JP5565515B2 - Air conditioning indoor unit - Google Patents

Description

  The present invention relates to an air conditioner indoor unit installed on a ceiling, and more particularly to an air conditioner indoor unit that closes a suction port provided on a lower surface with a panel.

  Conventionally, in a ceiling-mounted air conditioning indoor unit, the suction port is always open, and the filter and the interior are exposed to the human eye through the suction port, so that the design of the air conditioning indoor unit is significantly deteriorated. In order to solve the problem, for example, an air conditioning indoor unit disclosed in Patent Document 1 (Japanese Patent Application Laid-Open No. 2008-209099) has improved design by closing a suction port with a panel when operation is stopped. According to Patent Document 1 (Japanese Patent Application Laid-Open No. 2008-209099), when the operation of the air conditioning indoor unit is stopped, the panel hides the suction port, and when the operation of the air conditioning indoor unit is performed, the panel is lowered. When the suction port is exposed and the filter is cleaned and replaced, the panel moves further downward than the operating position.

  However, in recent years, a filter cleaning mechanism has also been installed in an air conditioning indoor unit installed on the ceiling, and the configuration around the panel tends to be complicated. Therefore, care must be taken so that the operation of the panel is not hindered by the filter cleaning mechanism and does not become unsafe.

  An object of the present invention is to provide an air conditioning indoor unit having high panel operation reliability in a ceiling-mounted air conditioning indoor unit provided with a filter cleaning mechanism and a panel lifting mechanism.

  The air conditioning indoor unit according to the first aspect of the present invention has a suction port located on the lower surface of the main body, removes dust contained in the air sucked from the suction port by a filter, and removes dust adhering to the filter by a filter cleaning mechanism. A ceiling-mounted air conditioning indoor unit that is detached, and includes a lift panel, a lift mechanism, a dust box, and panel support means. The lift panel is in the vicinity of the suction port and is lowered to the first position during maintenance. The elevating mechanism moves the elevating panel in the ascending direction and the descending direction. The dust box is detachably attached to the elevating panel and stores the dust detached from the filter. The panel support means rotatably supports one end of the lift panel in the vicinity of the suction port, and releases the support of the end as necessary. The elevating mechanism moves the elevating panel to the second position closer to the ceiling than the first position away from the suction port during operation, and moves the elevating panel to the third position that closes the suction port when stopped. . Further, the elevating mechanism lifts the elevating panel, and moves the elevating panel to any one of the first position, the second position, and the third position by changing the descending amount or the ascending amount due to the lifting. The panel support means supports the end of the lift panel when the lift panel moves between the third position and the second position, and lifts and lowers when the lift panel moves from the third position to the first position. Release the support at the edge of the panel. The lifting panel that moves to at least the first position is accompanied by a dust box.

  In this air conditioning indoor unit, since the dust box is lowered to the maintenance position together with the lifting panel, the operation is simpler than lowering the dust box and the lifting panel separately, and accordingly, the operation of the lifting panel is highly reliable. In addition, the user can save the trouble of carrying the dust box from the air conditioner indoor unit and can discard the dust accumulated in the dust box at the maintenance position.

  Further, since the position of the lift panel is determined by changing the amount of descent or the amount of lift by lifting, it is possible to set a maintenance position corresponding to the height of the ceiling, which is convenient for the user.

  Furthermore, since the lift panel is supported at one end at the second position during operation, it is possible to prevent the panel from being unstablely shaken by vibration of the ceiling or wind pressure of the intake air. Further, when moving to the first position for maintenance, the support of the end of the lift panel is released, so that the movement is not hindered.

  An air conditioning indoor unit according to a second aspect of the present invention is the air conditioning indoor unit according to the first aspect, wherein the panel support means includes a first rotation support part and a second rotation support part. A 1st rotation support part is provided in the edge part of a raising / lowering panel, and comprises the rotation center of a raising / lowering panel. The second rotation support portion is fitted to the first rotation support portion and rotatably supports the first rotation support portion. The second rotation support portion is provided with a restriction portion that restricts movement of the lift panel in the direction of the rotation center axis.

  In this air conditioning indoor unit, shaking of the lifting panel in the direction of the rotation center axis due to vibration of the ceiling, wind pressure of the intake air, or the like is prevented.

  In the air conditioning indoor unit according to the first aspect of the present invention, the panel is prevented from unstablely shaking due to vibration of the ceiling and the wind pressure of the intake air. Further, when moving to the first position for maintenance, the support of the end of the lift panel is released, so that the movement is not hindered.

  In the air conditioning indoor unit according to the second aspect of the present invention, the vibration of the panel in the direction of the rotation center axis due to the vibration of the ceiling and the wind pressure of the suction air is prevented.

The external appearance perspective view of the air-conditioning indoor unit which concerns on one Embodiment of this invention. (A) The side view at the time of operation stop of an air-conditioning indoor unit. (B) The side view at the time of the driving | running of an air-conditioning indoor unit. (C) Side view at the time of maintenance. Sectional drawing of an air-conditioning indoor unit. The disassembled perspective view of the main body of an air-conditioning indoor unit. The disassembled perspective view of a lower main body. The disassembled perspective view of the filter storage frame of a filter cleaning mechanism. Sectional drawing inside a filter storage frame. (A) Sectional drawing of a filter storage part when a filter exists in a front storage part. (B) Sectional drawing of a filter storage part when a filter exists in a back storage part. (C) Sectional drawing of a filter storage part when taking out a filter. The disassembled perspective view of a movable panel. The perspective view of a makeup | decoration panel. The disassembled perspective view of a hinge coupling device. The exploded perspective view of a raising / lowering apparatus. The layout of the components inside the lifting device. The perspective view of a locking device. The perspective view of the state in which the movable panel opened the suction inlet. The perspective view in the state where the movable panel is descending. The expanded sectional view of a blower outlet module. The perspective view of a blower outlet module. The top view of the edge part of a movable panel. The front view of the hanging metal fitting connected with the front-end | tip of the wire of a raising / lowering apparatus. (A) The top view of the suspension metal coupling member to which a suspension metal fitting is connected. (B) Sectional drawing in the XX line of (a). (A) The top view of the hanging bracket connection member just before a hanging bracket is connected. (B) Sectional drawing in the YY line of (a). (A) The top view of a locking device. (B) The front view of a locking device.

  Embodiments of the present invention will be described below with reference to the drawings. The following embodiments are specific examples of the present invention and do not limit the technical scope of the present invention.

<Configuration of air conditioning indoor unit 2>
FIG. 1 is an external perspective view of an air conditioning indoor unit according to an embodiment of the present invention. In FIG. 1, the air conditioning indoor unit 2 includes a main body 20 having a suction port 20a and an outlet 20b on a lower surface, a movable panel 24 that opens and closes the suction port 20a, and a first air direction adjusting blade 52 that opens and closes the outlet 20b. ing. The suction port 20a and the air outlet 20b are adjacent to each other with a certain distance therebetween, so that a phenomenon in which air blown from the air outlet 20b is sucked into the air inlet 20a, that is, a so-called short circuit does not occur. The lower surface of the main body 20 is covered with a decorative panel 21, and it is the decorative panel 21 that is actually exposed to the ceiling surface. The outlines of the suction port 20 a and the air outlet 20 b are formed by the decorative panel 21.

  2A is a side view when the operation of the air conditioning indoor unit is stopped, FIG. 2B is a side view when the air conditioning indoor unit is operated, and FIG. 2C is a side view during maintenance. . 2A, 2B, and 2C, the movable panel 24 is apparently integrated with the decorative panel 21 when the air conditioning indoor unit 2 is stopped. In FIG.2 (b), when the air-conditioning indoor unit 2 operates, the movable panel 24 opens the suction inlet 20a, and the 1st wind direction adjustment blade | wing 52 opens the blower outlet 20b. One end of the movable panel 24 is supported by the main body 20 by a hinge, and the movable panel 24 rotates to open the suction port 20a.

  Moreover, in FIG.2 (c), the movable panel 24 can be lowered | hung to the maintenance position which a user's hand reaches in the state hung on the wire 71 extended from the main body 20 side. However, since the movable panel 24 cannot be lowered to the maintenance position when one end is supported by the main body 20 with a hinge, the maintenance is performed after the suction port 20a is closed and the support by the main body 20 is released. Descent to position.

  FIG. 3 is a cross-sectional view of the air conditioning indoor unit. In FIG. 3, the air conditioning indoor unit 2 further includes a filter 9, a filter cleaning mechanism 10, an indoor heat exchanger 12, an indoor fan 13, a drain pan 14, and an outlet module 50. During the operation of the air conditioning indoor unit 2, the inlet 20a and the outlet 20b are opened, the indoor fan 13 is rotated, and air is sucked from the inlet 20a.

(Indoor heat exchanger 12)
The indoor heat exchanger 12 has a shape in which two heat exchangers are adjacent to each other in different inclined postures. For convenience of explanation, the upper heat exchanger is the upper heat exchanger 12a and the lower heat exchanger is the lower heat exchanger. This is called the exchanger 12b.

  The upper end of the upper heat exchanger 12a is located on the inner upper side of the main body 20, and the angle inclined from the upper end to the lower end is set to 45 ° or less with respect to the vertical line, so that the dew condensation water is surely exchanged in the upper heat It goes to the drain pan 14 through the vessel 12a. For this reason, the drain pan 14 does not need to be arrange | positioned in the downward whole area of the top heat exchanger 12a, and is arrange | positioned only under the vicinity of the lower end of the top heat exchanger 12a.

  The upper end of the lower heat exchanger 12b is disposed close to the lower end of the upper heat exchanger 12a, and the angle inclined from the upper end to the lower end exceeds 45 ° with respect to the vertical line. For this reason, since condensed water may fall directly, the drain pan 14 is arrange | positioned in the downward whole area of the lower heat exchanger 12b.

  The upper heat exchanger 12a is set to be longer than the lower heat exchanger 12b, and the lower end corner is close to the upper end center of the lower heat exchanger 12b. For this reason, the amount by which the upper heat exchanger 12a is made longer than the lower heat exchanger 12b is offset.

(Indoor fan 13)
The indoor fan 13 is a cross-flow fan, has a width dimension longer than the diameter, and sucks air from the direction perpendicular to the rotation axis. Therefore, the indoor fan 13 sucks air from the single suction port 20a to the single blower outlet 20b. Can be blown out. The sucked air passes through the filter 9 and the indoor heat exchanger 12 and enters the indoor fan 13. Hereinafter, the air flow path from the suction port 20a to the indoor fan 13 is referred to as a suction flow path 31a.

  The air blown out from the indoor fan 13 passes through the blowout outlet module 50 and is blown out from the blowout opening 20b. The blower outlet 20b is provided with a first wind direction adjusting blade 52, which is a component of the blower outlet module 50, and the first wind direction adjusting blade 52 can be adjusted in inclination angle by a motor. The 1st wind direction adjustment blade | wing 52 closes the blower outlet 20b. Hereinafter, the air flow path from the indoor fan 13 to the blower outlet 20b is referred to as a blowout flow path (second blowout flow path 41a, first blowout flow path 51a). A tongue 15 is provided between the indoor fan 13 and the drain pan 14 and on the second blow-off flow path 41a side, and this tongue 15 prevents leakage of blown air and improves performance. . And since the lower end part of the lower heat exchanger 12b is located under the tongue part 15, it is dead compared with the positional relationship of a tongue part and a heat exchanger like the former (for example, refer Unexamined-Japanese-Patent No. 10-205796). Space can be used effectively. The tongue 15 is a member independent of the indoor fan 13 and the drain pan 14.

(Main body 20)
Since the air conditioning indoor unit 2 includes the filter cleaning mechanism 10 above the movable panel 24, the height of the main body 20 is larger than that of a standard air conditioning indoor unit that does not include the filter cleaning mechanism 10. The air conditioning indoor unit 2 has an expansion frame connected to the main body of the standard air conditioning indoor unit in order to use the main body of the standard air conditioning indoor unit.

  FIG. 4 is an exploded perspective view of the main body of the air conditioning indoor unit. In FIG. 4, the main body 20 is roughly divided into an upper main body 26, a main body extension frame 27, and a lower main body 28. The upper body 26 includes the polystyrene foam, the indoor heat exchanger 12, and the indoor fan 13 that form the suction flow path 31a and the second blow-out flow path 41a shown in FIG. As for the assembly order of the main body 20, the main body expansion frame 27 is connected to the upper main body 26, and the lower main body 28 is connected to the main body expansion frame 27. The main body expansion frame 27 is an intermediate member that connects the upper main body 26 and the lower main body 28, and the outer shell is made of sheet metal and has a rectangular parallelepiped shape, and has sufficient strength against the increase in weight of the lower main body 28. ing. In the lower main body 28, the filter cleaning mechanism 10, the decorative panel 21, the air outlet module 50, and the like shown in FIG.

  FIG. 5 is an exploded perspective view of the lower body. In FIG. 5, the hinge connecting device 6, the lifting device 7, the filter housing frame 104 of the filter cleaning mechanism 10, the air outlet module 50, and the air outlet module case 50 a are mounted on the upper surface of the decorative panel 21. A movable panel 24 is attached to the lower surface of the decorative panel 21.

<Filter cleaning mechanism 10>
FIG. 6 is an exploded perspective view of the filter storage frame of the filter cleaning mechanism. In FIG. 6, the filter storage frame 104 includes a filter 9 having a rack 101 formed at the edge, a roller 102 having a pinion gear 102 a, a filter stabilizing plate 103 that prevents the filter 9 from lifting, and a movement path of the filter 9. A filter storage frame 104 to be formed is attached.

(Filter 9)
The filter 9 has a mesh portion 9a and an edge portion 9b that holds the periphery of the mesh portion 9a. As shown in FIG. 3, the filter 9 is disposed on the front side of the indoor heat exchanger 12, and from the air taken in from the room Remove dust. Thus, the filter 9 prevents dust floating in the air from contaminating the surface of the indoor heat exchanger 12. A rack 101 that meshes with the pinion gear 102 a is formed on the edge 9 b of the filter 9.

(Roller 102)
The roller 102 has a plurality of pinion gears 102a and a connecting shaft 102b that coaxially connects the plurality of pinion gears 102a. The pinion gear 102a meshes with the rack 101 of the filter 9 and rotates to move the filter 9 horizontally.

(Filter storage frame 104)
The filter storage frame 104 has an upper frame 104a and a lower frame 104b, and the upper frame 104a and the lower frame 104b are vertically overlapped with a certain distance to form a filter storage unit. Further, the upper frame 104a is formed with a motor housing portion 104c, which houses a transmission gear 104d that meshes with the pinion gear 102a, a drive gear 104e that drives the transmission gear 104d, and a filter drive motor 104f that rotates the drive gear 104e. Is done.

  Here, the positional relationship of the filter drive motor 104f and the brush drive motor 108f with respect to the filter storage frame 104 and the filter storage portion will be described in detail with reference to the drawings. FIG. 7 is a sectional view of the inside of the filter storage frame. In FIG. 7, the filter drive motor 104f and the brush drive motor 108f are indicated by a two-dot chain line so that the positions of the filter drive motor 104f and the brush drive motor 108f with respect to the filter storage frame 104 are clear. The filter drive motor 104f and the brush drive motor 108f are located above both sides of the filter storage frame 104 in the longitudinal direction, that is, above both sides of the suction port 20a in the longitudinal direction.

  In FIG. 7, a drive gear 104e is connected to the rotation shaft of the filter drive motor 104f, and a transmission gear 104d is engaged with the drive gear 104e. The transmission gear 104d rotates the pinion gear 102a of the roller 102. The filter storage unit includes a front storage unit 105 and a rear storage unit 106, and the lengths of the front storage unit 105 and the rear storage unit 106 correspond to the length in the longitudinal direction of the filter 9.

  8A is a cross-sectional view of the filter storage portion when the filter is in the front storage portion, and FIG. 8B is a cross-sectional view of the filter storage portion when the filter is in the rear storage portion. ) Is a cross-sectional view of the filter housing portion when the filter is taken out. 8A, 8 </ b> B, and 8 </ b> C, the front storage unit 105 has a straight front storage path 105 a that is a path when the filter 9 moves to the rear storage unit 106. 106 includes a rear storage path 106 a that guides the filter 9 moving from the front storage unit 105.

  As shown in FIG. 3, the end portion of the front storage portion 105 is fitted into a recess 32 that is recessed outward from the wall forming the suction flow path 31a, and when the air conditioning indoor unit 2 is operating, The edge 9b of the filter 9 is not exposed to the suction flow path 31a. Further, the rear storage portion 106 is located between the suction port 20a and the blower outlet 20b and below the drain pan.

  The rear storage path 106a includes a first curved region 106b and a second curved region 106c. The first curved region 106b curves the filter 9 fed out by the roller 102 in a direction approaching the center of the pinion gear 102a. The second curved region 106c bends the filter 9 in the direction opposite to the first curved region 106b.

  Further, the filter 9 is supported from below by the filter retainer 91. When the user removes the filter 9 from the filter storage frame 104 for maintenance of the filter 9, the filter retainer 91 is rotated downward so that the filter 9 Pull out.

(Position detection switch 107)
In FIG. 8, the filter 9 moves in the filter storage frame 104 and stops at a predetermined position. The stop position of the filter 9 is detected by the position detection switch 107. The position detection switch 107 is arranged near the end of the front storage unit 105 and near the end of the rear storage unit 106. A lever is attached to the outside of the position detection switch 107 by a hinge. When an external force is applied, the lever rotates and pushes the button of the position detection switch 107.

(Brush 108)
As shown in FIG. 7, the bristles 108 a of the brush 108 are located on the side opposite to the roller 102 with the filter 9 in between and are in contact with the filter 9. That is, the roller 102 is above the filter 9 and the brush 108 is below the filter 9. A final transmission gear 108c is connected to the rotation shaft of the bristles 108a, and a drive gear 108e is connected to the rotation shaft of the brush drive motor 108f. The drive gear 108e and the intermediate transmission gear 108d mesh with each other, and the intermediate transmission gear 108d and the final transmission gear 108c mesh with each other.

  Further, since the brush 108 is located between the linear front storage path 105a and the curved rear storage path 106a, the brush 9 is moved when the filter 9 moves between the front storage path 105a and the rear storage path 106a. 108 can contact the entire net 9 a of the filter 9.

  The engagement between the final transmission gear 108c and the intermediate transmission gear 108d is released when the movable panel 24 is opened and lowered, and the final transmission gear 108c moves together with the movable panel 24 and the brush 108. When the movable panel 24 closes the suction port 20a, the final transmission gear 108c and the intermediate transmission gear 108d are engaged again.

  FIG. 9 is an exploded perspective view of the movable panel. In FIG. 9, the bristles 108a of the brush 108 are fixed to the rotating shaft 108b. Since the bristles 108a are thin plastic bristles, they can enter the mesh of the filter 9 and reliably remove dust. The final transmission gear 108c is connected to both ends of the rotating shaft 108b.

(Dust box 109)
In FIG. 9, the dust box 109 has a dust intake port 109a near the upper air outlet 20b, and supports the rotating shaft 108b via the bearing 109b at both ends in the longitudinal direction of the dust intake port 109a. Further, a comb portion 109c for attaching the dust scraped off from the filter 9 by the brush 108 from the brush 108 is attached to the dust intake port 109a.

  As shown in FIG. 2 (b), the dust box 109 is attached to the rotating shaft side of the movable panel 24, and the brush 108 approaches the air outlet 20b at the end of the suction port 20a. Rotates to open the suction port 20a, it leaves the filter 9 together with the brush 108, and does not obstruct the path of the suction air. In addition, in order to smoothly direct the air toward the dust box 109 toward the filter 9, the surface 109d facing the suction air of the dust box 109 is inclined to reduce the air resistance.

  When the dust box 109 is fixed to the movable panel 24, since the movable panel 24 is structurally reinforced by the dust box 109, the usage rate of the sheet metal member conventionally used for reinforcement is reduced.

(Cleaning operation of the filter 9)
In the air conditioning indoor unit 2, the filter 9 is automatically cleaned by the control unit periodically or when the user requires it. The mechanism will be described below.

  In FIG. 8, the rack 101 of the filter 9 is accommodated in the front storage path 105a, and one end of the rack 101 (hereinafter referred to as the first end 101a) is engaged with the pinion gear 102a. When the roller 102 rotates, rotation is transmitted from the pinion gear 102 a to the rack 101, and the rack 101 of the filter 9 is conveyed by the roller 102 to the rear storage path 106 a side. As the roller 102 continues to rotate, the first end 101a of the rack 101 reaches the end of the rear storage path 106a.

  When the first end 101a of the rack 101 reaches the end of the rear storage path 106a, the first end 101a rotates the lever of the position detection switch 107 to turn it on. The controller determines that the first end 101a of the rack 101 has reached the end of the rear storage path 106a from the ON signal output from the position detection switch 107, and stops the rotation of the roller 102. At this time, the entire region of the rack 101 of the filter 9 is accommodated in the rear storage path 106a, and the other end of the rack 101 (hereinafter referred to as the second end portion 101b) is engaged with the pinion gear 102a.

  3 and 8, when the filter 9 moves, the dust adhering to the surface of the filter 9 is scraped off by the brush 108 and stored in the dust box 109. The brush 108 rotates at least during the period when the filter 9 is moving from the front storage path 105 a to the rear storage path 106 a, and the rotation direction is a direction opposite to the traveling direction of the filter 9.

  When the filter 9 moves from the front storage path 105a to the rear storage path 106a and the dust removal is completed, the control unit rotates the roller 102 in the reverse direction. Since the second end 101b of the rack 101 of the filter 9 meshes with the pinion gear 102a, rotation is transmitted from the pinion gear 102a to the rack 101, and the filter 9 is conveyed to the front storage path 105a side by the roller 102. . As the roller 102 continues to rotate in the reverse direction, the second end 101b of the rack 101 reaches the end of the front storage path 105a.

  When the second end 101b of the rack 101 reaches the end of the front storage path 105a, the second end 101b rotates the lever of the position detection switch 107 to turn it on. The control unit determines that the second end 101b of the rack 101 has reached the end of the front storage path 105a from the ON signal output from the position detection switch 107, and stops the rotation of the roller 102. At this time, the rack 101 of the filter 9 is accommodated in the front storage path 105a, and the first end 101a of the rack 101 is engaged with the pinion gear 102a.

<Apparatus related to operation of movable panel 24>
FIG. 10 is a perspective view of the decorative panel. As shown in FIG. 10, the hinge connecting device 6 and the locking device 8 are disposed on the ceiling side surface of the decorative panel 21 in addition to the lifting device 7. Hereinafter, the detailed structures of the hinge connecting device 6, the lifting device 7 and the locking device 8 will be described in order.

(Hinge connection device 6)
The hinge coupling device 6 supports one end of the movable panel 24 so as to be rotatable when the air conditioning indoor unit 2 is operated, and releases the support of one end of the movable panel 24 when the movable panel 24 is lowered to the maintenance position.

  FIG. 11 is an exploded perspective view of the hinge coupling device. In FIG. 11, the hinge coupling device 6 includes a rotating member 61, a sliding member 62, a first pin 63, a pinion gear 64, a motor 65, a fixing member 66, a second pin 67, and a screw 68. The rotating member 61 is a U-shaped solid object, and a rod-shaped support shaft 61a protrudes outward from the end surface. Further, a shaft hole 61 b is formed at one end of the rotating member 61.

  The sliding member 62 includes a rack 62 a that meshes with the pinion gear 64 and an arm 62 b that sandwiches both ends of the shaft hole 61 b of the rotating member 61. Further, the arm 62b is formed with a first sliding hole 62c, and a second sliding hole 62d is formed near the base of the rack 62a. The motor 65 is a stepping motor and rotates the pinion gear 64. The motor 65 has a through hole 65a through which the screw 68 passes.

  The fixing member 66 is formed with a sliding space 66 a that holds the sliding member 62 so as to be slidable, a gear space 66 b into which the pinion gear 64 is inserted, and a screw hole 66 c that is screwed into the screw 68. Furthermore, a first through hole 66d and a second through hole 66e are formed in the wall forming the sliding space 66a.

  The sliding member 62 is disposed in the sliding space 66 a of the fixing member 66, and the shaft hole 61 b of the rotating member 61 is disposed between the arms 62 b of the sliding member 62. The first pin 63 is inserted from one end of the first through hole 66 d of the fixing member 66, passes through the first sliding hole 62 c of the sliding member 62 and the shaft hole 61 b of the rotating member 61, and the other end of the first through hole 66 d. Get out.

  The second pin 67 is inserted from one end of the second through hole 66e, passes through the second sliding hole 62d of the sliding member 62, and exits to the other end of the second through hole 66e. As a result, the sliding member 62 can horizontally move in the sliding space along the first pin 63 and the second pin 67, and the rotating member 61 can rotate around the first pin 63.

(Operation of hinge coupling device 6)
10 and 11, when the motor 65 rotates the pinion gear 64, power is transmitted to the rack 62 a meshing with the pinion gear 64, and the sliding member 62 slides along the first pin 63. With the movement, the rotating member 61 moves in the direction of the movable panel 24 or in the opposite direction. Here, for convenience of explanation, the rotation of the motor 65 so as to move the rotating member 61 in the direction to connect the movable panel 24 is called normal rotation, and the direction in which the connection between the rotating member 61 and the movable panel 24 is released. The rotation of the motor 65 so as to move to is called reverse rotation.

  At the end of the movable panel 24, a support hole 24 c (see FIG. 9) that faces the support shaft 61 a is provided in the rotating member 61, the motor 65 rotates forward, and the support shaft 61 a supports the movable panel 24. When inserted into the hole 24 c, the rotation member 61 and the movable panel 24 are connected, and the movable panel 24 can rotate around the first pin 63.

  On the other hand, when the motor 65 rotates in the reverse direction and the support shaft 61 a comes out of the support hole 24 c of the movable panel 24, the connection between the rotating member 61 and the movable panel 24 is released, and the movable panel 24 moves the first pin 63. Cannot rotate to the center.

(Elevating device 7)
FIG. 12 is an exploded perspective view of the lifting device. In FIG. 12, the lifting device 7 includes a wire 71, a pulley 72, a bobbin 73, a winding gear 74, a driving gear 75, a lifting motor 76, a switch 77, and a case 78.

  The pulley 72 has a pulley portion 72 a and a cam portion 72 b that are integrally formed. The pulley portion 72 a supports the wire 71 and rotates as the wire 71 moves. The cam portion 72b includes a small-diameter curved surface, a large-diameter curved surface, and a plane connecting both the curved surfaces.

  The bobbin 73 winds up the wire 71. The winding gear 74 is connected coaxially with the bobbin 73 and rotates integrally. The drive gear 75 meshes with the winding gear 74 and rotates the bobbin 73.

  The elevating motor 76 is a stepping motor and rotates the drive gear 75. The number of rotations of the lifting motor 76 is controlled by the number of pulses supplied from the control unit. The control unit includes a CPU, a memory, and a motor drive circuit, and is disposed at another position away from the lifting device 7. The lifting motor 76 and the control unit are electrically connected by a wire harness.

  The switch 77 is a micro switch having a lever 77a and is turned on when the lever 77a is pressed. The lever 77a is always in contact with the cam portion 72b of the pulley 72 and is pushed when facing the large-diameter curved surface of the cam portion 72b. The switch 77 is also electrically connected to the control unit by a wire harness.

  The case 78 is divided into a support case 78a and a cover 78b. The support case 78a is formed with a first shaft 79a that supports the pulley 72, a second shaft 79b that supports the bobbin 73 and the winding gear 74, and a third shaft 79c that supports the switch 77. The cover 78b covers and protects each component supported by the support case 78a.

(Operation of lifting device 7)
FIG. 13 is a layout view of components inside the lifting device. In FIG. 13, when the lifting device 7 feeds the wire 71, the lifting motor 76 rotates the driving gear 75 in the CCW direction and rotates the winding gear 74 in the CW direction. As a result, the bobbin 73 rotates in the direction of feeding the wire 71.

  On the other hand, when the lifting device 7 winds the wire 71, the lifting motor 76 rotates the drive gear 75 in the CW direction and rotates the winding gear 74 in the CCW direction. As a result, the bobbin 73 rotates in the direction of winding the wire 71. The feeding amount and winding amount of the string are proportional to the rotation amount of the lifting motor 76, and the control unit controls the number of pulses supplied to the lifting motor 76, whereby the feeding amount and winding amount of the wire 71 are controlled. Be controlled.

  Since the movable panel 24 is connected to the tip of the wire 71, tension is always generated in the wire 71, and when the wire 71 is drawn out or wound up, the pulley portion 72a is connected to the wire 71. It is rotated by the frictional force. At this time, since the cam portion 72b also rotates, the switch 77 issues an ON signal when the lever 77a faces the large-diameter curved surface of the cam portion 72b, and issues an OFF signal when the lever 77a faces the small-diameter curved surface. While the pulley 72 is rotating, an on signal and an off signal are alternately generated, and these signals are all input to the control unit.

  However, if the wire 71 loses the slack tension due to some reason, for example, when the movable panel 24 is lowered by feeding the wire 71 for maintenance, the movable panel 24 is moved before reaching the predetermined feeding amount. When landing on a table or the like and stopping, the frictional force between the wire 71 and the pulley portion 72a decreases, and the pulley 72 stops. For this reason, either the on signal or the off signal is continuously output from the switch 77. At this time, since the signal from the switch 77 is constant when the lifting motor 76 is rotating, the control unit estimates that the movable panel 24 has stopped due to some obstacle, and immediately moves the lifting motor 76. Stop.

(Locking device 8)
When the movable panel 24 closes the suction port 20a, the hinge connecting device 6 and the lifting device 7 support the movable panel 24 on the main body 20. The air conditioner indoor unit 2 is a locking device so that the movable panel 24 does not fall even if the hinge coupling device 6 malfunctions due to unforeseen reasons to release the support of the movable panel 24 and the wire 71 of the lifting device 7 is loosened. 8 is further provided.

  FIG. 14 is a perspective view of the locking device. In FIG. 14, the lock device 8 includes a movable body 81, a first holding portion 82, a second holding portion 83, a motor 84 and a spring 85. The movable body 81 has a quadrangular prism shape, an inclined surface 811 is formed at one end thereof, a long side surface 812 having the longest overall length is formed with a rack 81a that meshes with a predetermined gear, and below the rack 81a. A hollow portion 81b is formed. The movable body 81 is held in a movable state by the first holding portion 82 with the long side surface 812 directed vertically upward.

  The first holding portion 82 is a rectangular parallelepiped housing having an open top surface and one side surface, a guide groove 82a is formed on the bottom surface, and the movable body 81 moves horizontally along the guide groove 82a. Both ends of the guide groove 82a are sandwiched between walls 821 and 822, and a through-hole 82b through which the movable body 81 passes is formed in one wall 821. A wall 823 is adjacent to the walls 821 and 822 sandwiching both ends of the guide groove 82a, and a plate-like protrusion 82c that protrudes in a direction orthogonal to the guide groove 82a is formed on the wall 823. When the movable body 81 is held by the first holding portion 82, the inclined surface 811 is always located outside the first holding portion 82, and the rack 81 a is always located inside the first holding portion 82. The plate-like protrusion 82 c of the first holding part 82 passes through the hollow part 81 b of the movable body 81.

  The wall 823 fixes the motor 84 and rotatably supports a pinion gear 84 a connected to the rotation shaft of the motor 84. The pinion gear 84a meshes with the rack 81a of the movable body 81 to form a rack and pinion mechanism. A spring 85 is accommodated in the hollow portion 81 b of the movable body 81. The spring 85 is a compression coil spring and is sandwiched between the end of the hollow portion 81b and the plate-like protrusion 82c.

  The second holding portion 83 is a solid object in which a guide hole 83a through which the movable body 81 passes is formed, and is installed on the movable panel 24 side. A smooth curved surface 831 is formed on the upper surface of the second holding portion 83.

(Operation of the locking device 8)
In FIG. 14, the movable body 81 is in a state of being held by the first holding body 82 and the second holding body 83, and when the motor 84 rotates the pinion gear 84a in the CCW direction in this state, the pinion gear 84a The rotational motion is converted into a linear motion by the rack 81a, and the movable body 81 slides toward the wall 822. When the movable body 81 moves a predetermined distance, the movable body 81 moves away from the guide hole 83a of the second holding portion 83. Since the second holding body 83 that does not hold the movable body 81 is allowed to move in the vertical direction, it does not prevent the movable panel 24 from being lowered.

  The movement of the movable body 81 shortens the distance between the side surface of the hollow portion 81b and the plate-like protrusion 82c, so that the spring 85 is compressed and stores a repulsive force. The motor 84 rotates against the increasing repulsive force of the spring 85 while the electric power is supplied. However, when the electric power is not supplied, the motor 84 rotates reversely due to the repulsive force of the spring 85, and the movable body 81 returns to the original state. Return to the position.

  When the movable panel 24 is not lowered and the second holding portion 83 is not moving, the movable body 81 enters the guide hole 83 a of the second holding portion 83. On the other hand, when the movable panel 24 is lowered and the second holding unit 83 is moving, the mobile panel 24 stands by on the path where the second holding unit 83 returns. Then, when the movable panel 24 rises and closes the suction port 20a, the second holding part 83 applies the curved surface 831 to the inclined surface 811 of the movable body 81 and pushes the movable body 81 back.

  The movable body 81 pushed by the second holding portion 83 moves horizontally and compresses the spring 85. When the second holding portion 83 is completely restored, the movable body 81 passes through the guide hole 83a of the second holding portion 83. As a result, the movable body 81 prevents the movable panel 24 from being lowered.

(Opening / closing operation of movable panel 24)
FIG. 15 is a perspective view of a state in which the movable panel has opened the suction port. In FIG. 15, when the locking device 8 releases the lock and the elevating device 7 feeds the wire 71 in a state where the hinge connecting device 6 is connected to the movable panel 24, the movable panel 24 is lowered by its own weight. However, since the end portion of the movable panel 24 is coupled to the hinge coupling device 6, the movable panel 24 rotates in the direction to open the suction port 20a with the end portion as an axis.

  On the other hand, when the elevating device 7 winds the wire 71, the movable panel 24 rises, but since the end of the movable panel 24 is connected to the hinge connecting device 6, the movable panel 24 has the suction port with the end as an axis. It rotates to the direction which closes 20a. When the movable panel 24 completely closes the suction port 20a, the lock device 8 locks the movable panel 24.

(Raising / lowering operation of the movable panel 24)
FIG. 16 is a perspective view of a state where the movable panel is lowered. In FIG. 16, when the hinge connecting device 6 releases the connection with the end of the movable panel 24, the lock device 8 releases the lock of the movable panel 24, and the lifting device 7 feeds the wire 71, the movable panel 24 is Descent due to its own weight. On the other hand, when the lifting device 7 winds the wire 71, the movable panel 24 is raised, and when the movable panel 24 completely closes the suction port 20a, the lock device 8 locks the movable panel 24.

  Since the movable panel 24 is suspended by two wires and descends with the dust box 109, the total weight of the movable panel 24 including the dust box 109 is increased, and the posture is not unstable due to the airflow in the room. . However, the center of gravity fluctuates when dust is concentrated in the dust box 109. For this reason, in this embodiment, the posture of the dust box 109 on the movable panel 24 is set so that the posture when the dust box 109 is full of dust and the posture when the dust box 109 is empty are substantially the same posture. Dimensions and position are set.

  Specifically, the total length of the dust box 109 in the longitudinal direction is set to be 1/2 or more of the total length of the movable panel 24 in the longitudinal direction. Further, the total length of the dust box 109 in the width direction is set to 1/3 or more of the total length of the movable panel 24 in the width direction. The dust box 109 is disposed near the rotation axis when the movable panel 24 rotates.

<Components of the outlet module 50>
FIG. 17 is an enlarged cross-sectional view of the air outlet module, and FIG. 18 is a perspective view of the air outlet module. 17 and 18, the outlet module 50 includes a first outlet channel forming wall 51, a first air direction adjusting blade 52, a second air direction adjusting blade 53, a long blade supporting member 54, a strip-shaped blade supporting member 55, and The heat insulating material 56 is modularized.

(First blowing channel forming wall 51)
The 1st blowing flow path formation wall part 51 is located in the terminal part of an air flow path, and forms the 1st blowing flow path 51a connected with the blower outlet 20b. The first blowing flow path forming wall portion 51 has a resinous sealing member attaching surface 511 at a portion facing the end of the second blowing flow path forming wall portion 41 (see FIG. 3) forming the second blowing flow path 41a. The sealing member 59 is affixed there. The width dimension of the sealing member attaching surface 511 is set to 3 mm or more.

  The first blowing flow path forming wall portion 51 further includes an outer wall 512 and an inner wall 513 extending in the direction from the sealing member attaching surface 511 toward the outlet 20b, and a flange 514 extending in the horizontal direction from the end of the outer wall 512. The outer wall 512 and the inner wall 513 are separated from each other by a predetermined distance, and a heat insulating air layer 51 b is formed between the outer wall 512 and the inner wall 513. The flange 514 is located on the opposite side of the air inlet 20a with the air outlet 20b interposed therebetween, and also serves as a reinforcing plate for the decorative panel 21.

(First wind direction adjusting blade 52)
The 1st wind direction adjustment blade | wing 52 is located in the vicinity of the blower outlet 20b, and has two long blades 52a and 52b extended in parallel with the longitudinal direction of the blower outlet 20b. The long blades 52a and 52b are connected to the first outlet flow path forming wall portion 51 by the long blade support member 54, and the support portions 54a and 54b of the long blade support member 54 are parallel to the longitudinal direction of the outlet 20b. To adjust the tilt angle of the long blades 52a and 52b. However, the air outlet 20b is closed when the air conditioning indoor unit 2 is stopped.

(Second wind direction adjusting blade 53)
The second wind direction adjusting blade 53 is located upstream of the first wind direction adjusting blade 52, and has a plurality of strip-shaped blades 53a and one drive shaft 53b. Each strip-shaped blade 53a is connected to the first blow-off channel forming wall 51 by a strip-shaped blade support member 55, and is arranged in parallel to the longitudinal direction of the outlet 20b at a predetermined interval. Further, the plurality of strip-shaped blades 53a are connected by a drive shaft 53b, and reciprocate around the axis perpendicular to the longitudinal direction of the outlet 20b as the drive shaft 53b reciprocates in the longitudinal direction.

(1st wind direction adjustment blade drive part 57)
The first wind direction adjusting blade driving unit 57 is located on the extended line of the first wind direction adjusting blade 52 outside the first blowing flow path forming wall portion 51. The first wind direction adjusting blade drive unit 57 includes a stepping motor (not shown) and a transmission gear (not shown) that transmits the rotation of the stepping motor to the long blade support member 54.

(Second wind direction adjusting blade driving unit 58)
The second wind direction adjusting blade drive unit 58 is positioned on the extended line of the drive shaft 53 b of the second wind direction adjusting blade 53 outside the first blowing flow path forming wall portion 51. The second wind direction adjusting blade drive unit 58 includes a stepping motor (not shown) and a transmission gear (not shown) that transmits the rotation of the stepping motor to the drive shaft 53b.

<Hanging direction of movable panel 24>
Next, a method for suspending the movable panel 24 using the wire 71 of the lifting device 7 will be described. FIG. 19 is a plan view of an end portion of the movable panel. In FIG. 19, a hanging fitting to which the tip of the wire 71 of the lifting device 7 is connected is attached near the end of the movable panel 24.

(Suspension bracket 708)
FIG. 20 is a front view of a hanging metal fitting connected to the tip of the wire of the lifting device. In FIG. 20, the hanging metal fitting 708 has an upper ring 708a and a lower ring 708b. The upper ring 708a and the lower ring 708b are integrally formed by processing a metal wire into an Arabic numeral 8 shape. The wire 71 of the lifting device 7 is connected to the upper ring 708 a of the suspension fitting 708, and the lower ring 708 b is connected to a predetermined member of the movable panel 24.

(Suspension bracket connecting member 570)
FIG. 21A is a plan view of a suspension fitting connecting member to which a suspension fitting is connected, and FIG. 21B is a cross-sectional view taken along line XX of FIG. In FIG. 21B, for reference, the state in which the hanging metal fitting 708 is connected is indicated by a two-dot chain line. In FIGS. 21A and 21B, the suspension fitting connecting member 570 includes a case 571, a slide lever 572, and a spring 573.

  The case 571 has a flange 571a, and the flange 571a is attached to a predetermined position of the movable panel 24 with a screw. The case 571 further includes an opening 571b into which the lower ring 708b of the hanging metal fitting 708 is inserted, a groove 571c that guides the lower ring 708b from the opening 571b to the inside, and a guide portion 571d that serves as a guide when the slide lever 572 moves. doing.

  The slide lever 572 is a member that moves in a direction intersecting the groove 571c of the case 571, and has a rib 572a that can be picked by a user with a finger. The slide lever 572 further has a protrusion 572b that supports the spring 573 on the surface opposite to the rib 572a. The spring 573 is a compression coil spring, the inner side is supported by the protrusion 572 b, and the outer side is surrounded by the guide portion 571 d of the case 571 and the slide lever 572.

  The slide lever 572 further includes an inner cover 572c that closes the opening 571b of the case 571 from the inside. Usually, since the slide lever 572 is pushed toward the flange 571a by the spring force of the spring 573, the inner cover 572c closes the opening 571b.

  FIG. 22A is a plan view of a hanging fitting connecting member just before the hanging fitting is connected, and FIG. 22B is a cross-sectional view taken along line YY of FIG. In FIG. 22B, the state in which the hanging bracket 708 is inserted is indicated by a two-dot chain line for reference. 22 (a) and 22 (b), when the slide lever 572 is moved away from the flange 571a, the inner cover 572c opens the opening 571b of the case 571, so that the hanging bracket 708 is inserted from the opening 751b. Is possible.

  The suspension fitting 708 can enter the interior along the groove 571c. Since the length of the groove 571c corresponds to the length in which the lower ring 708b of the suspension fitting 708 is completely accommodated, the lower ring 708b is completely accommodated in the case 571. After the lower ring 708b is housed in the case 571, when the slide lever 572 is returned to its original position, the inner cover 572c is fitted into the lower ring 708b, so that the lower ring 708b cannot be removed from the case 571.

(Dust box lock device 580)
In FIG. 19, a dust box lock device 580 is attached to the side of the region where the dust box 109 is mounted. The dust box lock device 580 is fixed so that the dust box 109 does not come off the movable panel 24.

  FIG. 23A is a plan view of the dust box locking device, and FIG. 23B is a front view of the dust box locking device. 23A and 23B, the dust box lock device 580 includes a lock bar 581, a housing 582 that supports the lock bar 581, and a lock spring 583 that causes the lock bar 581 to protrude from the housing 582.

  On the upper part of the lock bar 581, an operation rib 581 a that can be picked with a finger by a user is formed. The user moves the operation bar 581a in the G direction in FIG. 23B with his / her finger, so that the lock bar 581 moves while compressing the lock spring 583. When the user releases the hand, the lock bar 581 returns to the original position by the force of the lock spring 583.

<Features>
(1)
In the air conditioning indoor unit 2, the movable panel 24 is lowered to the maintenance position along with the dust box 109. Therefore, the operation is simpler than lowering the dust box 109 and the movable panel 24 separately. High reliability. In addition, the user can save the trouble of carrying the dust box 109 from the air conditioning indoor unit 2, and the user can throw away the dust accumulated in the dust box 109 at the maintenance position.

(2)
In the air conditioner indoor unit 2, the position of the movable panel 24 is determined by changing the amount of descent or the amount of lifting due to lifting, so that it is possible to set a maintenance position corresponding to the height of the ceiling, which is convenient for the user. Good.

(3)
In the air conditioning indoor unit 2, since one end of the movable panel 24 is supported by the hinge coupling device 6 during operation, the movable panel 24 is prevented from unstablely shaking due to vibration of the ceiling and wind pressure of the intake air. Furthermore, when moving to the maintenance position, the hinge coupling device 6 releases the support of the movable panel 24, so that the movement of the movable panel 24 is not hindered.

(4)
In the air conditioning indoor unit 2, the sliding member 62 of the hinge coupling device 6 restricts the movement of the movable panel 24 in the direction of the rotation center axis. Is prevented from shaking.

  As described above, according to the present invention, the dust box can be easily separated from the filter cleaning mechanism and lowered, so that the present invention is also useful in the field of lifting devices that lower specific parts from devices installed at high places. .

2 Air conditioning indoor unit 6 Hinge coupling device (panel support means)
7 Lifting device (lifting mechanism)
9 Filter 20 Main body 20a Suction port 24 Movable panel (lifting panel)
24c Support hole (first rotation support part)
61 Rotating member (second rotation support part)
62 Sliding member (Regulator)
109 dust box

JP 2008-209099 A

Claims (2)

The suction port (20a) is located on the lower surface of the main body (20), the dust contained in the air sucked from the suction port (20a) is removed by the filter (9), and the dust adhered to the filter (9) Is an air conditioning indoor unit installed on the ceiling, which is removed by a filter cleaning mechanism,
A lifting panel (24) located near the suction port (20a) and lowered to the first position during maintenance,
An elevating mechanism (7) for moving the elevating panel (24) in the upward and downward directions;
A dust box (109) that is detachably attached to the lift panel (24) and stores the dust detached from the filter (9), and one end of the lift panel (24) can be rotated near the suction port (20a). And panel support means (6) for releasing support of the end portion as needed,
With
The lifting mechanism (7)
During operation, the lifting panel (24) is moved to a second position closer to the ceiling than the first position away from the suction port (20a),
When stopping, the lifting panel (24) is moved to a third position for closing the suction port (20a),
Furthermore, the elevating mechanism (7) lifts the elevating panel (24) and changes the amount of descent or ascending due to the lifting, thereby moving the elevating panel (24) to the first position and the second position. And move to any of the third positions,
The panel support means (6)
When the lifting panel (24) moves between the third position and the second position, supporting the end of the lifting panel (24);
When the lifting panel (24) moves from the third position to the first position, the support of the end of the lifting panel (24) is released,
The elevating panel (24) moving to at least the first position is accompanied by the dust box (109),
Air conditioning indoor unit (2). The panel support means (6)
A first rotation support portion (24c) provided at the end of the lift panel (24) and forming a rotation center of the lift panel (24);
A second rotation support portion (61) that fits with the first rotation support portion (24c) and rotatably supports the first rotation support portion (24c);
Have
The second rotation support portion (61) is provided with a restriction portion (62) for restricting movement of the lift panel (24) in the rotation center axis direction.
The air conditioning indoor unit (2) according to claim 1.

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