JP2008209100A - Indoor unit of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make a constitution compact for removing dust from a filter member, in an indoor unit of an air conditioner having the function of removing the dust from the filter member. <P>SOLUTION: This indoor unit of the air conditioner has: a dust removing member 50 removing the dust-dirt from the filter member; a moving mechanism 51 having a belt member 55 and a pair of belt support members 31 and 32 for moving the filter member; and a dust storage vessel 43 storing the dust. The dust storage vessel 43 is arranged in an area up to reaching the other belt support member 32 from one belt support member 31 in the moving mechanism 51. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an indoor unit of an air conditioner including a mechanism for removing dust from a filter member.

Conventionally, an indoor unit of an air conditioner including a mechanism for removing dust from a filter member is known. This type of indoor unit is disclosed in Patent Document 1. Specifically, Patent Document 1 discloses an indoor unit installed on a ceiling. The indoor unit is provided with a pair of rotating drums, a motor, a brush, and a case as a configuration for removing dust from the filter member. A filter is wound around the pair of rotating drums. The motor is connected to a brush drum in which a brush is implanted. The brush drum is provided with a gear. One of the pair of rotating drums is provided with a gear that engages with the gear of the brush drum. The case is disposed below the brush drum.

In this indoor unit, when the motor rotates, the brush drum rotates and the rotating drum rotates. When the rotating drum rotates, the filter moves on the brush side, and dust is removed from the filter when the filter passes through the position of the brush. The dust removed from the filter falls into the case.
JP-A-7-275626

  By the way, in the indoor unit of the conventional air conditioner, the space occupied by the configuration for removing the dust from the filter member has been increased by the size of the dust storage container for storing the dust. For this reason, it has been difficult to reduce the size of the indoor unit.

  The present invention has been made in view of such a point, and an object thereof is to downsize a configuration for removing dust from a filter member in an indoor unit of an air conditioner having a function of removing dust from the filter member. Is to plan.

  1st invention is equipped with the casing (34) in which the suction inlet (22) and the blower outlet (23) were formed, temperature-controls the air suck | inhaled from the said suction inlet (22), and the said blower outlet (23) The indoor unit (13) of the air conditioner that blows out from the room to the room. The indoor unit (13) includes a filter member (41) for capturing dust contained in the air sucked from the suction port (22), and a moving mechanism (51) for moving the filter member (41). A dust removing member (50) that contacts the moving filter member (41) and removes dust from the filter member (41), and removed from the filter member (41) by the dust removing member (50). A dust storage container (43) for storing the collected dust, and the moving mechanism (51) includes a belt member (55) engaged with or joined to the filter member (41) and a predetermined A pair of belt support members (31, 32) arranged at intervals and supporting the belt member (55) in contact with the inner peripheral surface of the belt member (55); The dust container (43) has the moving mechanism (51 It is located in the region from one of the belt support member (31, 32) to the other belt support member (31, 32) in.

  In the first invention, the dust container (43) is disposed in a region from the one belt support member (31, 32) to the other belt support member (31, 32) in the moving mechanism (51). Yes. Specifically, the dust container (43) is arranged in the hatched area shown in FIG. In the first invention, the place where the dust container (43) is arranged is a place where a conventional dead space has been arranged without anything. In the first aspect of the present invention, the space that has conventionally been a dead space is effectively used for arranging the dust container (43).

  According to a second invention, in the first invention, the dust container (43) is one of the pair of belt support members (31, 32) when viewed from the width direction of the belt member (55). Arranged in overlapping areas.

  In the second invention, the dust container (43) is disposed in a region overlapping with one of the pair of belt support members (31, 32) when viewed from the width direction of the belt member (55). Specifically, the dust container (43) is arranged in the hatched area shown in FIG. In the second invention, the place where the dust container (43) is disposed is a place where conventionally, nothing has been disposed and it has become a dead space. In the second aspect of the present invention, the space that has conventionally been a dead space is effectively used for arranging the dust container (43).

  According to a third invention, in the first or second invention, the belt member (55) is an endless belt, and is wound around the pair of belt support members (31, 32).

  In the third invention, the belt member (55) is an endless belt. The belt member (55) is supported by the pair of belt support members (31, 32) while being wound around the pair of belt support members (31, 32).

  According to a fourth invention, in any one of the first to third inventions, the casing (13) is configured as a ceiling-mounted type in which the casing (13) is installed on the ceiling, while the dust container (43) is used as the casing. An elevating mechanism (44) for elevating and lowering with respect to (34) is provided.

  In the fourth invention, the dust container (43) can be moved up and down with respect to the casing (34) by the lifting mechanism (44). The dust container (43) is lowered downward from the casing (34) when dust in the dust container (43) is removed. The dust container (43) is returned to the casing (34) after the dust in the dust container (43) is removed.

  In a fifth aspect based on the fourth aspect, the lifting mechanism (44) lifts and lowers only the dust container (43).

  In the fifth invention, only the dust container (43) is moved up and down by the lifting mechanism (44). Only the dust container (43) having a relatively small weight is raised and lowered.

  According to a sixth aspect, in the fourth aspect, the casing (34) includes a suction grill member (29) that is formed in the suction port (22) and exposed to the inside of the casing (34) on the lower surface side. On the other hand, the elevating mechanism (44) elevates and lowers the dust container (43) together with the suction grille member (29).

  In 6th invention, when removing the dust in a dust storage container (43), a dust storage container (43) is fall | descended below from a casing (34) with a suction grill member (29). The dust container (43) is returned to the casing (34) side together with the suction grille member (29) after the dust in the dust container (43) is removed.

  In the present invention, the dust storage container (43) is disposed in the region from the one belt support member (31, 32) to the other belt support member (31, 32) in the moving mechanism (51). Effectively uses the space that has become a dead space to place the dust container (43). Therefore, since the dust container (43) can be installed without expanding the space occupied by the configuration for removing dust from the filter member (41), the dust can be removed from the filter member (41). The configuration can be made compact. In addition, the indoor unit (13) can be made compact.

  In the fourth aspect of the invention, in order to remove dust in the dust container (43), the dust container (43) can be lifted and lowered with respect to the casing (34) by the lifting mechanism (44). . Here, if the dust container (43) cannot be raised or lowered, removing the dust accumulated in the dust container (43) involves work at a high place, so remove the dust from the dust container (43). A large amount of labor is required for the work to be performed. In contrast, in the fourth aspect of the invention, the dust container (43) can be lowered from the casing (34) by the elevating mechanism (44). Therefore, when removing the dust accumulated in the dust container (43), it is not necessary to work at a high place, so that the work for removing the dust from the dust container (43) is facilitated.

  In the fifth aspect of the invention, only the dust container (43) having a relatively small weight is lifted and lowered by the lifting mechanism (44). Therefore, since the power for moving the dust container (43) up and down is relatively small, the dust container (43) can be lifted and lowered with respect to the casing (34) with a simple configuration.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  This embodiment is an air conditioner (10) including an indoor unit (13) according to the present invention. In the air conditioner (10), the indoor unit (13) is configured as a ceiling-mounted type in which the indoor unit (13) is installed on the ceiling of the indoor space. In the following, the air conditioner (10) according to the present embodiment will be described first, and then the indoor unit (13) according to the present invention will be described.

  As shown in FIG. 1, the air conditioner (10) according to this embodiment includes an outdoor unit (11) and an indoor unit (13). The outdoor unit (11) is provided with a compressor (30), an outdoor heat exchanger (35), an expansion valve (36), a four-way switching valve (28), and an outdoor fan (12). The indoor unit (13) is provided with an indoor heat exchanger (37) and an indoor fan (39).

  In the outdoor unit (11), the discharge side of the compressor (30) is connected to the first port (P1) of the four-way switching valve (28). The suction side of the compressor (30) is connected to the third port (P3) of the four-way switching valve (28).

  The outdoor heat exchanger (35) is configured as a cross-fin type fin-and-tube heat exchanger. One end of the outdoor heat exchanger (35) is connected to the fourth port (P4) of the four-way switching valve (28). The other end of the outdoor heat exchanger (35) is connected to the liquid side closing valve (15).

  The outdoor fan (12) is provided in the vicinity of the outdoor heat exchanger (35). In the outdoor heat exchanger (35), heat is exchanged between the outdoor air sent by the outdoor fan (12) and the circulating refrigerant. Between the outdoor heat exchanger (35) and the liquid side closing valve (15), an expansion valve (36) having a variable opening degree is provided. The second port (P2) of the four-way switching valve (28) is connected to the gas side shut-off valve (16).

  The four-way selector valve (28) 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 (FIG. 1). And a second state (FIG. 1) in which the first 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 indicated by a broken line) can be switched.

  In the air conditioner (10), the heating operation is performed when the compressor (30) is driven and the four-way switching valve (28) is set to the first state. In the heating operation, a vapor compression refrigeration cycle in which the outdoor heat exchanger (35) serves as an evaporator and the indoor heat exchanger (37) serves as a condenser in the refrigerant circuit (18) is performed. On the other hand, when the compressor (30) is driven and the four-way switching valve (28) is set to the second state, the cooling operation is performed. In the cooling operation, a vapor compression refrigeration cycle in which the outdoor heat exchanger (35) serves as a condenser and the indoor heat exchanger (37) serves as an evaporator in the refrigerant circuit (18) is performed.

<Indoor unit configuration>
As shown in FIG. 2, the indoor unit (13) according to the present invention includes a casing (34) having a casing body (26) and a decorative panel (27). In the casing (34), an indoor heat exchanger (37), an indoor fan (39), a drain pan (40), a suction filter (41) as a filter member, a dust removing mechanism (42), a moving mechanism (51), A dust container (43) and an elevating mechanism (44) are provided.

  The casing body (26) is formed in a substantially rectangular parallelepiped box shape whose lower side is open. A heat insulating material (17) is laminated on the inner surface of the casing body (26). The casing body (26) is installed in a state where the lower part is inserted through the opening of the ceiling plate.

  The decorative panel (27) is formed in a rectangular plate shape. The planar shape of the decorative panel (27) is slightly larger than the planar shape of the casing body (26). The decorative panel (27) is attached so as to cover the lower side of the casing body (26) with the seal member (19) interposed therebetween. In a state where the decorative panel (27) is attached to the casing body (26), the decorative panel (27) is exposed to the room.

  As shown in FIGS. 2 and 3, the decorative panel (27) includes a suction grille member (29) having a rectangular suction port (22) formed in the center. The suction grill member (29) is disposed at the center of the decorative panel (27), and the lower surface is exposed indoors. The decorative panel (27) has four air outlets (23) so as to surround the suction grille member (29). Each air outlet (23) is formed in an elongated rectangular shape. Each air outlet (23) is formed along each side of the decorative panel (27).

  In addition, the decorative panel (27) is formed with an opening for entering and exiting the dust container (43). The entrance / exit opening is provided with a pair of door members (70) configured to open from the center of the entrance / exit to both sides. The pair of door members (70) are provided with spring members at the hinges and are held by the spring members so as to be flush with the lower surface of the decorative panel (27) (not shown). The pair of door members (70) open downward when the dust container (43) passes through the access opening downward, and the dust storage container (43) passes through the access opening upward. When you do it, it opens up.

  The indoor fan (39) is a so-called turbo fan. The indoor fan (39) is disposed in the vicinity of the middle of the casing body (26) and is located above the suction port (22). The indoor fan (39) includes a fan motor (39a) and an impeller (39b). The fan motor (39a) is fixed to the top plate of the casing body (26). The impeller (39b) is connected to the rotating shaft of the fan motor (39a). A bell mouth (25) communicating with the suction port (22) is provided below the indoor fan (39). The indoor fan (39) is configured to blow out air sucked from below through the bell mouth (25) in the circumferential direction.

  The indoor heat exchanger (37) is configured as a cross-fin type fin-and-tube heat exchanger. The indoor heat exchanger (37) is formed in a square shape in plan view, and is disposed so as to surround the periphery of the indoor fan (39). In the indoor heat exchanger (37), heat is exchanged between the indoor air sent by the indoor fan (39) and the circulating refrigerant.

  The drain pan (40) is provided below the indoor heat exchanger (37). The drain pan (40) is for receiving drain water generated by condensation of moisture in the air in the indoor heat exchanger (37). The drain pan (40) is provided with a drain pump for draining drain water (not shown). The drain pan (40) is sloped so that drain water collects at the location where the drain pump is installed.

  The dust removal mechanism (42) is a mechanism for removing dust from the suction filter (41). As shown in FIGS. 4 and 5, the dust removing mechanism (42) includes a rotating brush (50) that is a dust removing member.

  The rotating brush (50) includes a rod-shaped shaft portion (50a) and a brush portion (50b) configured by a plurality of flocks around the shaft portion (50a). Both ends of the shaft portion (50a) are rotatably supported by a pair of support members (63) arranged so as to sandwich the rotating brush (50). Stopping members (68) for preventing the shaft portion (50a) from being detached from the support member (63) are attached to both ends of the shaft portion (50a). The rotating brush (50) is provided such that the brush portion (50b) is positioned at an inlet (43a) of a dust container (43) described later.

  The moving mechanism (51) is a mechanism for moving the suction filter (41) when dust is removed from the suction filter (41). As shown in FIGS. 5, 6, and 7, the moving mechanism (51) includes a moving motor (57), a transmission belt (55), a pulley (32), a guide member (31), and a rail member (56). And. Two transmission belts (55), pulleys (32), guide members (31), and rail members (56) are provided.

  The pulley (32) is formed in a cylindrical shape. The pulley (32) is attached to each end of the rod-shaped shaft member (33). On the outer peripheral surface of the pulley (32), there are formed a plurality of grooves that mesh with the cogs of the transmission belt (55) described later.

  The shaft member (33) is provided in a state where the axial direction thereof coincides with the axial direction of the shaft portion (50a) of the rotating brush (50). One end side and the other end side of the shaft member (33) are both inserted through insertion holes formed in the support member (63). A moving motor (57) is connected to one end of the shaft member (33). When the moving motor (57) is driven, the shaft member (33) rotates and the pulley (32) rotates. A stopper member (67) for preventing the shaft member (33) from being detached from the support member (63) is attached to the other end of the shaft member (33).

  The guide member (31) is formed in a cylindrical shape. The guide member (31) is rotatably supported by a cylindrical member (38) protruding from the support member (63). The inner diameter of the guide member (31) is substantially equal to the outer diameter of the cylindrical member (38). The two guide members (31) are provided so as to be coaxial with each other and their axes coincide with the axial direction of the shaft member (33).

  The transmission belt (55) is a cogged belt having a plurality of cogs formed on the inner peripheral surface. The transmission belt (55) constitutes a belt member. The transmission belt (55) is wound around the pulley (32) and the guide member (31) disposed on the same side as the pulley (32) in a state where the cogs mesh with the groove of the pulley (32). . The pulley (32) and the guide member (31) have a pair of belt support members (31, 32) that support the transmission belt (55) with their outer peripheral surfaces in contact with the inner peripheral surface of the transmission belt (55). It is composed.

  A mounting portion (55a) for mounting the frame of the suction filter (41) is formed on the outer peripheral surface of the transmission belt (55). The suction filter (41) is attached to the transmission belt (55) by engaging the attachment portion of the frame of the suction filter (41) with the attachment portion (55a).

  The rail member (56) is substantially U-shaped. The rail member (56) is disposed so as to surround the periphery of the transmission belt (55). The rail member (56) serves as a guide for the suction filter (41). The frame of the suction filter (41) contacts the inner surface of the rail member (56). At both ends of the rail member (56), stoppers (56a) for preventing the suction filter (41) from falling off the rail member (56) are provided.

  The dust container (43) is a substantially cylindrical container closed at both ends. The outer diameter of the dust container (43) is substantially equal to the outer diameter of the guide member (31). Cutouts are formed at opposite positions on both end faces of the dust container (43). On the peripheral surface of the dust container (43), an inlet (43a) for introducing the dust removed from the suction filter member is formed between the notches on both end faces. Further, hook portions for hooking a wire member (58) of an elevating mechanism (44) described later are provided on both end faces of the dust container (43).

  The dust container (43) is provided between the guide members (31) with the introduction port (43a) positioned on the upper side. The axial direction of the dust container (43) coincides with the axial direction of the guide member (31). The dust container (43) is a region inside the transmission belt (55) when viewed from the width direction of the transmission belt (55), and is a guide member when viewed from the width direction of the transmission belt (55) ( It is located in the area overlapping with 31).

  As shown in FIGS. 4 and 5, the elevating mechanism (44) includes an elevating motor (53) and two wire members (58). One end of each wire member (58) is connected to the lifting shaft (71) coupled to the lifting motor (53). The other end of each wire member (58) is connected to a hook portion on each end face of the dust container (43). The wire member (58) is hooked on the shaft portion (50a) of the rotating brush (50), and extends horizontally from the lifting shaft (71) to the shaft portion (50a) from the shaft portion (50a). The dust container (43) extends vertically.

  In the air conditioner (10) of this embodiment, the entire suction filter (41) is positioned on the opposite side of the suction port (22) with respect to the pulley (32) during heating and cooling operations. Dust contained in the air sucked from the suction port (22) is captured by the suction filter (41). When the amount of dust trapped in the suction filter (41) increases, the air resistance in the suction filter (41) increases and the efficiency of the air conditioner (10) decreases. A dust removing operation for removing dust from the suction filter (41) is performed during the stop. The dust removal operation is performed, for example, when the operation integration of the air conditioner (10) from the previous dust removal operation reaches a predetermined time.

  In the dust removal operation, the moving motor (57) is driven. When the moving motor (57) is driven, the transmission belt (55) rotates as the pulley (32) rotates. When the transmission belt (55) rotates, the suction filter (41) moves toward the guide member (31). In the dust removal operation, the suction filter (41) moves from a removal start position located during heating and cooling operations to a removal end position after the suction filter (41) as a whole passes above the rotating brush (50). The suction filter (41) reverses its traveling direction at the position of the guide member (31) while moving from the removal start position to the removal end position. Dust adhering to the suction filter (41) is scraped off by the brush portion (50b) of the rotary brush (50) while the suction filter (41) moves from the removal start position to the removal end position. The dust scraped off from the suction filter (41) falls and accumulates in the dust container (43).

  In the dust removal operation, when the suction filter (41) moves to the removal end position, the moving motor (57) rotates in the reverse direction. When the suction filter (41) returns to the removal start position, the moving motor (57) stops.

  The air conditioner (10) of this embodiment is provided with a detection sensor for detecting the amount of dust in the dust container (43). The detection sensor detects the amount of dust in the dust container (43), for example, by measuring the weight of the dust container (43). The air conditioner (10) is configured to display, for example, on a remote controller that the dust storage container (43) needs to be cleaned when the value of the detection sensor exceeds a predetermined value.

  The air conditioner (10) is configured to be able to command the raising and lowering of the dust container (43) by a remote controller. When the user commands the lowering of the dust container (43), the wire member (58) is unwound with the rotation of the lifting motor (53) of the lifting mechanism (44), and the dust container (43) Descent. Then, when the user instructs to lift the dust container (43) after removing the dust in the dust container (43), the wire member (58) is moved along with the rotation of the lifting / lowering motor (53). It is wound up and the dust container (43) rises.

-Effect of the embodiment-
In this embodiment, the moving mechanism (51) is an area from one belt support member (31, 32) to the other belt support member (31, 32), as viewed from the width direction of the transmission belt (55). By placing the dust container (43) in the inner region of the transmission belt (55), the space that was previously a dead space can be effectively used to place the dust container (43). Yes. Therefore, since the dust container (43) can be installed without expanding the space occupied by the configuration for removing dust from the filter member (41), the dust can be removed from the filter member (41). The configuration can be made compact. In addition, the indoor unit (13) can be made compact.

  In the present embodiment, the dust container (43) is disposed outside the region between the suction port (22) and the suction filter (41), so that the suction filter (41) is connected to the suction port (22). The air flow toward is prevented from being obstructed by the dust container (43). Therefore, the structure for removing dust from the suction filter (41) can be made compact without increasing the resistance of air from the suction port (22) to the suction filter (41).

  Moreover, in this embodiment, in order to remove the dust in the dust container (43), the dust container (43) can be moved up and down with respect to the casing (34) by the lifting mechanism (44). Here, if the dust container (43) cannot be raised or lowered, removing the dust accumulated in the dust container (43) involves work at a high place, so remove the dust from the dust container (43). A large amount of labor is required for the work to be performed. In contrast, in the present embodiment, the dust container (43) can be lowered from the casing (34) by the elevating mechanism (44). Therefore, when removing the dust accumulated in the dust container (43), it is not necessary to work at a high place, so that the work for removing the dust from the dust container (43) is facilitated.

  In the present embodiment, only the dust container (43) having a relatively small weight is lifted and lowered by the lifting mechanism (44). Therefore, since the power for moving the dust container (43) up and down is relatively small, the dust container (43) can be lifted and lowered with respect to the casing (34) with a simple configuration.

-Modification of the embodiment-
A modification of the embodiment will be described. In this modification, as shown in FIG. 8, the elevating mechanism (44) is configured to elevate and lower the dust container (43) together with the suction grille member (29).

Specifically, the moving mechanism (51) is attached to the suction grill member (29). A dust container (43) is detachably held between the guide members (31) of the moving mechanism (51). The elevating mechanism (44) includes two elevating motors (53). One end of a wire member (58) is connected to the lifting shaft (71) connected to the lifting motor (53). The other end of the wire member (58) is connected to the peripheral edge of the suction grill member (29). In addition, in this modification, the moving mechanism (51) and the dust container (43) are moved together with the suction grille member (29) by the lifting mechanism (44). It can be moved up and down. The rotary brush (50) and the suction filter (41) are also lifted and lowered together with the suction grille member (29).

<< Other Embodiments >>
You may comprise the said embodiment like the following modifications.

-First modification-
About the said embodiment, the thing of the type in which an indoor unit (13) is installed in the indoor wall surface may be sufficient.

-Second modification-
About the said embodiment, an indoor unit (13) may be comprised so that it may be installed in a ceiling similarly to the said embodiment, and the suction inlet (22) may be formed in the top plate or side wall of a casing (34). .

-Third modification-
About the said embodiment, the indoor unit (13) does not need to be able to raise / lower the dust storage container (43).

-Fourth modification-
About the said embodiment, as shown in FIG. 9, a transmission belt may be wound around a pair of belt support members (31, 32), respectively. In this case, the dust container (43) is an introduction port in a region overlapping with the guide member (31) or the pulley (32) when viewed from the width direction of the transmission belt (55) (the hatched region shown in FIG. 9). (43a) is disposed at a position where it can face the suction filter (41).

-5th modification-
In the above embodiment, the cylindrical guide member (31) may serve as a pulley. In this case, for example, as shown in FIG. 10, the shaft member connected to the moving motor (57) is disposed above the rotating brush (50). On the outer peripheral surface of the guide member (31), a gear portion is formed that meshes with a gear attached to the shaft member of the moving motor (57). When the moving motor (57) rotates, the guide member (31) rotates and the suction filter (41) moves.

-Sixth Modification-
About the said embodiment, in order to rotate a rotating brush (50), you may provide the motor for brushes. The brush motor is connected to the shaft portion (50a) of the rotating brush (50), for example. In this case, the suction filter (41) may be pushed and moved by the brush portion (50b) of the rotating brush (50) without providing the moving motor (57).

-Seventh modification-
In the above embodiment, as shown in FIG. 11, a plurality of guide rollers (45) are provided between the pulley (32) and the guide member (31) to hold the suction filter (41) in a wave shape during heating and cooling operations. Well. In this case, the area of the suction filter (41) can be increased compared to the suction filter (41) held in a flat plate shape as in the above embodiment. Therefore, when compared in a state where the same amount of dust is captured, the amount of dust adhering per unit area decreases, so the air resistance of the suction filter (41) decreases.

-Eighth Modification-
About the said embodiment, a moving mechanism (51) may be comprised so that a suction filter (41) may be rotated instead of reciprocatingly moving. In this case, as shown in FIG. 11, the rail member (56) is formed in an oval shape.

-Ninth Modification-
About the said embodiment, a dust removal mechanism (42) may be comprised so that dust may be removed from a suction filter (41) by sucking in dust. In this case, the dust removing mechanism (42) includes a suction fan.

-10th modification-
About the said embodiment, the inlet (43a) in the area | region between a guide member (31) and a pulley (32) when a dust storage container (43) sees from the width direction of a transmission belt (55) is a suction filter ( It may be arranged at a position where it can face to 41).

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for an indoor unit of an air conditioner including a mechanism for removing dust from a filter member.

It is a schematic block diagram of the refrigerant circuit of the air conditioning apparatus which concerns on embodiment of this invention. It is sectional drawing of the indoor unit which concerns on embodiment of this invention. It is the perspective view which looked at the decorative panel which concerns on embodiment of this invention from the lower side. It is a side view of a dust storage container and an elevating mechanism according to an embodiment of the present invention. It is a top view of the dust removal mechanism which concerns on embodiment of this invention, the moving mechanism which abbreviate | omitted the rail member, the dust storage container, and the raising / lowering mechanism. It is sectional drawing of the moving mechanism which concerns on embodiment of this invention. It is a perspective view of the moving mechanism which abbreviate | omitted the rail member which concerns on embodiment of this invention. It is a side view of the suction grille member, moving mechanism, and raising / lowering mechanism which concern on the modification of embodiment of this invention. It is a schematic block diagram of the moving mechanism which concerns on the 4th modification of other embodiment. It is a perspective view of the moving mechanism which abbreviate | omitted the rail member which concerns on the 5th modification of other embodiment. It is sectional drawing of the moving mechanism which concerns on the 7th modification and 8th modification of other embodiment.

Explanation of symbols

10 Air conditioner
13 Indoor unit
22 Suction port
23 Air outlet
31 Guide member (belt support member)
32 Pulley (belt support member)
34 Casing
41 Suction filter (filter member)
43 Dust container
43a inlet
44 Lifting mechanism
50 Rotating brush (dust removal member)
51 Movement mechanism
55 Transmission belt

Claims (6)

A casing (34) formed with a suction port (22) and a blow-off port (23);
It is an indoor unit of an air conditioner that adjusts the temperature of air sucked from the suction port (22) and blows it out of the air outlet (23) into the room,
A filter member (41) for capturing dust contained in the air sucked from the suction port (22);
A moving mechanism (51) for moving the filter member (41);
A dust removing member (50) for contacting the filter member (41) in motion and removing dust from the filter member (41);
A dust container (43) for storing the dust removed from the filter member (41) by the dust removing member (50),
The moving mechanism (51) includes a belt member (55) that engages or joins the filter member (41), and is disposed at a predetermined distance from each other, and has an outer peripheral surface disposed on the belt member (55). A pair of belt support members (31, 32) that support the belt member (55) in contact with the inner peripheral surface of the belt,
The dust container (43) is arranged in a region from the one belt support member (31, 32) to the other belt support member (31, 32) in the moving mechanism (51). An indoor unit of an air conditioner. In claim 1,
The dust container (43) is disposed in a region overlapping with one of the pair of belt support members (31, 32) when viewed from the width direction of the belt member (55). Indoor unit of air conditioner. In claim 1 or 2,
The indoor unit of the air conditioner, wherein the belt member (55) is an endless belt and is wound around the pair of belt support members (31, 32). In any one of Claims 1 thru | or 3,
While the casing (13) is configured as a ceiling-mounted type installed on the ceiling,
An indoor unit of an air conditioner, comprising an elevating mechanism (44) for elevating and lowering the dust container (43) with respect to the casing (34). In claim 4,
The indoor unit of an air conditioner, wherein the lifting mechanism (44) lifts and lowers only the dust container (43). In claim 4,
The casing (34) is provided with a suction grill member (29) in which the suction port (22) is formed and exposed to the room on the lower surface side of the casing (34),
The indoor unit of the air conditioner, wherein the elevating mechanism (44) elevates and lowers the dust container (43) together with the suction grille member (29).

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