning operation of the present embodiment, a “dust discharge operation” is performed according to a predetermined condition. That is, after the damper (82) is opened in the “dust transfer operation”, the light emitting LED (72) is turned on to detect the light intensity. If the light intensity is lower than a predetermined value, the dust storage container (60) The dust inside is not transported by the air blown from the indoor fan (21), that is, the dust is clogged in the transport path from the dust storage container (60) to the dust collection box (90), or the dust collection Judging that a large amount of dust is collected in the box (90), the LED (16) of the decorative panel (11) is turned on to notify the user, and according to remote control operation, etc. “Dust discharging operation” is performed. The operation of detecting the luminous intensity of the light emitting LED (72) in conjunction with the movement of the damper (82) (hereinafter also referred to as a full / clogging detection operation) is, for example, once a week. Performed regularly.

  In the “dust discharging operation”, the rotary brush (51) is stopped in the state shown in FIG. 11A and the air filter (30) is stopped as in the “dust transporting operation” described above. Further, the damper (82) of the damper box (81) is in the closed state (the state shown in FIG. 14C).

  In the state described above, the suction operation is performed in a state where the nozzle of the vacuum cleaner is inserted into the nozzle insertion portion (110) of the decorative panel (11) by the user. By this suction operation, the dust in the dust collection box (90) is moved into the transport duct (88), the dust container (60), the damper box (81), the suction duct (87) and the nozzle insertion part (110). Is sucked into the vacuum cleaner. At that time, the dust remaining in the dust container (60) is also sucked into the cleaner through the suction duct (87). As a result, the dust in the dust collection box (90) and the dust container (60) is discharged out of the indoor unit (3).

  The full / clogging detection operation described above is performed once the light intensity is determined to be smaller than the predetermined value, so that the “dust removal operation” eliminates the clogging of the dust and the dust collection box (90 ) Is periodically performed at predetermined intervals until the amount of dust in the light-emitting LED (72) becomes equal to or higher than a predetermined value, and when the light intensity becomes equal to or higher than the predetermined value, Turn off the LED (16) of the decorative panel (11). Thereafter, a normal full / clogging detection operation is performed once a week, for example.

-Effect of the embodiment-
As described above, in this embodiment, the dust removing means (50) and the damper box (81) have the axial center of the introduction duct (86) that communicates the damper box (81) with the blow-out side of the indoor fan (21). Since it is configured to rotate around the (introduction port 86d), the position of the dust removing means (50) can be switched between the dust removing position and the standby position with respect to the air filter (30). . Thereby, the air filter (30) can be removed without removing the dust removing means (50) during maintenance, and the workability of maintenance work can be improved.

  In addition, the duct (86) for introducing the damper box (81) and the blower side of the indoor fan (21) communicates with the drain pan (23), bell mouth (24), and partition plate (25). With this configuration, it is possible to realize a configuration in which the dust removing means (50) and the damper box (81) can be rotated as described above, and an indoor fan ( The dust conveying means (80) can be configured by flowing the air blow of 21). Specifically, the introduction duct (86) is composed of an upstream duct (86a) and a downstream duct (86b), and the upstream duct (86a) is connected to a drain pan (23) or a bell mouth (24). The downstream duct (86b) is disposed below the partition plate (25) while being disposed between the partition plate (25) and the both sides sandwich the opening peripheral edge of the partition plate (25). By connecting, the introduction duct (86) can be configured to be rotatable with respect to the partition plate (25).

  In the introduction duct (86) and the partition plate (25), when the dust removing means (50) is in the dust removing position, the dust removing means (50) is in contact with the upper and lower sides, while the dust removing means (50) is in the standby position. Since the protrusions (86i, 25b) are sometimes provided at positions where they do not contact each other, the introduction duct (86) and the dust removing means (50) are moved up and down by rotating the introduction duct (86). Can be moved. Therefore, even if the standby position of the dust removing means (50) is a position that overlaps the air filter (30) in plan view, the dust removing means (50) is rotated to the standby position by the above-described configuration. By doing so, the dust removing means (50) can be lowered and separated downward from the air filter (30). Therefore, when the air filter (30) is detached, the air filter (30) Interference with the dust removing means (50) can be prevented.

  Further, since the rotation of the drive motor (95) is transmitted to the introduction duct (86) via the drive gear (96, 97), the dust removing means (50) is rotated by the motor (95), not manually. Can be moved. Further, by controlling the drive motor (95) so that the dust removing means (50) is positioned at the standby position when the air filter is attached / detached and at the dust removing position when dust is removed, the air filter (30) is controlled. Desorption can be performed easily. Moreover, the dust removal means (50) can be prevented from obstructing the air flow by being positioned at the standby position even during normal operation.

  In addition, a filter mounting portion (68) is provided in the removal portion (61) of the dust container (60) in the dust removal means (50), and the air filter (30) is sandwiched between the partition plate (25). In this state, since the filter mounting portion (68) and the partition plate (25) are connected by the set screw (28a), the dust removing means (50) and the air filter (30) can be fixed together. In addition, if the fixing is released, the dust removing means (50) can be rotated to remove the air filter (30).

  Further, since the filter mounting portion (68) is formed with a slit portion (68a) extending in the rotating direction of the dust removing means (50), the partition plate (25) has a dust removing means (50). When the dust removing means (50) is rotated by loosening without removing the set screw (28a) for locking the filter mounting portion (68), the dust removing means (50) is seen in a plan view. It can be easily moved from a position overlapping the air filter (30) to a position not overlapping. Thereby, when removing the said air filter (30), it can prevent reliably that this air filter (30) interferes with the said dust removal means (50).

  Moreover, since the diameter of the insertion hole (33a) of the shaft insertion portion (33) of the air filter (30) is larger than the diameter of the head (28b) of the set screw (28a), the set screw (28a) The air filter (30) can be removed in a state where the filter is screwed to the filter rotation shaft (28) of the partition plate (25), and the workability when removing the air filter (30) can be improved.

<< Other Embodiments >>
The above embodiment may be configured as follows.

  In the said embodiment, although the indoor unit (3) is divided | segmented into three, a main body unit (10), a cleaning unit (100), and a decorative panel (11), it is not this limitation, The said unit is contained in one casing. The components of the main unit (10) and the cleaning unit (100) may be arranged, and the interior side may be covered with the decorative panel (11).

  In the above embodiment, the dust removed from the air filter (30) is collected in the dust collection box (90). However, the present invention is not limited to this. Any configuration such as a bag-like shape may be used.

  Moreover, in the said embodiment, although the said dust collection box (90) is provided in the cleaning unit (100), you may make it provide separately from an indoor unit (3).

  In the above embodiment, the air blown from the indoor fan (21) is used as means for conveying dust from the dust container (60) to the dust collection box (90). In addition, any configuration may be used as long as dust can be transferred, and a dedicated fan may be provided.

  Moreover, in the said embodiment, although the air filter (30) is formed in circular shape, it is not restricted to this, For example, you may form in rectangular shape. In this case, the air filter (30) and the rotating brush (51) relatively move linearly. Even in this case, the dust removing means (50) and the damper box (81) are configured to be rotatable so that the air filter (30) can be easily removed to the position where the dust removing means (50) can be easily removed. And the damper box (81) can be moved easily.

Further, in the above-described embodiment, the introduction duct (86) and the partition plate (25) are provided with protrusions (86i, 25b), respectively, and the introduction duct (86) is rotated to rotate the introduction duct. (86) is configured to move up and down with respect to the partition plate (25). However, the present invention is not limited to this, and a configuration in which a screw portion is provided on the outer peripheral surface of the introduction duct (86) or a partition plate ( 25) With respect to the hole formed above, the protrusion (86) provided on the introduction duct (86) is engaged / disengaged according to the rotation, and the introduction duct (86) is moved up and down. Any configuration may be used as long as it can be configured. Of course, if the standby position of the dust removing means (50) is a position that does not overlap the air filter (30) in plan view, the introduction duct (86) is moved up and down as described above. It is not necessary to have a configuration that works .

  As described above, the present invention is particularly useful for an indoor unit of an air conditioner in which an air filter is provided on the suction side of an indoor fan.

FIG. 1 is a piping system diagram showing a configuration of an air conditioner including an indoor unit according to an embodiment of the present invention. FIG. 2 is a vertical cross-sectional view showing the configuration inside the indoor unit. FIG. 3 is an exploded perspective view showing a state in which the indoor unit is disassembled into each unit. 4 is a cross-sectional view taken along line IV-IV in FIG. FIG. 5 is a perspective view showing the configuration of the vent holes of the partition plate, the air filter, and the dust container. FIG. 6 is a cross-sectional view showing an air filter mounting structure. FIG. 7 is a perspective view showing the configuration of the filter driving means. FIG. 8 is a perspective view of the dust removing means and the dust container as viewed from above. FIG. 9 is a perspective view of the dust container as viewed from below. 10 is a cross-sectional view taken along line XX in FIG. FIG. 11 is a diagram illustrating the operation of the rotating brush during the dust removal operation and the brush cleaning operation in the cross section taken along the line XI-XI in FIG. FIG. 12 is an enlarged cross-sectional view of the introduction duct. 13 is a cross-sectional view taken along line XIII-XIII in FIG. FIG. 14 is a cross-sectional view showing the operation of the damper of the dust transfer means. FIG. 15 is a partial cross-sectional view showing a part of the decorative panel as seen from the indoor side. FIG. 16 is a perspective view schematically showing a connection relationship between the damper box and the nozzle insertion portion. FIG. 17 is an enlarged cross-sectional view showing an enlarged connection portion between the nozzle insertion portion and the flexible duct. FIG. 18 is a perspective view showing a state in which the main unit and the cleaning unit are combined. FIG. 19 is a perspective view showing a state where the dust collection box is removed from the cleaning unit. FIG. 20 is a perspective view showing a state where the air filter and the service lid are removed from the cleaning unit. FIG. 21 is a view corresponding to FIG. 12 when the dust removing means is rotated by a motor. FIG. 22 is a view corresponding to FIG. 4 when the dust removing means is rotated by a motor.

1 Air conditioner
3 Indoor unit
10 Main unit
11 Decorative panel
18 Body casing (casing)
21 Indoor fans (components)
22 Indoor heat exchanger
23 Drain pan (ventilation divider)
24 Bellmouth (ventilation divider)
25 Partition plate (suction side partition plate)
25b Protrusion
28 Filter rotating shaft (Rotating shaft)
28a Set screw (locking member)
28b head
28c Screw part
30 Air filter
33 Shaft insertion part (central part)
33a Insertion hole
50 Dust removal means
51 Rotating brush (dust removal part)
52 Cleaning brush (dust removal part)
60 Dust storage container
61 Removal part (dust removal part)
62 Reservoir
68 Filter mounting section
68a Slit
80 Dust transfer means
81 Damper box (turning support means)
86 Introduction duct (turning support means)
86a Upstream duct
86b Downstream duct
86i protrusion
88 Transport duct (duct)
89 Ventilation path
90 Dust collection box (Dust collection means)
95 Drive motor (drive means)
100 cleaning unit
101 Chamber casing (casing)

Claims (15)

In the casing (18, 101), an indoor heat exchanger (22), an indoor fan (21) that blows out air sucked from the room to the indoor side, and an air filter (30) provided on the suction side of the indoor fan (21) An indoor unit of an air conditioner equipped with
Dust removing means (50) for removing dust trapped in the air filter (30);
The dust removing means (50) is connected to one end side of the dust removing means (50), and the position of the dust removing means (50) is set to a dust removing position for removing dust from the air filter (30), and an air filter ( 30) Rotating support means (81, 86) for rotatably supporting the dust removing means (50) so as to be switchable to a standby position on the outer side ;
A ventilation partition plate (23, 24) that divides the casing (18, 101) into a suction side and a blow-out side of the indoor fan (21);
The rotation support means (81, 86) is configured to rotatably support the dust removal means (50) with respect to the ventilation partition plate (23, 24),
The rotation support means (81, 86) is configured to separate the dust removal means (50) below the air filter (30) while rotating the dust removal means (50) to the standby position. An indoor unit of an air conditioner configured to be movable downward according to rotation . In claim 1 ,
The rotation support means (81, 86) is provided so as to penetrate the suction side partition plate (25) located below the ventilation partition plate (23, 24),
When the dust removing means (50) is in the dust removing position, the rotating support means (81, 86) and the suction side partition plate (25) are in contact with each other up and down, while the dust removing means (50) An indoor unit of an air conditioner, wherein protrusions (86i, 25b) are provided at positions that do not contact each other when in the standby position. In claim 2 ,
The protrusions (86i, 25b) are formed on protrusions extending in the rotation direction of the rotation support means (81, 86), respectively, and when the dust removal means (50) is in the standby position. The air conditioner indoor unit is characterized in that end portions on the sides facing each other are inclined so that the protruding height decreases toward the tip in the extending direction of the protruding portions (86i, 25b). . In claim 1,
The indoor unit of an air conditioner, further comprising drive means (95) for driving the rotation support means (81, 86). In claim 4 ,
The drive means (95) positions the dust removing means (50) at the standby position when the air filter is attached and detached, and positions the dust removing means (50) at the dust removal position when removing the dust. An indoor unit of an air conditioner configured to drive (81, 86). In any one of Claims 1 to 5 ,
Dust collecting means (90) for collecting the dust removed by the dust removing means (50);
An indoor unit of an air conditioner, further comprising: a dust transfer means (80) for transferring the dust removed by the dust removing means (50) to the dust collecting means (90) . In claim 6 ,
The dust removing means (50) stores the dust removed from the air filter (30) by the dust removing part (51, 52, 61) and the dust removed by the dust removing part (51, 52, 61). And a storage part (62)
The dust conveying means (80) is configured to convey the dust to the dust collecting means (90) using the air blown from the indoor fan (21),
The rotation support means (81, 86) has a ventilation path (89) formed therein so as to constitute a part of the dust transfer means (80).
The storage part (62) of the dust removing means (50) is configured to pass through the ventilation path (89) in the rotation support means (86) so as to constitute a part of the dust transport means (80). An indoor unit of an air conditioner, wherein the indoor unit communicates with a blowout side of an indoor fan (21). In claim 7 ,
The rotation support means (81, 86) includes an introduction duct (86) that constitutes a part of the ventilation path (89),
The introduction duct (86) is cylindrical,
The indoor unit of an air conditioner, wherein the dust removing means (50) is configured to rotate around the introduction duct (86). In claim 8 ,
The aforementioned casing (18,101) in and the ventilation partition plate (23, 24), has a suction-side partition (25) and is provided which is located below the vent air divider plate (23, 24),
The introduction duct (86) includes an upstream duct (86a) positioned between the ventilation partition plate (23, 24) and the suction side partition plate (25), and a lower side of the suction side partition plate (25). An indoor unit of an air conditioner, characterized in that a downstream duct (86b) located at a position is connected so as to sandwich an opening peripheral edge of the suction side partition plate (25). In any one of claims 1-9,
The air filter (30) is circular in plan view,
An indoor unit of an air conditioner, wherein the dust removing means (50) is connected at its other end to a central portion (33) of the air filter (30). In claim 10 ,
The dust removing means (50) includes a rotation support means (81, 86) connected to one end side in a state where the connection with the central portion (33) of the air filter (30) on the other end side is released. An indoor unit of an air conditioner that is configured to be pivotable to the standby position as a center. In claim 11 ,
The other end side of the dust removing means (50) is between the suction side partition plate (25) disposed on the suction side of the indoor fan (21) and the central portion (33) of the air filter (30). An indoor unit of an air conditioner, wherein the indoor unit is fixed to the suction side partition plate (25) in a state where the air is sandwiched. In claim 12 ,
On the lower surface of the suction side partition plate (25), a rotating shaft portion (28) protruding downward is provided,
An insertion hole (33a) into which the rotary shaft portion (28) can be inserted is formed in the central portion (33) of the air filter (30),
The other end side of the dust removing means (50) is a locking member in a state where the rotating shaft portion (28) of the suction side partition plate (25) is inserted through the insertion hole (33a) of the air filter (30). An indoor unit of an air conditioner, wherein a filter mounting portion (68) connected to the rotating shaft portion (28) by (28a) is provided. In claim 13 ,
The locking member (28a) is formed with a shaft portion (28c) that engages with the rotating shaft portion (28) and a diameter larger than that of the shaft portion (28c) on one end side of the shaft portion (28c). A head (28b),
The filter mounting portion (68) has the filter mounting portion (68) in a state where the tip end portion of the shaft portion (28c) of the locking member (28a) is engaged with the rotating shaft portion (28). A slit portion (68a) extending in the rotational direction of the dust removing means (50) is formed so as to be detachable in a horizontal direction from a position below the rotating shaft portion (28). The indoor unit of the harmony device. In claim 14 ,
The locking member (28a) has an air head characterized in that a head (28b) is smaller than a diameter of an insertion hole (33a) of the air filter (30) and larger than a width of the slit (68a). The indoor unit of the harmony device.

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