JP2013238383A - Dust storage device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent, even when a dust collection box comprising a lid and a storage part falls by mistake, dust inside the storage part from scattering to the outside due to reaction of the falling of the dust collection box.SOLUTION: A storage part 51 of a dust storage unit 50 stores dust removed from a filter 31, and has an opening 52 formed to be able to discharge the dust to the outside. A lid 53 can take a closed posture of closing the opening 52 and an open posture of opening the opening 52. A hinge connection mechanism 59 connects the storage part 51 and the lid 53 in a hinged manner so that the lid 53 turns with respect to the storage part 51 to take the open posture. When the lid 53 takes the close posture and slides in a first direction D1 with respect to the storage part 51, a slide locking mechanism 62 inhibits turning of the lid 53. The slide locking mechanism 62 permits turning of the lid 53 when the lid 53 slides in a second direction D2 opposite the first direction D1 with respect to the storage part 51.

Description

  The present invention removes dust from a dust storage device, particularly a filter attached to an indoor unit casing of an air conditioner, and collects dust in the air sucked into the indoor unit casing. Device.

  The indoor unit of the air conditioner includes a heat exchanger, an indoor fan, and the like. The heat exchanger cools or warms the room air, and the indoor fan introduces the room air into the heat exchanger and forms an air flow for returning the air after the heat exchange to the room. Furthermore, the indoor unit includes a filter for preventing dust from adhering to the surface of the heat exchanger.

  In recent years, for example, as shown in Patent Document 1 (Japanese Patent Laid-Open No. 2008-215709), indoor units equipped with a function of automatically cleaning a filter have become mainstream. The dust removed from the filter is stored in a dust collection box that can be attached to and detached from the indoor casing. Therefore, the user can take out the dust collection box from the indoor unit casing and discard the dust in the dust collection box.

  By the way, some dust collection boxes are configured by a storage part that stores dust and a lid part that opens and closes a dust discharge port in the storage part. Among such dust collection boxes, there is a type in which the lid is fixed to the reservoir by the lid being hooked on the reservoir by a resin claw provided on the lid. In this case, the lid portion is removed from the storage portion by removing the claw.

  However, in the dust collection box having the structure described above, if the claws are not carefully removed, there is a risk that the dust accumulated in the storage portion will be scattered outside the dust collection box due to the reaction of removing the claws. In particular, the user may accidentally drop the dust collection box. Even in this case, the nail is removed by the recoil of the fall, and the lid part is removed from the storage part. As a result, the dust in the storage part is scattered on the floor.

  Then, even if the dust collection box comprised by a cover part and a storage part falls accidentally, it is a subject of this invention in preventing the dust in a storage part being scattered outside by the reaction. .

  The dust storage device according to the first aspect of the present invention is detachably attached to the indoor unit casing of the air conditioner. The dust storage device is a device that removes and stores dust from a filter that collects dust in the air sucked into the indoor unit casing. The dust storage device includes a storage part, a lid part, a hinge connection mechanism, and a slide lock mechanism. The storage part stores the dust removed from the filter and is formed with an opening through which the dust can be discharged to the outside. The lid portion can take a closed posture that closes the opening and an open posture that opens the opening. A hinge connection mechanism connects a storage part and a cover part with a hinge type so that a cover part may take an open posture by rotating with respect to a storage part. The slide lock mechanism prohibits the rotation of the lid when the lid is slid in the first direction with respect to the storage when the lid is in the closed position. In addition, the slide lock mechanism can turn the lid when the lid is slid in the second direction opposite to the first direction when the lid is in the closed position. To do.

  According to this dust storage device, when the dust in the storage part is discarded, the user first slides the lid part in the second direction. Thereby, the lock | rock of a cover part and a storage part is removed, and a cover part comes to be able to rotate with respect to a storage part. That is, when the lock is released by the slide, the lid portion is not completely removed from the storage portion, but a part of them is connected to each other by the hinge connection mechanism. Therefore, the lid can be gently unlocked by the slide, and the lid is connected to the reservoir even if the user accidentally drops the dust storage device. The risk of dust scattering due to the reaction is suppressed. And when the lock | rock of a cover part and a storage part is cancelled | released by a slide, it can also prevent that a cover part falls accidentally. Furthermore, when performing maintenance in the storage unit or discarding dust in the storage unit, the user can hold the dust storage device with one hand, and the user can easily work.

  The dust storage device according to the second aspect of the present invention further includes a brush in the dust storage device according to the first aspect. The brush is supported by the lid and removes dust from the filter.

  Thereby, a brush will rotate with a cover part.

  The dust storage device according to a third aspect of the present invention is the dust storage device according to the second aspect, wherein the brush is not on the storage unit side but on the surface of the cover unit facing outside when the cover unit is in the closed position. positioned. The lid portion is provided with a dust inflow hole at a position corresponding to the brush. The dust inflow hole is a hole through which dust removed by the brush flows into the storage portion.

  Thus, the brush can directly contact the filter and remove dust from the filter. And the removed dust comes to be reliably stored in the storage part through the dust inflow hole of the cover part.

  A dust storage device according to a fourth aspect of the present invention is the dust storage device according to any one of the first to third aspects, wherein the storage portion and the lid portion extend along the left-right direction of the indoor unit casing. The first direction and the second direction are directions along the longitudinal direction of the storage portion and the lid portion.

  According to this dust storage device, a sufficient distance for sliding the lid portion with respect to the storage portion is ensured. And since a cover part will be in the state which can be rotated easily because a cover part is slid to a longitudinal direction, workability | operativity of a user improves.

  A dust storage device according to a fifth aspect of the present invention is the dust storage device according to the fourth aspect, wherein the hinge coupling mechanism is constituted by a rotating shaft and a bearing. The rotation axis is a rotation axis of the lid portion extending along the longitudinal direction. The bearing supports the rotation shaft at a predetermined position on the storage unit side.

  With such a simple structure of the hinge connection mechanism, the lid portion can be rotated about the longitudinal direction as an axis.

  A dust storage device according to a sixth aspect of the present invention is the dust storage device according to any one of the first to fifth aspects, wherein the slide lock mechanism includes a lid-side locking portion provided on the lid portion side, and storage. It is comprised by the storage side latching | locking part provided in the part side. When the lid portion is slid in the first direction, the lid side latching portion and the storage side latching portion are latched with each other, so that the rotation of the lid portion is prohibited. When the lid portion is slid in the second direction, the lid side locking portion and the storage side locking portion are separated from each other, whereby the lid portion can be rotated.

  With the slide lock mechanism having such a simple configuration, the lid portion and the storage portion can be easily locked / unlocked.

  According to the dust storage device of the first aspect of the present invention, the lock between the lid and the storage portion can be gently released, and even if the user accidentally drops the dust storage device, The risk of dust scattering is reduced. And when the lock | rock of a cover part and a storage part is cancelled | released by a slide, it can also prevent that a cover part falls accidentally. Furthermore, when performing maintenance in the storage unit or discarding dust in the storage unit, the user can hold the dust storage device with one hand, and the user can easily work.

  According to the dust storage device of the second aspect of the present invention, the brush rotates together with the lid.

  According to the dust storage device of the third aspect of the present invention, the brush can directly contact the filter and remove the dust from the filter. And the removed dust comes to be reliably stored in the storage part through the dust inflow hole of the cover part.

  According to the dust storage device of the fourth aspect of the present invention, a sufficient distance for sliding the lid with respect to the storage is ensured. Furthermore, since the lid is easily slidable by sliding the lid in the longitudinal direction, the user's workability is improved.

  According to the dust storage device of the fifth aspect of the present invention, the lid can be rotated about the longitudinal direction by the hinge coupling mechanism having a simple configuration.

  According to the dust storage device of the sixth aspect of the present invention, the lid portion and the storage portion can be easily locked / unlocked by the slide lock mechanism having a simple configuration.

The external view of the indoor unit of the air conditioning apparatus which concerns on this embodiment. Sectional drawing at the time of cut | disconnecting the indoor unit of FIG. 1 by the II-II line | wire of FIG. Front view of the filter unit. FIG. 3 is an enlarged view near a lower folded portion of the filter in FIG. 2. The external view of the dust storage unit which concerns on this embodiment. The rear view of the dust storage unit of FIG. The external view of a dust storage unit in case a cover part takes an open attitude | position with respect to a storage part. (A) The external view of a storage part. (B) The enlarged view near the storage side latching | locking part provided in the storage part. (C) The enlarged view of the bearing vicinity provided in the storage part. (A) The figure showing the surface of a cover part. (B) The enlarged view near the rotating shaft provided in the cover part. (A) The figure showing the back surface of a cover part. (B) Enlarged view of the vicinity of the lid-side locking portion provided on the lid. The figure which simplified and represented the concept of the slide lock mechanism.

  Hereinafter, a dust storage device according to the present invention will be described in detail 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.

(1) Configuration of Indoor Unit FIG. 1 is an external view of an indoor unit 100 of an air conditioner equipped with a dust storage unit 50 (corresponding to a dust storage device) according to an embodiment of the present invention. The air conditioner is a separate type air conditioner configured by an outdoor unit (not shown) installed outside and an indoor unit 100 attached to an indoor wall surface or the like. The indoor unit 100 and the outdoor unit are connected to each other via a refrigerant pipe (not shown). The indoor unit 100 can perform an automatic cleaning operation for automatically cleaning a filter 31 and a brush 55 (see FIG. 4) to be described later, in addition to an indoor cooling operation and a heating operation.

  1-4, the indoor unit 100 mainly includes a casing 11 (corresponding to an indoor unit casing), an indoor heat exchanger 13, an indoor fan 15, a filter unit 30, and a dust storage unit 50. Prepare.

  In the following description, expressions indicating directions such as “up”, “down”, “left”, “right”, “front”, “back”, and the like are used as appropriate. Represents each direction in a state of being installed on a wall surface of the room.

(1-1) Casing As shown in FIG. 1, the casing 11 has a box-like shape elongated in the left-right direction (W direction in FIG. 1). Specifically, as shown in FIGS. 1 and 2, the casing 11 forms a three-dimensional space by the top plate 11 a, the front plate 11 b, the back plate 11 c and the bottom plate 11 d, and the indoor heat exchanger 13, The indoor fan 15, the filter unit 30, and the dust storage unit 50 are accommodated. The top plate 11 a mainly constitutes the top surface of the casing 11, and the front plate 11 b mainly constitutes the front surface of the casing 11. The upper end of the front plate 11b is pivotably supported by a part of the top plate 11a in a hinge manner. The back plate 11 c mainly constitutes the back surface of the casing 11, and the bottom plate 11 d mainly constitutes the bottom surface of the casing 11. The indoor unit 100 is installed on the indoor wall surface by attaching the back plate 11c to a mounting plate (not shown) installed on the indoor wall surface by screws or the like.

  A suction port 21 is provided in the top plate 11a of the casing 11 from the front side to the rear side of the surface 11a. From this inlet 21, the indoor air near the inlet 21 is taken into the casing 11 by driving the indoor fan 15, and the front heat exchange section 13 a (described later) and the rear heat exchange of the indoor heat exchanger 13. It is sent to each part 13b (described later). In addition, the dotted arrow A of FIG. 2 represents the flow of the indoor air sent to the indoor fan 15 via the suction inlet 21 and the front side heat exchange part 13a as an example.

  An air outlet 22 is formed in the lower surface plate 11 d of the casing 11. From the air outlet 22, the indoor air that has been sucked from the air inlet 21 and heat-exchanged by the indoor heat exchanger 13 is blown out into the room. A dotted arrow B in FIG. 2 represents the flow of air sent into the room through the air outlet 22.

  A horizontal flap 23 is rotatably attached to the casing 11 near the air outlet 22. The horizontal flap 23 can be driven by a flap motor (not shown), and opens and closes the air outlet 22 according to the operating state of the air conditioning indoor unit 100. Further, the horizontal flap 23 plays a role of changing the blowing direction of the room air so that the room air blown out from the blowout port 22 is guided in the direction desired by the user.

(1-2) Indoor heat exchanger The indoor heat exchanger 13 includes a plurality of fins and a plurality of heat transfer tubes. The indoor heat exchanger 13 functions as an evaporator or a condenser according to the operating state of the indoor unit 100, thereby exchanging heat between the refrigerant passing through the refrigerant pipe and the air passing through the heat exchanger 13. To do.

  In particular, as shown in FIG. 2, the indoor heat exchanger 13 has a substantially inverted V shape in which both ends are bent downward in a side view, and the room heat exchanger 13 is surrounded by the substantially V shape so as to be enclosed in the room. A fan 15 is located. Of the indoor heat exchanger 13 having such a shape, the heat exchange part that covers the front of the indoor fan 15 is referred to as “front heat exchange part 13a”, and the heat exchange part that covers the rear side of the indoor fan 15 is “ It is referred to as “rear heat exchanging portion 13b”. That is, the indoor heat exchanger 13 according to the present embodiment has a substantially inverted V shape in which the front heat exchanging portion 13a and the rear heat exchanging portion 13b are connected at the apex 13c.

(1-3) Indoor Fan The indoor fan 15 is located inside the casing 11 and is a cross-flow fan having a substantially cylindrical shape elongated in the W direction shown in FIG. The indoor fan 15 is driven so that the indoor air is sucked from the inlet 21 and flows into the indoor heat exchanger 13, then passes through the heat exchanger 13 and is supplied to the room from the outlet 22. (See dotted arrows A and B in FIG. 2).

  The drive shaft of the indoor fan 15 is connected to the output shaft of an indoor fan motor (not shown). When the indoor fan motor is driven, the output of the motor is transmitted to the drive shaft of the indoor fan 15 via the output shaft of the motor, so that the indoor fan 15 can be driven.

(1-4) Filter Unit As shown in FIG. 2, the filter unit 30 is provided between the top plate 11 a of the casing 11 and the indoor heat exchanger 13 in the casing 11, that is, with respect to the indoor heat exchanger 13. It arrange | positions in the upstream of the flow direction of room air, and is detachably mounted | worn with the inside of the casing 11. FIG. The filter unit 30 is for preventing the surface of the indoor heat exchanger 13 from being contaminated by dust in the air as much as possible. As shown in FIG. 3, the filter unit 30 mainly includes a filter 31, a main frame 32, and a driving roller. 36.

(1-4-1) Filter When the cooling operation and the heating operation are performed, the filter 31 is mainly positioned so as to cover a portion corresponding to the suction port 21 in the front heat exchange unit 13a and the rear heat exchange unit 13b. doing. The filter 31 collects dust from indoor air sucked from the outside of the casing 11 through the suction port 21 and is configured by a net woven or plain twilled with resin yarn, for example. As shown in FIG. 2, the filter 31 is formed in a ring shape, and as shown in FIG. 3, two filters 31 are provided so as to be aligned on the right side and the left side in the front view of the filter unit 30.

  Since the filter 31 is not provided with reinforcing edges and ribs as found in a general filter, the filter 31 cannot maintain a stable shape by itself. Therefore, the filter 31 is supported by the main frame 32 to maintain an annular shape.

(1-4-2) Main Frame As shown in FIG. 2, the main frame 32 has a bent shape so as to cover a part of the front and upper part of the indoor heat exchanger 13, as shown in FIG. As shown, the filter unit 30 mainly includes a right frame member 33 located on the right side and a left frame member 34 located on the left side in a front view. Each of the frame members 33 and 34 is provided with a grid-like opening at a portion facing the indoor heat exchanger 13.

  In addition, a plurality of protrusions un1 are formed side by side at predetermined intervals on each of the left and right end portions 33a, 33b, 34a, 34b on the front surface of each frame member 33, 34. The shortest distance between the left end 33 a and the right end 33 b in the right frame member 33 and the shortest distance between the left end 34 a and the right end 34 b in the left frame member 34 are slightly larger than the width of the filter 31. Therefore, when the ring-shaped filter 31 is stretched over the main frame 32, the end surface of the filter 31 faces each protrusion un1. Since both ends of the filter 31 are guided along the frame members 33 and 34 by the protrusion un1, meandering branching of the filter 31 is prevented.

  The main frame 32 has an outer bar 35. The outer crosspiece 35 is attached to the lower end portions of the frame members 33 and 34 so as to be positioned at the folded portion under the filter 31. That is, the outer bar 35 faces the drive roller 36 with the filter 31 interposed therebetween. Even if the filter 31 undulates due to the outer bar 35, the filter 31 comes into contact with the outer bar 35 before coming into contact with other members. Therefore, even if another movable member (for example, the brush 55 in FIG. 4) exists in the vicinity of the driving roller 36, the filter 31 can move smoothly without being caught by the movable member. It becomes.

(1-4-3) Drive roller The drive roller 36 is for rotating the filter 31 on the main frame 32, and can be rotated by a roller motor (not shown).

  Specifically, a roller gear (not shown) is fixed to the end of the rotation shaft of the drive roller 36. A so-called pile-woven fabric base fabric is affixed to the peripheral surface of the drive roller 36. The fabric base fabric on the peripheral surface of the drive roller 36 is stretched over the mesh of the filter 31, and slippage is unlikely to occur between the drive roller 36 and the filter 31. An output shaft of a roller motor is connected to the rotation shaft of the drive roller 36. Therefore, when the roller motor rotates, the rotation is transmitted to the rotation shaft of the drive roller 36, and the drive roller 36 rotates. As a result, the filter 31 can circulate along the main frame 32.

  Note that the roller motor is constituted by a stepping motor, for example, and can rotate in a CW (Clock Wise) or CCW (Counter Clock Wise) direction. The rotation direction and the number of rotations of the roller motor are driven and controlled by a drive control device (not shown). Thereby, how much the filter 31 circulates (that is, the moving distance of the filter 31) is controlled.

(1-5) Dust Storage Unit The dust storage unit 50 is a unit for removing and storing the dust collected by the filter 31 from the filter 31, and is detachably attached to the casing 11. Specifically, as shown in FIGS. 2 and 4, the dust storage unit 50 is driven in the vicinity of the folded portion below the filter 31 in the casing 11 (specifically, further below the folded portion below the filter 31). The roller 36 and the filter 31 are in contact with each other.

  In particular, the dust storage unit 50 according to the present embodiment not only cleans the filter 31, but also cleans a brush 55 (described later) itself that directly cleans the filter 31, and stores the dust removed from the filter 31 and the brush 55. It is possible. The detailed configuration of such a dust storage unit 50 will be described later.

(1-6) Other Configurations In addition to the above, the indoor unit 100 includes an indoor control unit (not shown) that controls various devices constituting the indoor unit 100. The indoor control unit is a microcomputer including a CPU and a memory, and is housed in a front portion of the casing 11. For example, the indoor control unit is connected to a flap motor, an indoor fan motor, a roller motor, and a brush drive motor (not shown) described later. The indoor controller performs drive control of these motors to perform opening / closing control and angle control of the horizontal flap 23, air volume control of the indoor fan 15, rotation control of the filter 31, rotation control of the brush 55, and the like.

(2) Configuration of Dust Storage Unit As shown in FIGS. 4 to 10, the dust storage unit 50 according to the present embodiment mainly includes a storage unit 51, a lid unit 53, a brush 55, a brush cleaning unit 57, A hinge connection mechanism 59 and a slide lock mechanism 62 are provided.

(2-1) Storage part The storage part 51 is extended along the longitudinal direction (left-right direction, ie, W direction) of the casing 11 of the indoor unit 100, as shown to FIGS. The storage part 51 has a convex shape in the downward direction so that dust removed from the filter 31 and dust removed from the brush 55 can be stored (see FIGS. 7 and 8). ). And the opening part 52 which can discharge the dust inside the storage part 51 outside is formed in the upper side of the storage part 51.

  According to such a storage unit 51, when the user performs an operation of discarding the dust in the storage unit 51, the opening 52 side is directed downward, so that the user directly touches the dust. The dust in the storage part 51 can be discarded via the opening part 52.

  The depth of the storage 51 is estimated based on the size inside the casing 11 of the indoor unit 100 in which the dust storage unit 50 is disposed and the average amount of dust collected by the filter 31. It is determined as appropriate according to the amount of dust to be stored inside.

(2-2) Lid Like the reservoir 51, the lid 53 is a rectangular shape that extends along the longitudinal direction (W direction) of the casing 11 of the indoor unit 100, as shown in FIGS. have. And the cover part 53 can take either the closed attitude | position which closes the opening part 52 of the storage part 51, as shown to FIGS. 5-6, and the open attitude | position which open | releases the opening part 52 as shown in FIG. it can. That is, it can be said that the lid part 53 serves as a lid for the storage part 51 so that the dust in the storage part 51 does not flow out to the outside.

  In particular, the lid portion 53 according to the present embodiment is formed as a separate member from the storage portion 51. However, as shown in FIG. 7, the lid portion 53 is rotatably connected to the storage portion 51 by a hinge connection mechanism 59 described later. Furthermore, the lid portion 53 can take either a locked state in which the storage unit 51 is locked by a slide lock mechanism 62 described later, or an unlocked state in which the lock on the storage unit 51 is released. . When taking the locked state, the lid 53 cannot rotate with respect to the storage 51. However, when the unlocked state is adopted, the lid portion 53 can be rotated with respect to the storage portion 51. That is, the lid 53 is in a locked state or unlocked state while being connected to the storage unit 51 via the hinge connection mechanism 59. Therefore, the lid portion 53 is not removed from the storage portion 51 if the user accidentally drops the dust storage unit 50.

  A brush 55 is located above the lid 53 as shown in FIG. 5, and a dust inflow hole 54 is located on the lid 53 at a position corresponding to the brush 55 as shown in FIG. Is formed. Specifically, the dust inflow hole 54 is provided so as to extend in the longitudinal direction (W direction) of the indoor unit 100 at the approximate center of the lid portion 53. The dust inflow hole 54 is a hole through which dust removed from the filter 31 by the brush 55 flows into the storage portion 51. Further, as will be described later, since the brush 55 itself is cleaned by the brush cleaning unit 57 (see FIGS. 4 and 5), dust adhering to the brush 55 itself is also stored through the dust inflow hole 54. Will be flowed into.

  Further, a slide knob 70 is attached to the lid portion 53 as shown in FIGS. The slide knob 70 is used when the lid portion 53 is slid.

(2-3) Brush As shown in FIGS. 5 to 6, the brush 55 has an elongated shape along the longitudinal direction (W direction) of the casing 11 of the indoor unit 100, similar to the storage portion 51 and the lid portion 53. The cross section perpendicular to the longitudinal direction has a substantially circular shape. The brush 55 is supported on the surface 53c of the lid portion 53, that is, on the surface 53c of the lid portion 53 facing the outside rather than the storage portion 51 side when the lid portion 53 takes the closed posture of FIGS. Yes. The brush 55 is rotatably supported on the surface 53c, and removes dust from the filter 31 by directly contacting the filter 31. Specifically, as shown in FIGS. 5 and 7, both end portions of the rotation center shaft 55 a of the brush 55 are pivotally supported by end portions 53 a and 53 b in the longitudinal direction of the lid portion 53.

  Therefore, when the lid 53 is rotated with respect to the storage 51 by the hinge connection mechanism 59, the brush 55 is rotated with respect to the storage 51 together with the lid 53. In addition, the brush 55 itself rotates on the surface 53c of the lid portion 53 regardless of whether the lid portion 53 is locked to the storage portion 51 or the unlocked state. be able to.

  As shown in FIG. 4, the brush 55 includes a core material 56 a and a plurality of wire materials 56 b provided on the peripheral surface of the core material 56 a, and the wire material 56 b can contact the filter 31. It has a length.

  Although not shown, the brush 55 rotates using a brush driving motor as a driving source. The brush drive motor is located inside the casing 11 of the indoor unit 100 separately from, for example, the dust storage unit 50, and its output shaft is the rotation center of the brush 55 when the dust storage unit 50 is mounted on the casing 11. It is connected to the shaft 55a. The brush driving motor can be constituted by a stepping motor, for example, and is driven and controlled by the indoor control unit. For example, when the brush 55 rotates, the movement of the filter 31 is stopped, and conversely, when the filter 31 is moving, the indoor control unit is configured to drive the brush so that the brush 55 stops rotating. Controls motor drive.

(2-4) Brush Cleaning Unit Similar to the brush 55, the brush cleaning unit 57 is attached on the surface 53c of the lid 53 as shown in FIG. More specifically, the brush cleaning part 57 is arranged along the longitudinal direction (W direction) of the casing 11 as shown in FIG. 5, and from the surface 53c of the lid part 53 as shown in FIG. Projecting toward 55. Furthermore, the brush cleaning part 57 is inclined so as to oppose the rotation direction of the brush 55 (that is, the direction of the arrow in the brush 55 in FIG. 4).

  Thereby, the brush cleaning part 57 can scrape off the dust between the wire 56b of the brush 55, when the brush 55 rotates in the direction of the arrow of FIG.

(2-5) Hinge coupling mechanism As shown in FIG. 7, the hinge coupling mechanism 59 is configured to move the storage unit 51 and the lid unit 53 so that the lid unit 53 takes an open posture by rotating with respect to the storage unit 51. It is a mechanism that connects with a hinge. Such a hinge connection mechanism 59 includes a rotation shaft 60 and a bearing 61, as shown in FIGS.

  The rotation shaft 60 is a member that serves as an axis when the lid portion 53 rotates with respect to the storage portion 51. Specifically, as shown in FIG. 9A, three rotation shafts 60 are provided on the long side 53e of the rectangular lid portion 53 at a predetermined distance from each other in the longitudinal direction (W direction). Yes. As shown in FIG. 9B, a part of the long side 53e of the lid portion 53 is notched, and the three rotating shafts 60 are each in the longitudinal direction (W direction) so as to connect the notched portions. ). At this time, a rectangular opening 65 is formed between each rotation shaft 60 and the lid 53 along the longitudinal direction (W direction). The rotating shaft 60 has a circular cross section, and the diameter and the width d1 of the rotating shaft 60 in the longitudinal direction (W direction) are appropriately determined depending on the strength of the lid portion 53 and the storage portion 51, for example.

  Further, the width d2 in the short side direction of the opening 65 is appropriately determined in relation to the protrusion width d4 in the protrusion direction of the bearing 61 described later (see FIG. 8C). That is, the opening 65 allows the lid portion 53 to smoothly rotate while the bearing 61 on the storage portion 51 side holds the rotation shaft 60 on the lid portion 53 side when the lid portion 53 rotates. It can be said that it is an opening for making.

  The bearing 61 is a member for supporting the rotating shaft 60 at a predetermined position on the storage unit 51 side. Specifically, as shown in FIG. 8A, three bearings 61 are provided on the long side 51b forming the opening 52 of the reservoir 51 so as to be separated from each other by a predetermined distance in the longitudinal direction (W direction). It has been. That is, the three bearings 61 are formed in the storage portion 51 in the vicinity of the lid portion 53 side, and the positions of the bearings 61 are respectively at the positions of the three rotation shafts 60 provided on the lid portion 53 side. It corresponds. Then, as shown in FIG. 8C, each of the three bearings 61 can grip the rotation shaft 60 from the inner side to the outer side of the storage unit 51 on the long side 51 b of the storage unit 51. It has a C-shape that projects outwardly by a width d4 and is open to the outside. The inner diameter of each bearing 61 is slightly larger than the outer periphery of the corresponding rotation shaft 60.

  Further, the width d3 in the longitudinal direction of each bearing 61 is appropriately determined by, for example, the strength of the lid portion 53 and the storage portion 51 as in the case of the width d1 in the longitudinal direction (W direction) of the rotating shaft 60. A width d3 in the longitudinal direction of the bearing 61 is shorter than a width d1 in the longitudinal direction (W direction) of the corresponding rotation shaft 60 (see FIG. 9B).

  Thereby, when the lid part 53 is slid by the user in the first direction D1 or the second direction D2 with respect to the storage part 51 (FIG. 6), each bearing 61 extends on the rotation shaft 60 in the longitudinal direction of the shaft 60. It is possible to slide by the width d1 in the direction (W direction). That is, it can be said that the difference between the longitudinal direction width d3 of each bearing 61 and the longitudinal direction (W direction) width d1 of the rotation shaft 60 is the sliding distance at which the lid portion 53 can slide relative to the storage portion 51.

  7 to 10 according to the present embodiment, the hinge connecting mechanism 59 is provided one near the both ends in the longitudinal direction (W direction) of the storage portion 51 and the lid portion 53 and 1 near the center in the longitudinal direction. The case where a total of three is provided is illustrated. However, the number of hinge connection mechanisms 59 provided in the dust storage unit 50 is not limited to this.

(2-6) Slide lock mechanism The slide lock mechanism 62 is configured such that the lid 53 is slid by the user in the first direction D1 or the second direction D2 with respect to the storage 51 when the lid 53 takes the closed posture. (See FIG. 6), this is a mechanism for changing the state that the lid 53 can take so that the lid 53 can be locked or unlocked with respect to the storage 51. Specifically, the slide lock mechanism 62 prohibits the rotation of the lid 53 when the lid 53 is slid in the first direction D1 with respect to the storage 51 by the user when the lid 53 is in the closed position. (Ie, locked state). Conversely, the slide lock mechanism 62 is shown in FIG. 7 when the lid 53 is slid in the direction D2 opposite to the first direction D1 by the user when the lid 53 is in the closed position. Thus, the lid 53 can be rotated (that is, in the unlocked state).

  Here, the 1st direction D1 and the 2nd direction D2 which are the sliding directions in this embodiment are directions along the longitudinal direction (W direction) of the storage part 51 and the cover part 53, as shown in FIG. Therefore, when the user slides the lid portion 53 with respect to the storage portion 51, the storage portion 51 is attached with one hand, and the slide knob 70 is attached with the other hand in the first direction D1 or the second direction D2. The lid portion 53 can be easily slid in the first direction D1 or the second direction D2. As described above, since the first direction D1 and the second direction D2 are directions along the longitudinal direction of the storage unit 51 and the lid 53, a sufficient distance for sliding the lid 53 with respect to the storage 51 can be secured. At the same time, the user can easily work.

  Such a slide lock mechanism 62 is comprised by the storage side latching | locking part 63 and the cover side latching | locking part 64, as shown to FIGS.

  As shown in FIG. 8A, the storage-side locking portions 63 are separated from each other by a predetermined distance in the longitudinal direction (W direction) on the inner surface 51a of the storage portion 51 and in the vicinity of the lid portion 53 side. Three are provided. More specifically, the three storage side latching parts 63 are located in a relatively upper part on the inner surface 51 a of the storage part 51, and further, a long side 51 b that forms the edge of the opening 52. , 51c are formed on the side 51c on the side where the hinge coupling mechanism 59 (more specifically, the bearing 61) is not provided. As shown in FIG. 9B, each of the three storage side locking portions 63 protrudes from the inner surface 51 a of the storage portion 51 into the storage portion 51, and the tip portion thereof is in the longitudinal direction (W direction). ).

  As shown in FIG. 10A, the lid-side locking portion 64 is a surface of the surface of the lid portion 53 that faces the storage portion 51 side when the lid portion 53 takes a closed posture (hereinafter referred to as a back surface 53d). The upper side is provided near the long side 53f opposite to the long side 53e on the side where the hinge connecting mechanism 59 (more specifically, the rotation shaft 60) is provided. Similarly to the storage side locking part 63, three lid side locking parts 64 are provided so as to be separated from each other by a predetermined distance. The positions of the lid side locking parts 64 are the three storage side locking parts 63. It corresponds to each. As shown in FIGS. 7 and 10 (b), each of the three lid-side locking portions 64 protrudes from the lid portion 53 toward the storage portion 51 side, and its distal end portion is bent in the longitudinal direction (W direction). Has the shape.

  In particular, as shown in FIG. 11, when the lid portion 53 takes the closed posture, the protruding portion 64 a of the lid side locking portion 64, the protruding portion 63 a of the storage side locking portion 63, and the lid side locking portion 64 corresponding to each other. The bent portion 64b and the bent portion 63b of the storage side locking portion 63 are in a state of extending in parallel. Thereby, when the lid part 53 is slid in the first direction D1, the storage side latching part 63 and the lid side latching part 64 are latched with each other, so that the lid part 53 is It is in a locked state, that is, a state where rotation is prohibited. Conversely, when the lid portion 53 is slid in the second direction D2, the storage side locking portion 63 and the lid side locking portion 64 that have been locked to each other are separated from each other. The lock 51 is unlocked, and the reservoir 51 can be rotated.

(3) Maintenance of Dust Storage Unit (3-1) When Maintaining Dust Storage Unit Here, an operation performed by the user when the dust storage unit 50 having the above-described configuration is maintained will be described.

  First, the user takes out the dust storage unit 50 from the casing 11 of the indoor unit 100 whose operation has been stopped. At this time, the lid 53 of the dust storage unit 50 is locked to the storage 51 by the slide lock mechanism 62.

  In a state where the storage unit 51 of the taken-out dust storage unit 50 is positioned on the lower side and the lid unit 53 is positioned on the upper side (FIGS. 5 and 6), the user supports the storage unit 51 with one hand and the lid unit with the other hand. 53 slide sliders 70 are slid in the second direction D2 (FIG. 6). Thereby, each latching | locking part 63 and 64 of the slide lock mechanism 62 will mutually separate, and the cover part 53 will be in the state by which the lock | rock with respect to the storage part 51 was cancelled | released. However, the storage part 51 and the cover part 53 are in a state in which the long sides 51b and 53e facing each other in the cover part 53 and the storage part 51 are connected by the hinge connection mechanism 59. That is, it can be said that the lid portion 53 is connected to the storage portion 51 so as to be rotatable.

  Next, the user rotates the lid 53 around the rotation shaft 60 with the other hand while supporting the storage unit 51 with one hand. Thereby, the lid part 53 can be rotated with respect to the storage part 51 around the longitudinal direction (W direction) (FIG. 7), and the opening part 52 is exposed. Therefore, the user can discard the dust inside the storage unit 51 or clean the inside of the storage unit 51 after the dust is discarded as maintenance of the dust storage unit 50.

(3-2) When Dust Storage Unit after Maintenance is Attached to Indoor Unit Next, an operation performed by the user when attaching the dust storage unit 50 after maintenance to the casing 11 of the indoor unit 100 will be described.

  For the dust storage unit 50 after the maintenance is performed in the above procedure, the user holds the storage unit 51 with one hand, while the cover unit is in the opposite direction to the case where the opening 52 is exposed with the other hand. 53 is rotated around the rotation axis 60. Thereby, the cover part 53 rotates centering on the longitudinal direction (W direction), and the opening part 52 comes to be covered with the cover part 53 eventually (FIGS. 5 and 6).

  Next, the user slides the slide knob 70 of the lid 53 in the first direction D1 with the other hand while supporting the storage unit 51 with one hand (FIG. 6). As a result, the locking portions 63 and 64 of the slide lock mechanism 62 that are separated from each other are locked to each other, and the lid portion 53 is locked to the storage portion 51. At this time, the hinge connection mechanism 59 remains in a state where the long sides 51b and 53e of the storage part 51 and the lid part 53 are connected to each other.

  Next, the user attaches the dust storage unit 50 in the locked state to a predetermined position in the casing 11 of the indoor unit 100. Thereby, the rotation center shaft 55 a of the brush 55 in the dust storage unit 50 is connected to the output shaft of the brush drive motor inside the casing 11, and the brush 55 is in a state where the filter 31 can be cleaned.

(4) Features (4-1)
As shown in FIGS. 4 to 10, the dust storage unit 50 according to the present embodiment includes a storage part 51, a lid part 53, a hinge connection mechanism 59, and a slide lock mechanism 62. The hinge connection mechanism 59 connects the storage part 51 and the cover part 53 in a hinged manner so that the cover part 53 rotates with respect to the storage part 51 and takes an open posture. The slide lock mechanism 62 prohibits rotation of the lid 53 when the lid 53 is slid in the first direction D1 with respect to the storage 51 when the lid 53 is in the closed position. Further, the slide lock mechanism 62 allows the lid portion 53 to rotate when the lid portion 53 is slid in the second direction D2 with respect to the storage portion 51.

  According to such a dust storage unit 50, when the dust in the storage part 51 is discarded, the user first slides the lid part 53 in the second direction D2. Thereby, the lock | rock of the cover part 53 and the storage part 51 is removed, and the cover part 53 can turn with respect to the storage part 51 now. That is, when the lock is released by the slide, the lid 53 is not completely removed from the storage 51, but a part of the lid 53 is connected to each other by the hinge connection mechanism 59. Accordingly, the lid 53 and the storage unit 51 can be gently unlocked by sliding, and even if the user accidentally drops the dust storage unit 50, the storage unit 51 has the cover 53. Since they are connected, the risk of dust scattering due to the reaction is suppressed. And when the lock | rock of the cover part 53 and the storage part 51 is cancelled | released by a slide, it can also prevent that the cover part 53 falls accidentally. Furthermore, when performing maintenance in the storage unit 51 or discarding dust in the storage unit 51, the user can hold the dust storage unit 50 with one hand, and the user can easily work.

(4-2)
The lid 53 supports the brush 55. As a result, the brush 55 rotates together with the lid portion 53.

(4-3)
In particular, the brush 55 is located on the surface 53c of the lid portion 53 that faces the outside rather than the storage portion 51 side when the lid portion 53 takes a closed posture. The lid 53 is provided with a dust inflow hole 54 at a position corresponding to the brush 55.

  As a result, the brush 55 can directly contact the filter 31 and remove dust from the filter 31. Then, the removed dust is reliably stored in the storage portion 51 through the dust inflow hole 54 of the lid portion 53.

(4-4)
Moreover, the storage part 51 and the cover part 53 are extended along the longitudinal direction (W direction) of the casing 11 of the indoor unit 100. As shown in FIG. 6, the first direction D <b> 1 and the second direction D <b> 2 that are sliding directions are directions along the longitudinal direction of the storage portion 51 and the lid portion 53.

  Thereby, the distance which slides the cover part 53 with respect to the storage part 51 is fully ensured. And since the cover part 53 will be in the state which can be rotated easily because the cover part 53 is slid to a longitudinal direction (W direction), workability | operativity of a user improves.

(4-5)
Further, as shown in FIGS. 8 to 10, the hinge coupling mechanism 59 according to the present embodiment includes a rotation shaft 60 on the lid 53 side extending along the longitudinal direction (W direction) of the reservoir 51 and the lid 53. The rotating shaft 60 is configured with a bearing 61 that supports the rotating shaft 60 at a predetermined position on the storage unit 51 side.

  With the hinge coupling mechanism 59 having such a simple configuration, the lid 53 can be rotated about the longitudinal direction (W direction) as an axis.

(4-6)
Also, as shown in FIGS. 8 to 10, the slide lock mechanism 62 according to the present embodiment includes a lid side locking portion 64 provided on the lid portion 53 side and a storage side locking provided on the storage portion 51 side. The unit 63 is configured. As shown in FIG. 11, when the lid 53 is slid in the first direction D1, the lid-side latching portion 64 and the storage-side latching portion 63 are latched with each other, so that the lid 53 is rotated. Is prohibited. When the lid part 53 is slid in the second direction D2, the lid part 53 and the storage side latch part 63 are separated from each other, whereby the lid part 53 can be rotated.

  With the slide lock mechanism 62 having such a simple configuration, the lid portion 53 and the storage portion 51 can be easily locked / unlocked.

(5) Modifications While the embodiment of the present invention has been described with reference to the drawings, the specific configuration can be changed as follows without departing from the gist of the invention.

(5-1) Modification A
In the said embodiment, as shown to FIGS. 8-9, the rotating shaft 60 which comprises the hinge connection mechanism 59 was provided in the cover part 53 side, and the case where the bearing 61 was provided in the storage part 51 side was demonstrated. .

  However, the rotation shaft 60 may be provided not on the lid part 53 side but on the storage part 51 side, and the bearing 61 may be provided on the lid part 53 side instead of the storage part 51 side.

(5-2) Modification B
In the above embodiment, as shown in FIGS. 8 and 10, the slide lock mechanism 62 is configured by a storage side locking portion 63 and a lid side locking portion 64 provided on the storage portion 51 side and the lid portion 53 side, respectively. Explained the case.

  However, when the lid portion 53 is slid with respect to the storage portion 51, the slide lock mechanism 62 only needs to make the lid portion 53 rotatable or non-rotatable. The configuration may be other than the configuration described in the above embodiment.

(5-3) Modification C
In the dust storage unit 50 of the above-described embodiment, a sensor that detects how much dust is stored in the storage unit 51 may be further provided in the storage unit 51 or the like. When the sensor detects that a predetermined amount or more of dust has been stored in the storage unit 51, the detection result is displayed on the display unit provided on the front plate 11b of the indoor unit 100, the display unit of the remote controller, or the like. It is desirable. Thereby, the user can know that dust was stored more than the predetermined amount without removing the dust storage unit 50 from the casing 11 of the indoor unit 100 and visually confirming the amount of dust.

(5-4) Modification D
The dust storage unit 50 of the above embodiment may further include a compression roller. The compression roller is a columnar bar-like member, and can be rotatably supported, for example, inside the storage portion 51 and in the vicinity of the lid portion 53. Alternatively, the compression roller may be positioned so as to contact the brush 55 in the vicinity of the brush cleaning unit 57, for example.

  By providing this compression roller in the dust storage unit 50, the dust accumulated in the storage unit 51 is compressed, and a relatively large amount of dust can be stored in the storage unit 51. Furthermore, it is possible to reliably send relatively high-viscosity dust to the storage unit 51 by the rotation of the compression roller.

  According to the present invention, the lock between the lid portion and the storage portion can be gently released by the slide. Further, even if the user accidentally drops the dust storage unit, the lid portion is connected to the storage portion, so that the risk of dust scattering due to the reaction is suppressed. And when the lock | rock of a cover part and a storage part is cancelled | released by a slide, it can also prevent that a cover part falls accidentally. Furthermore, when performing maintenance in the storage unit or discarding dust in the storage unit, the user can hold the dust storage unit with one hand, and the user can easily work. Therefore, the dust storage unit according to the present invention can be applied to an indoor unit of an air conditioning indoor unit that automatically cleans a filter.

100 Air Conditioning Indoor Unit 11 Casing 11a Top Plate 11b Front Plate 11c Back Plate 13 Indoor Heat Exchanger 13a Front Heat Exchanger 13b Rear Heat Exchanger 13c Vertex 15 Indoor Fan 21 Suction Port 22 Air Outlet 23 Horizontal Flap 30 Filter Unit 31 Filter 32 Main frame 36 Drive roller 50 Dust storage unit 51 Storage part 51a Inner surfaces 51b, 51c Long side 52 of storage part Opening 53 Lid parts 53a, 53b End part 53c in the longitudinal direction of the lid part Surface of the lid part 53d Back surface 53e of lid portion, 53f Long side of lid portion 54 Dust inflow hole 55 Brush 55a Brush rotation center shaft 56a Core material 56b Wire material 57 Brush cleaning portion 59 Hinge coupling mechanism 60 Rotating shaft 61 Bearing 62 Slide lock mechanism 63 Storage side latching part 63a Projection part 63b of storage side latching part Folding of storage side latching part Bending portion 64 Lid side locking portion 65 Opening 64a Lid side locking portion protruding portion 64b Lid side locking portion bent portion 70 Slide knob

JP 2008-215709 A

Claims (6)

A dust storage device that is detachably attached to the indoor unit casing (11) of the air conditioner and removes and stores the dust from a filter (31) that collects dust in the air sucked into the indoor unit casing. (50)
A reservoir (51) in which dust removed from the filter is stored and an opening (52) capable of discharging the dust to the outside is formed;
A lid (53) capable of adopting a closed posture for closing the opening and an open posture for opening the opening;
A hinge connection mechanism (59) for connecting the storage part and the cover part in a hinged manner so that the cover part rotates with respect to the storage part and takes the open posture;
When the lid portion is in the closed position, if the lid portion is slid in the first direction with respect to the storage portion, rotation of the lid portion is prohibited, and the lid portion is against the storage portion. A slide lock mechanism (62) that allows the lid to rotate when slid in a second direction opposite to the first direction;
A dust storage device (50) comprising: A brush (55) supported by the lid (53) for removing dust from the filter;
Further comprising
The dust storage device (50) according to claim 1. The brush (55) is located on the surface of the lid portion facing the outside rather than the storage portion side when the lid portion (53) takes the closed posture,
The lid portion is provided with a dust inflow hole (54) for allowing dust removed by the brush to flow into the storage portion at a position corresponding to the brush.
The dust storage device (50) according to claim 2. The storage part and the lid part extend along the left-right direction of the indoor unit casing,
The first direction and the second direction are directions along the longitudinal direction of the reservoir and the lid,
The dust storage device (50) according to any one of claims 1 to 3. The hinge connecting mechanism (59)
A rotation axis (60) of the lid extending along the longitudinal direction;
A bearing (61) for supporting the rotating shaft at a predetermined position on the storage unit side;
Composed of,
Dust storage device (50) according to claim 4. The slide lock mechanism (62) is constituted by a lid side locking portion (64) provided on the lid side and a storage side locking portion (63) provided on the storage portion,
When the lid portion is slid in the first direction, the lid-side locking portion and the storage-side locking portion are locked to each other to prevent rotation of the lid portion,
When the lid portion is slid in the second direction, the lid side locking portion and the storage side locking portion are separated from each other, so that the lid portion can be rotated.
The dust storage device (50) according to any one of claims 1 to 5.

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