JP5305808B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner including an air filter that collects dust in the air sucked from a suction grill.

DESCRIPTION OF RELATED ART Conventionally, the air conditioning apparatus provided with the main body unit which has a heat exchanger and an air blower, and the decorative panel arrange | positioned under this main body unit is known. In this type of air conditioner, an air filter is provided on the suction grill of the decorative panel, and dust contained in the air sucked from the suction grill is collected by the air filter. For this reason, the dust is collected and accumulated in the air filter. Therefore, if the cumulative operation time of the air conditioner becomes long, the air filter becomes clogged, and the air conditioner operates as the ventilation resistance increases. Efficiency is reduced.
In order to solve this problem, the suction grille on which the air filter is disposed can be moved up and down, a rotating brush that removes dust attached to the air filter, a dust box that collects dust removed by the rotating brush, and this There has been proposed a guide rail and a drive motor for moving a dust box and a rotating brush along an air filter on a suction grill (for example, see Patent Document 1).
JP 2007-40689 A

By the way, when the above-described air conditioner is installed in a commercial kitchen or the like, the dust contained in the sucked air contains a large amount of oil, so it is easy to remove the dust adhering to the air filter. In addition, the life of the air filter is shortened, and oil is attached to the surface of the suction grille and the air chamber, which makes it difficult to clean and has to increase the number of cleanings. .
Then, the objective of this invention is providing the air conditioning apparatus which can be cleaned easily and can reduce the frequency | count of cleaning.

In order to solve the above problems, a first aspect of the present invention is an air conditioner including a main unit having a heat exchanger and a blower, and a decorative panel disposed below the main unit. A fixed filter that collects dust in the air sucked through the suction grille, a filter chamber provided between the main body unit and the decorative panel, and a filter transport unit disposed in the filter chamber; with collecting dust sucked in air from the lower surface side of the suction grille, along a lower surface of the suction grille by the filter transport unit, and an endless filter filter surface is fed in a predetermined feeding direction The filter transport unit includes a reciprocating unit that reciprocates the engaging member along a predetermined feeding direction, and the endless filter includes the endless filter Wherein the engagement member has an engagement receiving portion is engaged to the engagement member when moving in the feeding direction.
According to the above-described configuration, the endless filter collects dust in the air sucked from the lower surface side of the suction grille, and is disposed along the lower surface of the suction grille by the filter transport unit disposed in the filter chamber. Since the filter surface is sent in the feed direction, it is possible to sequentially change the filter surface for effective filtering in the endless filter. As a result, dust entering the filter chamber can be reduced, and the endless filter can be used uniformly throughout the entire area while reducing the number of times of cleaning of the filter chamber, particularly the fixed filter, thereby extending the life of the filter. In addition, it is possible to suppress a decrease in air conditioning efficiency as a whole. In the endless filter, when the engaging member is moved in the feeding direction, the engagement receiving portion is engaged with the engaging member, and the filter surface is fed in the feeding direction. Accordingly, the filter surface of the endless filter can be sent and changed with a simple configuration.

According to a second aspect of the present invention, in the first aspect, the endless filter is wound so as to cover a lower surface and an upper surface of a filter mounting portion constituting the suction grill, and the engagement receiving member is the endless shape. A plurality of filters are provided on the surface of the filter along the feed direction, and when the engagement member is operating in the predetermined feed direction, the engagement member can be engaged with the engagement member. When operating in the direction opposite to the feeding direction, the engagement with the engaging member can be released.
According to the above configuration, the endless filter can be sent only in the feeding direction with a simple mechanism, and the effective filter surface can be changed reliably.

According to a third aspect of the present invention, in the second aspect, the filter mounting portion is detachably provided on the suction grille integrally with the endless filter.
According to the said structure, handling becomes easy at the time of cleaning or replacement | exchange of an endless filter, and these operations can be performed easily.

According to a fourth aspect of the present invention, in any one of the first to third aspects, the reciprocating unit includes a dust removing unit that removes dust attached to the fixed filter while performing the reciprocating operation. It is characterized by.
According to the above configuration, the effective filter surface of the endless filter is changed in parallel with the dust removing unit reciprocating while removing dust adhering to the fixed filter, and the endless filter is uniformly used. By using it, the number of cleanings and the number of replacements can be reduced.

According to a fifth aspect of the present invention, in the fourth aspect, the suction grille includes a dust box in which the dust removed by the dust removing unit is transferred and accumulated from the dust removing unit. An elevating part that supports the dust box so as to be movable up and down with respect to the fixed filter and the dust removing part is provided.
According to the above configuration, the endless filter and the dust box can be moved up and down with respect to the fixed filter and the dust removing unit by the lifting unit, so that the endless filter and the dust box can be easily cleaned and the endless filter can be easily replaced. Can do.

  According to the present invention, the endless filter collects dust in the air sucked from the lower surface side of the suction grille, and sequentially feeds the filter surface that is sent in the feed direction by the filter transport unit and performs effective filtering. Since it can be changed, dust entering the filter chamber can be reduced, the number of cleanings in the filter chamber can be reduced, and the endless filter can be used throughout the entire area to extend the life of the endless filter. At the same time, a decrease in air conditioning efficiency can be suppressed as a whole.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of a ceiling-embedded air conditioner 100 according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of the ceiling-embedded air conditioner 100. FIG. 3 is a cross-sectional view of the ceiling-embedded air conditioner 100.
As shown in FIGS. 1 to 3, the ceiling-embedded air conditioner 100 includes a sheet metal main body unit 1 formed in a box shape. The main body unit 1, a filter chamber 20, and a decorative panel 21 are provided. Are stacked in three stages.
As shown in FIG. 1, a plurality of suspension fittings 1B are provided on the outer surface of the main unit 1, and each suspension fitting 1B has a suspension fixed to the ceiling surface 110 as shown in FIG. The lower bolt 2 is fixed by a nut 4 (FIG. 1), and the ceiling-embedded air conditioner 100 is suspended and installed from the ceiling surface 110 via these suspension bolts 2. In this case, the decorative panel 21 of the ceiling-embedded air conditioner 100 is disposed on the ceiling plate 112 provided below the ceiling surface 110 via the ceiling back space 111 and is exposed to the conditioned room.

As shown in FIG. 3, inside the main body unit 1, a heat insulating material 3 made of foamed polystyrene is disposed almost entirely on the inner side of the side plate 1 </ b> A and the top surface, and inside the heat insulating material 3, a blower 9, and A heat exchanger 11 is accommodated.
The blower 9 includes a motor 5 having a shaft disposed downward, and a turbo fan 7 attached to the shaft of the motor 5. The heat exchanger 11 is a plate fin type heat exchanger formed in a pentagonal shape in a top view, and is disposed so as to surround the blower 9.

Below the heat exchanger 11, a drain pan 13 made of a synthetic resin such as styrene resin is disposed so as to cover the lower surface 11 </ b> A of the heat exchanger 11, and a drain pump (not shown) that discharges the drain accumulated in the drain pan 13 to the outside. Abbreviation) is provided.
The drain pan 13 is disposed so as to be in contact with the inner surface of the side plate 1A of the main unit 1, the suction opening 14 is opened at the center of the drain pan 13, and the exhaust of the blower 9 passing through the heat exchanger 11 is passed through the peripheral portion. A blowout opening 15 is formed. A nozzle 17 that guides the air in the conditioned room that has passed through the suction opening 14 to the blower 9 is attached to the upper part of the suction opening 14. The drain pan 13 is screwed with various components such as an electrical box (not shown) that houses a control circuit, a power supply circuit, and the like of the ceiling-embedded air conditioner 100.

The filter chamber 20 is disposed directly below the drain pan 13. The filter chamber 20 has a ventilation hole 25 communicating with the blowout opening 15 of the drain pan 13, and a rectangular suction opening 26 communicating with the suction opening 14. Is formed. The suction opening 26 includes a frame portion 26A formed along the four sides of the suction opening 26. The frame portion 26A flows into the main unit 1 through the suction opening 26 as shown in FIGS. An air filter 40 that collects dust contained in the air in the conditioned room is fitted. The air filter 40 includes a filter material 41 formed in a mesh shape and a filter support frame 42 formed in a lattice shape that supports the filter material 41, and the filter material 41 and the filter support frame 42 are integrated. Is formed.
In this configuration, the filter chamber 20 has a cleaning mechanism (reciprocating operation unit) that automatically removes dust adhering to the air filter 40 on the windward side of the air filter 40, that is, on the lower surface (collecting surface) side of the air filter 40. ) 50. The cleaning mechanism 50 is configured such that the lower surface of the air filter 40 can be reciprocated in the direction indicated by the arrow X in FIG. 3, and removes dust adhering to the air filter 40 during the reciprocating operation. This is for sending in a predetermined feed direction in order to change the filter surface for actual filtering in an endless filter 121 (see FIG. 3) to be described later. The cleaning mechanism 50 will be described later.

On the lower surface of the filter chamber 20, a decorative panel 21 exposed in the conditioned room is attached by screws (not shown) or the like. The decorative panel 21 is formed with a suction port 22 that sucks in air in the conditioned room and a blowout port 23 that blows conditioned air that has passed through the heat exchanger 11 into the conditioned room. A louver 24 for changing is provided.
The suction port 22 communicates with the suction opening 26 of the filter chamber 20, and the blowout port 23 is formed at a position and a shape communicating with the ventilation hole 25 of the filter chamber 20.

The decorative panel 21 is fitted with a suction grill 30 that fits into the suction port 22 and a lifting unit 35 that supports the suction grill 30 by four hanging straps 36, 37, 38, 39. Yes. In the present embodiment, the elevating unit is configured by including the suction grill 30 and the elevating unit 35.
A rectangular opening 120 is provided at the center of the suction grill 30. During normal use, a filter mounting unit 122 (filter mounting portion) around which an endless filter 121 is wound is fitted into the opening 120. A plurality of engagement receiving projections 123 having a triangular cross section functioning as an engagement receiving portion are provided on the side portion of the endless filter 121 along a predetermined filter feeding direction.

In this case, the engagement receiving projection 123 is a case where the engagement member 131 moves in the left direction of the drawing (filter feed direction) along the arrow X direction in accordance with the reciprocating operation of the cleaning mechanism 50 described later in FIG. Includes a vertical engagement surface 123A formed substantially vertically so as to be engageable with the engagement member 131, and the engagement member 131 along the arrow X direction on the right side of the drawing (the direction opposite to the filter feed direction). ), An inclined engagement release surface 123B formed as an inclined surface is provided to enable disengagement from the engagement member 131.
The endless filter 121 and the filter mounting unit 122 are formed as a suction port 31 for sucking room air, and the endless filter 121 and the filter mounting unit 122 are in the suction opening in a state where the suction grill 30 is fitted to the suction port 22. 26, the suction port 31 communicates with the suction opening 26.

FIG. 4 is an assembly explanatory view of the endless filter and the filter mounting unit.
FIG. 5 is a side view of the endless filter and the filter mounting unit after assembly.
FIG. 6 is a front view after assembly of the endless filter and the filter mounting unit.
As shown in FIG. 3, the endless filter 121 is wound around the filter mounting unit 122 so as to cover the lower surface and the upper surface of the filter mounting unit 122 by being fitted from the side of the filter mounting unit 122.
The filter mounting unit 122 is roughly divided into a filter mounting unit main body 125, a pair of rotating rollers 126A and 126B rotatably supported on the short side of the filter mounting unit main body 125, and a side surface of the filter mounting unit main body 125. Fixing protrusions 127 for fixing the filter mounting unit main body 125 by being fitted in fitting portions (not shown) formed at four locations and formed on the suction grill main body 30X of the suction grill 30 are provided.

The lifting / lowering unit 35 is attached to the inside of the decorative panel 21, that is, the surface on the filter chamber 20 side through a sheet metal stay (not shown), and the four hanging straps 36 to 39 are fed or unwound. The suction grill 30 is raised and lowered within a predetermined range.
The suction grill 30 has two hanging straps 36 and 37 fixed to one side thereof, and two hanging straps 38 and 39 fixed to the other side thereof. The lifting unit 35 includes a first mechanism (not shown) for feeding and unwinding the hanging straps 36 and 37, a second mechanism (not shown) for feeding and unwinding the hanging straps 38 and 39, and the first A control board (not shown) for controlling the mechanism and the second mechanism is housed in one housing.

One end of each of the hanging straps 36 to 39 is fixed to the back surface of the suction grill 30, that is, the upper surface in FIG. 1, and the other end is turned horizontally by guides 55 and 56 provided on the back surface of the decorative panel 21. And accommodated in the elevating unit 35.
The first mechanism includes a bobbin (not shown) around which the hanging straps 36 and 37 are wound, a gear (not shown) for rotating the bobbin, and a motor (not shown). As a result, the bobbin is rotated in the forward or reverse direction, and the hanging straps 36 and 37 are fed out or rewound. Similarly, the other ends of the hanging straps 38 and 39 are wound around a bobbin (not shown) included in the second mechanism, and the forward or reverse operation of the motor included in the second mechanism is transmitted to the bobbin via the gear. Is rotated in the forward or reverse direction, and the hanging straps 38 and 39 are fed out or rewound.

In addition, as shown in FIG. 3, the suction grill 30 is fitted to the suction port 22 of the decorative panel 21, and the other side opposite to the one side 30 </ b> A facing the lifting unit 35. A dust box 57 is arranged along the side 30B. The dust box 57 is configured such that dust removed by the cleaning mechanism 50 is transferred from the cleaning mechanism 50 and accumulated, and is supported by the suction grill 30 so as to be movable up and down.
In this configuration, the filter chamber 20 includes the air filter 40 and a cleaning mechanism 50 that removes dust on the air filter 40, and the dust removed by the cleaning mechanism 50 is transferred from the cleaning mechanism 50 and accumulated. A dust box 57 is supported by the suction grill 30 so as to be movable up and down. For this reason, since the dust box 57 can be lifted and lowered together with the suction grill 30 with the air filter 40 and the cleaning mechanism 50 left in the filter chamber 20, the load on the lifting unit 35 can be reduced.
Further, as shown in FIG. 7, the cleaning mechanism 50 is provided with a pair of engaging members 131 for feeding the endless filter 121 in a predetermined feeding direction.

  The ceiling-embedded air conditioner 100 configured as described above allows a refrigerant supplied from an outdoor unit (not shown) to pass through the heat exchanger 11 so that the heat exchanger 11 functions as an evaporator or a condenser. As shown in FIG. 3, the air in the conditioned room is sucked from the suction port 31 by the operation of the blower 9, and the indoor air is cooled or heated by passing through the heat opening 11 through the suction opening 26, the suction opening 14, and the nozzle 17. Use conditioned air. Then, the ceiling-embedded air conditioner 100 blows conditioned air from the blowout opening 23 to the conditioned room through the blowout opening 15 and the ventilation hole 25 and cools or heats the conditioned room by the operation of the blower 9.

Next, the cleaning mechanism 50 will be described.
As shown in FIG. 1, the cleaning mechanism 50 includes a horizontally long brush unit 51 that extends over the entire width of the air filter 40 and a pair of guide rails that movably supports the brush unit 51 on the lower surface of the air filter 40. 52L, 52R. The guide rails 52L and 52R are formed in a long prismatic shape, and a rack gear (not shown) is formed on the upper surface of the guide rails 52L and 52R over the entire length of the guide rails 52L and 52R. Further, the guide rails 52L and 52R are connected to stays 53 and 53 whose both ends are suspended from the frame portion 26A of the filter chamber 20, respectively.
The cleaning mechanism 50 reciprocates the lower surface of the air filter 40 during a period when the operation of the ceiling-embedded air conditioner 100 is stopped, and automatically removes dust adhering to the air filter 40, The endless filter is fed in a predetermined feed direction to change the effective filter surface. During the operation of the ceiling-embedded air conditioner 100, the brush unit 51 is located at a standby position (for example, above the elevating unit 35) that does not inhibit ventilation.

7 is an external perspective view of the brush unit 51, and FIG. 8 is a perspective view showing a state in which the upper case is removed from the state of FIG.
As shown in FIG. 4, the brush unit 51 includes a case body 61 disposed on a pair of guide rails 52 </ b> L and 52 </ b> R. The case body 61 is combined with a lower case 62 and the lower case 62. And a case 63. As shown in FIG. 5, the case body 61 is provided with a horizontally long rotating brush 64 extending over the entire width of the case body 61. As shown in FIG. An opening 63 </ b> B is formed in which the outer peripheral portion of the rotating brush 64 protrudes toward the outside of the case body 61.
Further, the case body 61 is disposed on one end side 61 </ b> A of the case body 61 to rotate the rotary brush 64, and the case body 61 is disposed on the other end side 61 </ b> B of the case body 61. Is formed on the guide rails 52L and 52R.
An engagement member 131 that engages with the engagement receiving projection 123 of the endless filter 121 is provided on the lower surface of the lower case 62.

  The brush drive mechanism 65 meshes with a brush drive motor 71 screwed to the lower case 62 and a pinion (not shown) housed in the lower case 72 and provided on the drive shaft of the brush drive motor 71. A first transmission 73, a second transmission 74 provided coaxially with the first transmission 73, a third transmission 75 that meshes with the second transmission 74, and a coaxial with the third transmission 75 A fourth transmission wheel 76 provided on the upper side, and the fourth transmission wheel 76 meshes with a pinion 77 provided at one shaft end of the rotary brush 64. These first transmission wheel 73 to fourth transmission wheel 76 function as a decelerating wheel that decelerates the rotational speed of the brush drive motor 71 to the rotational speed for the rotary brush 64 and defines the rotational direction of the rotary brush 64. The brush drive motor 71 is controlled to rotate in the direction of arrow A (counterclockwise direction) in FIG. 5, and the rotation of the brush drive motor 71 passes through the first transmission vehicle 73 to the fourth transmission vehicle 76. Thus, since the speed is reduced and transmitted to the rotating brush 64, the rotating brush 64 is rotated in the direction of arrow B (clockwise direction) in FIG. Thereby, dust adhering to the air filter 40 is scraped off by the rotation of the air filter 40, and the dust thus scraped off is collected inside the case body 61.

As shown in FIG. 8, the moving mechanism 66 includes a moving motor 81 screwed to the lower case 62, and a pinion (which is housed in the lower case 72 and provided on the drive shaft of the moving motor 81. A fifth transmission wheel 82 meshing with the fifth transmission wheel 82, a sixth transmission gear 83 provided coaxially with the fifth transmission gear 82, a seventh transmission gear 84 meshing with the sixth transmission gear 83, An eighth transmission 85 provided coaxially with the seventh transmission 84, a ninth transmission 86 engaged with the eighth transmission 85, and a tenth transmission 87 provided coaxially with the ninth transmission 86 The tenth transmission 87 is meshed with a pinion 88 that meshes with the rack gear of one guide rail 52R. One end of a rotating shaft 89 provided across the width direction of the lower case 62 is connected to the pinion 88, and a pinion 90 having the same diameter and the same number of teeth as the pinion 88 is connected to the other end of the rotating shaft 89. ing. The pinion 90 meshes with the rack gear of the other guide rail 52L. By rotating the pinions 88 and 90 on these rack gears, the brush unit 51 is moved along the lower surface of the air filter 40 from one end side 40A to the other end side 40B as shown in FIG. be able to.
The fifth transmission wheel 82 to the tenth transmission wheel 87 function as a speed reduction vehicle that decelerates the rotation speed of the moving motor 81 to a rotation speed suitable for the brush unit 51 to move on the guide rails 52L and 52R. The rotation direction of the pinions 88 and 90 meshing with the rack gears of the guide rails 52L and 52R is defined.

  The moving motor 81 is controlled to selectively rotate in the direction of arrow C (clockwise direction) or the direction of arrow D (counterclockwise direction) in FIG. When the movement motor 81 is driven in the direction of arrow C, the rotation of the movement motor 81 is decelerated via the fifth transmission wheel 82 to the tenth transmission wheel 87 and the pinion 88 remains in the same rotation direction. 90. Thereby, the brush unit 51 moves on the guide rails 52L and 52R in the arrow X1 direction (predetermined feeding direction). Similarly, when the movement motor 81 is driven in the direction of the arrow D, the rotation of the movement motor 81 is decelerated via the fifth transmission wheel 82 to the tenth transmission wheel 87, and the pinion remains in the same rotation direction. 88, 90. Thereby, the brush unit 51 moves on the guide rails 52L and 52R in the direction of the arrow X2 (the direction opposite to the predetermined feeding direction).

FIG. 9 is a side view of the brush unit 51 in a state where the engagement member 131 engages with the engagement receiving projection 123.
FIG. 10 is a side view of the brush unit 51 in a state where the engagement member 131 releases the engagement with the engagement receiving protrusion 123.
As shown in FIG. 9, the brush unit 51 includes a dust storage chamber 67 that receives dust removed (removed) by the rotary brush 64 and temporarily stores the dust, below the rotary brush 64. As shown in FIG. 1, the dust chamber 67 protrudes between the guide rails 52 </ b> L and 52 </ b> R and is integrally formed on the lower surface of the lower case 62 over the width direction of the lower case 62.
The dust storage chamber 67 includes a lower lid (bottom lid) 68 that can be opened and closed on the lower surface. The lower lid 68 is opened when the dust accumulated in the dust storage chamber 67 is dropped into the dust box 57. The lower lid 68 is hinged to the lower edge of the side surface 67A on the lifting unit 35 side in the dust storage chamber 67 via a hinge shaft 69, and is normally attached with a spring in a direction to close the dust so that the internal dust does not fall. It is energized.

The lower lid 68 includes an extending portion 68A extending toward the hinge shaft 69, and a plurality of triangular projecting pieces 91 projecting downward are formed on the extending portion 68A. These protruding pieces 91 are provided at substantially the same size with a predetermined interval in the width direction of the dust containing chamber 67, and when the brush unit 51 is moved onto the dust box 57, the protruding piece 91 comes into contact with the dust box 57, It has a function of opening the lower lid 68 against the spring force.
Further, an engaging member 131 projects from the lower surface of the lower case 62 and is disposed perpendicular to the endless filter 121.
The engagement member 131 is attached to an engagement member base 132 fixed to the lower surface of the lower case 62 and a shaft 132A provided on the engagement member base 132 so as to be rotatable in the clockwise direction in FIG. In order to apply an urging force for holding the engaging member main body 133 and the engaging member main body 133 in a vertical state as shown in FIG. 9 in an unloaded state, the engaging member base 132 and the engaging member main body 133 are provided. And a coil spring 134 stretched over.
As shown in FIG. 9, the engagement member main body 133 has a vertical engagement surface of the engagement receiving projection 123 of the endless filter 121 when the cleaning mechanism 50 is moved in the arrow X2 direction (predetermined feed direction). It has an engagement surface 135 that abuts against 123A and holds the engaged state. Thereby, the endless filter 121 is sent in the direction of the arrow X2 with the movement of the engaging member 131.

Further, as shown in FIG. 10, the engagement member main body 133 has an engagement receiving projection of the endless filter 121 when the cleaning mechanism 50 is moved in the direction of the arrow X1 (the direction opposite to the predetermined feed direction). 123 slidably abuts against the inclined engagement release surface 123B, and moves over the inclined engagement release surface 123B while rotating the engagement member main body 133 in the clockwise direction against the biasing force of the coil spring 134. And a sliding surface 136. As a result, the endless filter 121 remains in the same place without changing its position.
That is, the endless filter 121 is sent by the reciprocating operation of the cleaning mechanism 50 for the distance corresponding to the travel distance of the forward path.

11 is a side sectional view showing the brush unit 51 and the dust box 57, and FIG. 12 is a side sectional view showing a state in which the brush unit 51 has moved onto the dust box 57. As shown in FIG. In FIG. 11 and FIG. 12, the description of the transmission vehicle and the like is omitted.
The dust box 57 is detachably supported by the suction grill 30 and, as shown in FIG. 11, a box main body 92 having an open upper surface and a box shape, and an upper surface of the box main body 92. And an openable / closable upper lid 93. As shown in FIG. 8, the upper lid 93 is opened when the brush unit 51 moves onto the dust box 57 and receives the dust dropped from the dust storage chamber 67 of the brush unit 51.
The upper lid 93 is hinged to the upper edge portion of the side surface 92 </ b> A located on the other side 30 </ b> B side of the suction grill 30 in the box body 92 via a hinge shaft 94. Further, a stopper portion 92 </ b> B <b> 1 that extends to the upper portion of the upper lid 93 is formed on the upper edge portion of the side surface 92 </ b> B that faces the side surface 92 </ b> A of the box body 92. The stopper 92B1 is in contact with the upper lid 93 and restricts the upper lid 93 from opening to the outside of the box body 92. Further, the hinge shaft 94 is provided with a spring member 95, and the upper lid 93 is closed so that dust inside the dust box 57 is not blown up by wind when the brush unit 51 is separated from the dust box 57 in a normal state. It is spring-biased in the direction.
Further, the upper lid 93 is formed with a plurality of triangular projecting pieces 96 projecting upward. These projecting pieces 96 are provided in substantially the same size at a predetermined interval in the width direction of the dust box 57, and when the brush unit 51 is moved onto the dust box 57, the protruding pieces 96 are connected to the dust containing chamber 67 of the brush unit 51. It has a function of abutting and opening the upper lid 93 against the spring force.

Next, the operation will be described.
When the operation of the ceiling-embedded air conditioner 100 is stopped, such as at midnight, the above-described cleaning mechanism 50 is operated to clean the air filter 40 as a fixed filter and feed the endless filter (filter surface). Change).
Specifically, when the movement motor 81 of the cleaning mechanism 50 is operated, the rotation of the movement motor 81 is transmitted to the pinions 88 and 90 via a plurality of transmissions, and the rotation of the pinions 88 and 90 causes the rotation. The brush unit 51 reciprocates on the guide rails 52L and 52R.
As a result, when the cleaning mechanism 50 starts moving in the arrow X2 direction (predetermined feeding direction) from the standby position, the engagement member main body 133 is the foremost among the plurality of engagement receiving projections 123 positioned in the arrow X2 direction. It abuts on the vertical engagement surface 123A of one of the engagement receiving projections 123 positioned at the position.
Furthermore, the engaging member 131 sends the endless filter 121 in the direction of the arrow X2 while maintaining the state as it is.

In parallel with this, when the brush drive motor 71 is operated, as shown in FIG. 11, the rotation of the brush drive motor 71 is transmitted to the rotary brush 64 via a plurality of transmission wheels, and the rotary brush 64 Rotates in the direction of arrow B in the figure. Due to the rotation of the rotating brush 64, the dust 200 adhering to the air filter 40 is scraped off by the rotating brush 64 and adheres to the rotating brush 64. A dust peeling plate 58 extending over the entire width of the rotary brush 64 is attached to the case body 61 below the rotary brush 64. The dust peeling plate 58 has a claw portion that is bent in a direction substantially along the outer peripheral surface of the rotating brush 64 and contacts the rotating brush 64. When the rotating brush 64 rotates, the rotating brush 64 is rotated. And the claw portion come into contact with each other, and the dust 200 adhering to the rotating brush 64 is peeled off and accommodated in the dust accommodating chamber 67.
The dust 200 stored in the dust storage chamber 67 is dropped into the dust box 57 when the dust storage chamber 67 (brush unit 51) moves onto the dust box 57. Specifically, when the brush unit 51 moves onto the dust box 57, the protruding piece 96 formed on the upper cover 93 of the dust box 57 and the dust storage chamber 67 of the brush unit 51 come into contact with each other. Since the projecting piece 96 has an oblique side extending downward toward the brush unit 51, the dust accommodating chamber 67 moves toward the dust box 57 in a state where the oblique side and the dust accommodating chamber 67 are in contact with each other. Then, along with this moving operation, the projecting piece 96 is pushed, and the upper lid 93 is opened inside the box body 92 around the hinge shaft 94.

On the other hand, in the lower lid 68 of the dust storage chamber 67 of the brush unit 51, the protruding piece 91 formed on the extending portion 68 </ b> A of the lower lid 68 contacts the box body 92 of the dust box 57. Since the projecting piece 91 includes an oblique side portion extending upward toward the dust box 57, the dust accommodating chamber 67 is disposed on the dust box 57 side in a state where the oblique side portion and the box body 92 of the dust box 57 are in contact with each other. When moved, the projecting piece 91 is pushed along with the moving operation, and the lower lid 68 is opened to the outside of the dust chamber 67 around the hinge shaft 94. Thereby, the dust 200 in the dust chamber 67 is dropped into the box body 92 of the dust box 57 via the upper surface of the upper lid 93 of the dust box 57.
Then, the moving motor 81 of the cleaning mechanism 50 stops driving, and is now driven to move in the direction of the arrow X1.
As a result, when the cleaning mechanism 50 starts to move from the standby position in the direction of arrow X1 (the direction opposite to the predetermined feed direction), the sliding surface 136 of the engagement member main body 133 has a plurality of engagements positioned in the direction of arrow X1. Of the receiving protrusions 123, the inclined engaging release surface 123B of any of the engaging receiving protrusions 123 positioned closest to the front is brought into contact.

When the cleaning mechanism 50 further moves in the arrow X1 direction (the direction opposite to the predetermined feed direction), the sliding surface 136 of the engagement member main body 133 is inclined and engaged with the engagement receiving projection 123 of the endless filter 121. Climbing while sliding on the release surface 123B.
At this time, the engagement member main body 133 moves up the inclined engagement release surface 123B while rotating the engagement member main body 133 in the clockwise direction against the urging force of the coil spring 134, and the engagement receiving protrusion 123 will be overcome.
As a result, the engagement member main body 133 returns to the original vertical state by the biasing force of the coil spring 134.
Similarly, the engagement member main body 133 gets over the plurality of engagement receiving projections 123 until the cleaning mechanism 50 reaches the standby position.

Accordingly, since the conveying force is not transmitted from the engagement member main body 133 to the endless filter 121, the endless filter 121 can be placed at the same place without changing the position when the cleaning mechanism 50 has finished moving in the arrow X2 direction. The filter surface that is actually located on the lower surface of the suction grill 30 and performs filtering is changed.
As a result, the entire endless filter 121 can be used uniformly, and the number of cleanings of the endless filter 121 itself and the filter chamber 20 and thus the air filter 40 functioning as a fixed filter can be maintained while maintaining air conditioning efficiency. Can be reduced.

  When the endless filter 121 and the dust box 57 are used for a predetermined period (for example, three months), the endless filter 121 and the dust box 57 are lowered together with the suction grill 30 as shown in FIG. At this time, since the filter mounting unit 122 and the dust box 57 around which the endless filter 121 is wound are detachable from the suction grill 30, the filter mounting unit 122 is detached from the suction grill 30 and the endless filter 121 is removed. By attaching a new endless filter 121, dust containing oil can be easily discarded. Similarly, the dust box 57 can be removed from the suction grill 30 and the dust in the dust box 57 can be easily discarded.

  In the above description, in the present embodiment, the endless filter 121 and the dust box 57 are lowered together with the suction grill 30 when the operation time of the ceiling-embedded air conditioner 100 reaches a predetermined time (for example, three months). However, the present invention is not limited to this. For example, when the air volume sensor detects a decrease in the air volume caused by clogging of the endless filter 121 and the air volume falls below a predetermined air volume, the suction grill 30 is lowered, or the dust box 57 A full sensor for detecting the amount of dust may be provided inside, and the suction grill 30 may be lowered when this full sensor is activated.

As described above, according to this embodiment, the engagement member 131 that operates integrally with the cleaning mechanism 50 is engaged by the reciprocating operation of the cleaning mechanism 50 that functions as the reciprocating operation unit. When the member 131 is moving in the feed direction of the endless filter 121, the end 131 is uniformly distributed because the member 131 is fed in the feed direction along the lower surface of the suction grill 30 (filter mounting unit 122). Can be used, and the frequency of cleaning can be reduced while reliably removing dust containing oil.
Furthermore, since the endless filter 121 includes the suction grill 30 and the lifting unit 35 that support the filter mounting unit 122 around which the endless filter 121 is wound so as to be liftable, the endless filter 121 that collects dust containing oil is included. It is possible to easily replace and thus dispose of dust containing oil.

In addition, according to the present embodiment, the endless filter 121 has a configuration that only fits into the filter mounting unit 122. Therefore, the replacement work of the endless filter 121 and, hence, the disposal work of the collected dust can be reduced. Can do.
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to this, A various change implementation is possible.
In the above description, the engagement receiving projection 123 is visible from the floor side. However, the cover may be provided at a position facing the engagement receiving projection 123 of the opening 120 of the suction grill 30. Is possible. Thereby, the design is also improved.
In the above description, the filter mounting unit 122 around which the endless filter 121 is wound is configured to be completely detachable from the suction grill 30. However, a hinge mechanism is provided on one side of the filter mounting unit 122 so that the filter can be removed from the suction grill 30. The mounting unit 122 can be raised to replace the endless filter 121 from the other side.
In the above description, the cleaning mechanism 50 is used as the reciprocating operation unit. However, a dedicated mechanism for reciprocating the engaging member 131 can be used as the filter transport unit (reciprocating operation unit). is there. This makes it possible to use a motor with a smaller driving force.
In the above description, the engaging member 131 is constituted by the engaging member base 132, the engaging member main body 133, and the coil spring 134. However, when the engaging member is driven in the feeding direction, it is difficult to bend. In the case of driving in the direction opposite to the direction, it is possible to use a flexible member that is easily bent. As a result, the number of parts is reduced and the manufacturing cost can be reduced.

1 is a perspective view of a ceiling-embedded air conditioner 100 according to an embodiment of the present invention. 1 is an exploded perspective view of a ceiling-embedded air conditioner 100. FIG. 1 is a cross-sectional view of a ceiling-embedded air conditioner 100. FIG. It is assembly explanatory drawing of an endless filter and a filter mounting unit. It is a side view after the assembly of an endless filter and a filter mounting unit. It is a front view after the assembly of an endless filter and a filter mounting unit. 2 is an external perspective view of a brush unit 51. FIG. It is a perspective view which shows the state which removed the upper case from the state of FIG. FIG. 6 is a side view of the brush unit 51 in a state where the engagement member 131 engages with the engagement receiving projection 123. FIG. 6 is a side view of the brush unit 51 in a state where the engagement member 131 releases the engagement with the engagement receiving protrusion 123. FIG. 4 is a side sectional view showing a brush unit 51 and a dust box 57. 6 is a side cross-sectional view showing a state where the brush unit 51 has moved onto the dust box 57. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main body unit 9 Blower 11 Heat exchanger 20 Filter chamber 21 Cosmetic panel 22 Suction port 23 Outlet 24 Louver 26 Suction opening 26A Frame part 30 Suction grill (elevating part)
35 Lifting unit (lifting unit)
37 Dust box 40 Air filter (fixed filter)
50 Cleaning mechanism (filter transport section, reciprocating section)
81 Motor for movement (filter transport section, reciprocating section)
120 opening 121 endless filter 122 filter mounting unit 123 engagement receiving projection (engagement receiving portion)
123A Vertical engagement surface 123B Inclined engagement release surface 125 Filter mounting unit main body 126A, 126B Rotating roller 127 Fixing protrusion 131 Engagement member 132 Engagement member base 132A Shaft 133 Engagement member main body 135 Engagement surface 136 Sliding surface 200 dust

Claims (5)

In an air conditioner comprising a main unit having a heat exchanger and a blower, and a decorative panel disposed below the main unit,
A fixed filter for collecting dust in the air sucked through the suction grille of the decorative panel; a filter chamber provided between the main unit and the decorative panel;
A filter carrier disposed in the filter chamber;
With collecting dust sucked in air from the lower surface side of the suction grille, along a lower surface of the suction grille by the filter transport unit, and an endless filter filter surface is fed in a predetermined feeding direction ,
The filter transport unit has a reciprocating operation unit that reciprocates the engaging member along a predetermined feeding direction,
The endless filter has an engagement receiving portion that is engaged with the engagement member when the engagement member moves in the feed direction . The air conditioner according to claim 1 , wherein
The endless filter is wound so as to cover the lower surface and the upper surface of the filter mounting portion constituting the suction grille,
A plurality of the engagement receiving members are provided along the feed direction on the surface of the endless filter, and can be engaged with the engagement member when the engagement member is operating in the predetermined feed direction. And when the engagement member is operating in the direction opposite to the feed direction, the engagement with the engagement member can be released.
An air conditioner characterized by that. In the air conditioning apparatus according to claim 2 ,
The air conditioner characterized in that the filter mounting part is detachably provided on the suction grille integrally with the endless filter. The air conditioner according to any one of claims 1 to 3 ,
The air-conditioning apparatus according to claim 1, wherein the reciprocating unit includes a dust removing unit that removes dust adhering to the fixed filter while performing the reciprocating operation. The air conditioner according to claim 4 ,
The suction grill includes a dust box in which the dust removed by the dust removing unit is transferred from the dust removing unit and accumulated.
The air conditioner includes an elevating unit that supports the dust box so as to be movable up and down with respect to the fixed filter and the dust removing unit.

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