JPWO2019082406A1 - Air conditioner - Google Patents

Abstract

The indoor unit (1) of the air conditioner includes a housing (10), a cross flow fan (21), a motor (31), a motor case (32), and a motor receiving portion (40). .. The motor (31) drives the cross-flow fan (21). The motor case (32) houses the motor (31) and is detachably attached to the housing (10). The motor receiving portion (40) is located between the cross flow fan (21) and the motor case (32), and the motor case (32) is attached to the motor receiving portion (40). The motor case (32) forms a seal portion with the motor receiving portion (40). The seal portion on the motor case (32) side has a tapered shape, and the seal portion on the motor receiving portion (40) side has a reverse tapered shape corresponding to the tapered shape.

Description

The present disclosure relates to an air conditioner, and more specifically to a structure around a motor of a blower provided in the air conditioner.

The indoor unit of the air conditioner is equipped with a blower for sending air-conditioned air into the room. As the blower of the indoor unit, for example, a cross flow fan is used.

The blower generally has a substantially cylindrical shape extending in the left-right direction of the indoor unit. A motor for driving the blower is arranged at one end of the blower in the left-right direction.

For example, Patent Document 1 discloses an indoor unit of an air conditioner. The indoor unit has a cabinet 3 containing a heat exchanger 1 and a fan 2. The heat exchanger 1 and the fan 2 are arranged along the left-right direction in the cabinet 3. The motor 22 for driving the fan 2 is provided on one end side (specifically, on the right side when the cabinet 3 is viewed from the front) in the axial direction of the fan 2. The motor 22 is housed in the motor case 24.

The motor case 24 is detachably attached to the back plate 10 constituting the cabinet 3. Specifically, the motor case 24 is movable in the axial direction with respect to the cabinet 3. Further, the cabinet 3 is provided with a guide portion that guides the movement in the axial direction while supporting the motor case 24. When the motor case 24 moves to the entrance / exit space S away from the fan 2, the motor case 24 can be separated from the guide portion or can be engaged with the guide portion. The electrical box 20 is housed in a part of the entrance / exit space S.

Japanese Patent No. 5940813

The air conditioner disclosed in Patent Document 1 has the above configuration, and after removing the electrical box 20, the motor case 24 is slid in the axial direction to move to the entrance / exit space S, and is moved from the cabinet 3. Can be removed. As described above, in the air conditioner disclosed in Patent Document 1, the motor case 24 can be attached / detached without removing the main body portion of the heat exchanger 1. There is room for further improvement in the motor case having such a configuration so that the removal work from the indoor unit can be performed more easily.

The air conditioner according to one aspect of the present invention accommodates a housing, a blower extending in the left-right direction in the housing, a motor for driving the blower, and the motor, and is removable from the housing. It is provided between the attached motor case and the motor receiving portion that is located between the blower and the motor case and to which the motor case is attached. In this air conditioner, the motor case forms a seal portion with the motor receiving portion. The seal portion on the motor case side has a tapered shape that tapers toward the blower side, and the seal portion on the motor receiving portion side has a reverse tapered shape corresponding to the tapered shape. Have.

According to the air conditioner according to one aspect of the present invention, it is possible to improve the workability of the motor mounting operation in the air conditioner to which the motor for driving the blower can be attached and detached.

It is a perspective view which shows the appearance of the indoor unit of the air conditioner which concerns on one Embodiment of this invention. It is a perspective view which shows the internal structure of the indoor unit which concerns on 1st Embodiment. This figure shows a state in which the indoor unit is viewed from the lower surface side. In this figure, each wind direction plate is removed from the drain pan. It is a perspective view which shows the internal structure of the indoor unit which concerns on 1st Embodiment. This figure shows a state in which the drain pan is removed from the indoor unit shown in FIG. It is a perspective view which shows the internal structure of the indoor unit which concerns on 1st Embodiment. This figure shows how the cross flow fan and the motor unit are removed from the indoor unit shown in FIG. It is a perspective view which shows the state which the motor part was removed from the indoor unit shown in FIG. It is an exploded perspective view which shows the component part of the indoor unit shown in FIG. It is an exploded perspective view which shows each member constituting the motor receiving part provided in the indoor unit shown in FIG. It is a side view which shows the state which the motor part was removed from the indoor unit shown in FIG. It is a perspective view which shows the motor part provided in the indoor unit which concerns on 1st Embodiment. It is sectional drawing which shows the structure of the part AA line part of the indoor unit shown in FIG. It is sectional drawing which shows the structure of the BB line part of the indoor unit shown in FIG. It is sectional drawing which shows the structure of the CC line part of the indoor unit shown in FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Their names and functions are the same. Therefore, the detailed description of them will not be repeated.

[First Embodiment]
<Overall configuration of air conditioner>
First, the overall configuration of the air conditioner according to the present embodiment will be described. The air conditioner according to the present embodiment is a separate type air conditioner, and is mainly composed of an indoor unit 1 and an outdoor unit (not shown). FIG. 1 shows the external configuration of the indoor unit 1 of the air conditioner according to the present embodiment. 2 and 3 show the internal configuration of the indoor unit 1. FIG. 2 shows a state in which the front panel 11, the main body panel 12, and the flap 15 constituting the housing 10 are removed from the indoor unit 1. FIG. 3 shows a state in which the drain pan 23 is removed from the state shown in FIG. Further, FIG. 2 shows a state in which each wind direction plate (upper and lower wind direction plates 24 and left and right wind direction plates 25) is removed from the drain pan 23.

The outdoor unit is equipped with a compressor, an outdoor heat exchanger, a four-way valve, an expansion valve, and the like. The refrigeration cycle is composed of these and the indoor heat exchanger 22 provided on the indoor unit 1 side.

Next, the schematic configuration of the indoor unit 1 will be described with reference to FIGS. 1 and 2. As shown in FIG. 1, the indoor unit 1 has a substantially rectangular parallelepiped shape, and is usually used by being hung on the upper part of the wall of the room. As shown in FIG. 2, the indoor unit 1 is provided with an indoor heat exchanger 22. The indoor heat exchanger 22 is connected to a compressor or the like on the outdoor unit side via two auxiliary pipes (refrigerant pipes). The two auxiliary pipes are covered with the heat insulating material 26. As a result, the indoor unit 1 and the outdoor unit form a refrigeration cycle, and as a result, function as an air conditioner.

As shown in FIG. 1, the outer shape of the indoor unit 1 is formed by the housing 10. The housing 10 is a resin molded product having a substantially rectangular parallelepiped shape. As shown in FIG. 1, the housing 10 is mainly composed of a front panel 11, a main body panel 12, a back panel 13, and a flap 15.

For convenience of explanation, the side on which the front panel 11 is arranged is the front side of the indoor unit 1, and the side on which the back panel 13 is arranged is the back side of the indoor unit 1. The direction from the front side to the back side of the indoor unit 1 or from the back side to the front side is referred to as a front-rear direction. Further, in the normal installation state of the indoor unit 1, the direction from the upper side to the lower side or from the lower side to the upper side is referred to as a vertical direction or a vertical direction.

The right side of the indoor unit 1 means the right side when the indoor unit 1 is viewed from the front (front side), and the left side of the indoor unit 1 means the right side when the indoor unit 1 is viewed from the front (front side). Means the left side of. The direction that intersects or is orthogonal to the vertical direction of the indoor unit 1 and goes from the right side to the left side of the indoor unit 1 or from the left side to the right side of the indoor unit 1 is called a left-right direction or a horizontal direction.

The front panel 11 is located on the front surface (front surface) of the housing 10. The front panel 11 is attached to the main body panel 12 so as to be openable and closable. Normally, when the front panel 11 is opened, a filter (not shown) appears on the front surface. The filter (not shown) is provided below the suction port 14 provided on the upper surface of the main body panel 12. The filter captures dust and dirt contained in the air taken into the indoor unit 1 from the suction port 14. An indoor heat exchanger 22 and a cross flow fan (blower) 21 are arranged on the back side of the filter.

Further, at the lower part of the main body panel 12, an air outlet for sending out air sucked from the suction port is provided, and a flap 15 is provided at the air outlet so as to be openable and closable. A drive motor (not shown) is connected to the flap 15. The drive motor is communicatively connected to the electrical board (not shown) via electrical wiring (not shown), and the flap 15 follows a control signal from a control unit provided on the electrical board during operation of the air conditioner. Adjust the rotation angle of.

Further, a final outlet 13a of the power cord is formed below the back side of the right side surface portion of the back panel 13. The downstream side of the power cord having a plug at the tip goes out of the indoor unit 1 from the final outlet 13a.

<Internal configuration of indoor unit>
Subsequently, a more specific configuration inside the indoor unit 1 will be described with reference to FIGS. 2 to 6.

2 and 3 show a state in which the inside of the indoor unit 1 is viewed from the lower side of the indoor unit. As shown in FIG. 2, the indoor unit 1 is provided with a cross flow fan 21, an indoor heat exchanger 22, a drain pan 23, a motor unit 30, an electrical box (not shown), and the like. 2 and 3 show a state in which the electrical box is removed.

FIG. 4 shows a cross flow fan 21 and a motor unit 30 provided inside the indoor unit 1. FIG. 4 shows how the cross flow fan 21 and the motor unit 30 are removed from the indoor unit 1. FIG. 5 shows a state in which the motor unit 30 is removed from the indoor unit 1. FIG. 5 shows a specific configuration of the side surface of the indoor unit 1 on the motor receiving portion 40 side. FIG. 6 shows a state in which various parts provided inside the indoor unit 1 are disassembled.

The cross flow fan 21 is arranged below the indoor heat exchanger 22 and extends in the left-right direction inside the indoor unit 1. The cross flow fan 21 is connected to a drive motor (motor) 31 in the motor unit 30. Then, the cross flow fan 21 is rotationally driven by the drive motor 31 during the operation of the air conditioner, sucks indoor air into the housing 10 from the suction port 14, supplies it to the indoor heat exchanger 22, and also supplies the indoor side heat exchanger 22. The air heat-exchanged by the heat exchanger 22 is sent out into the room from the air outlet. The drive motor 31 is communication-connected to an electrical board (not shown) arranged in the electrical box via electrical wiring, and operates according to a control signal transmitted from a control unit provided on the electrical board. ..

The indoor heat exchanger 22 is a combination of a plurality of heat exchangers like a roof (inverted V shape) covering the cross flow fan 21. Each heat exchanger has a large number of heat radiation fins (not shown) attached to heat transfer tubes (not shown) that are folded back at both the left and right ends, and functions as an evaporator during cooling operation. , Functions as a condenser during heating operation. The indoor heat exchanger 22 is connected to an auxiliary pipe (refrigerant pipe) coated with the heat insulating material 26 (see FIG. 6). Although not shown, the indoor heat exchanger 22 is connected to the compressor, expansion valve, etc. on the outdoor unit side via a refrigerant pipe.

The auxiliary pipe is covered with a tubular heat insulating material 26 having flexibility and heat insulating properties. Two refrigerant pipes are included inside the heat insulating material 26.

As shown in FIG. 3, the cross flow fan 21 is supported below the indoor heat exchanger 22 by a side panel 42 or the like attached to the indoor heat exchanger 22. More specifically, the cross flow fan 21 is arranged so that its upper portion is covered by the inverted V-shaped indoor heat exchanger 22. The cross-flow fan 21 is rotatably supported by side panels (side plates) 42 and the like provided adjacent to the left and right end portions of the indoor heat exchanger 22. In the present embodiment, the left end of the cross-flow fan 21 is supported by the left side panel 42, and the right end of the cross-flow fan 21 is the right side panel 42, as well as the back panel 13 and the drain pan 23. It is supported by the components of. The side panel 42 is provided substantially parallel to the side surface of the housing 10 (rear panel 13, etc.) (see FIG. 6).

The side panel 42 is arranged between the cross flow fan 21 and the motor unit 30. The side panel 42 suppresses the flow of air in the air passage in which the cross flow fan 21 is located to the motor unit 30 side, and the drain water generated in the indoor heat exchanger 22 is used in the motor unit 30 and the electrical box. It is provided to prevent inflow to the side.

The drain pan 23 is arranged below the indoor heat exchanger 22 and receives the drain water generated in the indoor heat exchanger 22. Further, the drain pan 23 operably supports the wind direction changing plates such as the vertical wind direction plate 24 and the left and right wind direction plates 25 (see FIG. 5) below the drain pan 23. That is, the drain pan 23 also functions as a wind direction plate mounting mechanism.

The motor unit 30 is mainly composed of a drive motor 31 and a motor case 32. The drive motor 31 is connected to the cross flow fan 21 and rotationally drives the cross flow fan 21. The motor case 32 accommodates the drive motor 31. The motor case 32 can be removed from the main body of the indoor unit 1 (in this embodiment, the back panel 13 constituting the housing 10, the side panel (side plate) 42 provided in the indoor heat exchanger 22 and the like). It is attached to (see FIG. 4). A more specific configuration of the motor unit 30 will be described later.

The electrical box is arranged, for example, at the right end of the housing 10 (that is, to the right of the motor 30). Note that in FIGS. 2 and 3, the electrical box is not shown. The electrical box is equipped with an electrical board. A central processing calculation unit (control unit), a signal transmission / reception unit, and the like are mounted on the electrical board. The electrical board is connected to each component of the refrigeration cycle via electrical wiring.

As shown in FIG. 4, the cross flow fan 21 is a substantially cylindrical component extending in the left-right direction inside the indoor unit 1. The axial direction of the cylindrical cross-flow fan 21 arranged along the left-right direction of the indoor unit 1 is called the longitudinal direction of the cross-flow fan 21. The motor unit 30 is arranged adjacent to the cross flow fan 21 in the longitudinal direction.

In the present embodiment, a motor unit 30 for axially rotating the cross flow fan 21 is arranged on the right side of the cross flow fan 21. The shaft portion 34 (see FIG. 9 and the like) of the drive motor 31 constituting the motor portion 30 is connected to the rotating shaft 21a (see FIG. 5 and the like) of the cross flow fan 21.

As described above, in the present embodiment, the rotation shaft of the cross flow fan 21 and the drive motor 31 are connected at the right end portion of the cross flow fan 21. However, in another embodiment of the present invention, the motor unit 30 may be arranged on the left side of the cross flow fan 21. In this case, the motor unit has a symmetrical configuration with the motor unit 30 described in the present embodiment. Further, in this case, the motor receiving portion 40 is provided on the left side panel 42 or the like of the cross flow fan 21.

In the indoor unit 1 of the present embodiment, the motor unit 30 and the cross flow fan 21 can be removed without removing the indoor heat exchanger 22. As a result, maintenance of the motor unit 30 and the cross flow fan 21 and replacement of each component can be easily performed. When removing the motor unit 30, first, the electrical box arranged at the right end of the indoor unit 1 is removed. After that, the motor unit 30 is slid to the right (see arrow A in FIG. 4). As a result, the motor unit 30 can be removed from the indoor unit 1. Although FIG. 4 shows a state in which the drain pan 23 is removed, the motor unit 30 can be removed even when the drain pan 23 is attached to the main body portion.

On the other hand, the cross flow fan 21 can be removed after removing the drain pan 23. When removing the cross flow fan 21, after pulling out the right side portion of the cross flow fan 21 downward (see the arrow B in FIG. 4), the left portion of the cross flow fan 21 is the main body of the indoor unit 1. Remove from the part (in this embodiment, the left side panel 42). As a result, the cross flow fan 21 can be removed from the indoor unit 1. By making the outlet larger than the diameter of the cross flow fan 21, the cross flow fan 21 may be taken out from the outlet without removing the drain pan 23.

As described above, in the air conditioner according to the present embodiment, the motor unit 30 and the cross flow fan 21 can be removed without removing the main body portion of the indoor heat exchanger 22.

In addition, in order to make it easier for the operator to move the motor unit 30 in the direction of the arrow A, the motor unit 30 is provided with a finger hook portion 33. The finger hook portion 33 is provided on the side surface of the motor portion 30 exposed on the side surface side of the indoor unit 1 with the electrical box removed (see FIG. 3). For example, in the present embodiment, the finger hook portion 33 is arranged at the right end portion of the motor case 32. The fingers of the operator come into contact with the finger hook portion 33 when the motor portion 30 is removed. Then, the finger hook portion 33 serves as a grip portion when the motor portion 30 is slid and moved.

<Structure of motor part>
Subsequently, a more specific configuration of the motor unit 30 will be described with reference to FIGS. 4 and 9. FIG. 9 shows the appearance of the motor unit 30. FIG. 9 is a view when the motor portion 30 is viewed from the shaft portion 34 side of the drive motor 31. In the following description, the names of the motor unit 30 and each part of each component are based on the position of the motor unit 30 when it is attached to the indoor unit 1. For example, the left side surface of the motor case 32 means a side surface located on the left side when the indoor unit 1 is viewed from the front with the motor unit 30 attached to the indoor unit 1.

As described above, the motor unit 30 is mainly composed of the drive motor 31 and the motor case 32.

The drive motor 31 has a body portion having a substantially cylindrical shape. Further, the drive motor 31 has a shaft portion 34, a connector portion 35, and the like.

The shaft portion 34 is formed so as to project from one side surface of a substantially circular shape of the main body portion. In the present embodiment, the shaft portion 34 projects from the left side surface of the main body portion of the drive motor 31. The shaft portion 34 is connected to the rotating shaft 21a of the cross flow fan 21.

The connector portion 35 is connected to various wirings extending from the electrical box. As a result, power is supplied to the drive motor 31 via the connector portion 35. Further, wiring extending from the electrical board in the electrical box is also connected to the connector portion 35. As a result, the control signal from the control unit of the electrical board is transmitted to the drive motor 31 via the connector unit 35. The drive motor 31 controls the start and stop of operation, the number of rotations, and the like based on the control signal transmitted from the control unit. In the present embodiment, the connector portion 35 is arranged so as to be located on the front side of the indoor unit 1.

The motor case 32 houses the drive motor 31 inside. The motor case 32 has a substantially cylindrical outer shape according to the shape of the drive motor 31. However, the back surface portion 36 of the motor case 32 (the portion located on the back surface side when installed in the indoor unit 1) has a flat shape. This is because the back surface portion 36 of the motor case 32 is connected to the main body of the indoor unit 1 (more specifically, the back panel 13).

As shown in FIG. 9, the motor case 32 is composed of a front case 32a and a rear case 32b divided into two parts. With the motor unit 30 attached to the indoor unit 1, the front case 32a is located on the front side and the rear case 32b is located on the rear side. The rear case 32b has a back surface portion 36.

Further, the motor case 32 according to the present embodiment has a finger hook portion 33. In the present embodiment, as shown in FIG. 4, the finger hook portion 33 has a shape protruding from the right side surface of the motor case 32 (the side surface opposite to the surface adjacent to the cross flow fan 21). When removing the motor unit 30 from the indoor unit 1, the operator puts a finger in the inverted L-shaped finger hook 33 and pushes the finger hook 33 outward (to the right in this embodiment). , The removal work can be done easily.

Further, the motor case 32 is provided with a tapered portion (seal portion on the motor case side) 37 on a side surface of the drive motor 31 on the shaft portion 34 side (side surface facing the motor receiving portion 40 on the main body portion side). The tapered portion 37 has a substantially circular shape and is provided around the bearing of the drive motor 31.

The tapered portion 37 has a tapered shape that tapers toward the cross flow fan 21 side. The tapered portion 37 is formed so as to match the reverse tapered portion 45 (41a, 42a, 43a) on the motor receiving portion 40 side, which will be described later. The reverse taper portion 45 has a shape in which the diameter of the opening increases toward the motor portion 30 side, corresponding to the shape of the taper portion 37. When the motor portion 30 is attached to the main body portion, the tapered portion 37 and the reverse tapered portion 45 match, and a seal portion is formed by these. By forming the seal portion, it is possible to prevent the airflow generated by the rotation of the cross flow fan 21 from leaking from the connection portion between the motor portion 30 and the motor receiving portion 40 to the side portion.

In the present embodiment, the tapered portion 37 is provided in the front case 32a and the rear case 32b, respectively. The tapered portion on the front case 32a side is 37a, and the tapered portion on the rear case 32b side is 37b.

As shown in FIG. 9, a notch 38 is formed in the tapered portion 37 (in the present embodiment, the tapered portion 37a). Further, as will be described later, a protrusion 51 is formed at a position corresponding to the notch 38 in the reverse taper portion 45 on the motor receiving portion 40 side (see FIG. 5). When the motor portion 30 is properly attached to the main body portion, the protrusion 51 fits into the notch 38. That is, since the notch 38 and the protrusion 51 are provided, it is possible to suppress the occurrence of misalignment when the motor portion 30 is attached to the main body portion.

<Structure of motor receiving part>
Subsequently, the configuration on the main body side to which the motor unit 30 is attached will be described below with reference to FIGS. 5, 7, 8, and 10 to 12. FIG. 7 is an exploded view of each member (rear panel 13, indoor heat exchanger 22, and drain pan 23) constituting the motor receiving portion 40. FIG. 8 shows the side surface of the motor receiving portion 40 side. FIG. 10 shows a cross-sectional configuration of the AA line portion of the indoor unit 1 shown in FIG. FIG. 11 shows the cross-sectional configuration of the BB line portion of the indoor unit 1 shown in FIG. FIG. 12 shows the cross-sectional configuration of the CC line portion of the indoor unit 1 shown in FIG.

The motor portion 30 is attached to the motor receiving portion 40 of the main body portion. The motor receiving portion 40 is located between the cross flow fan 21 and the motor case 32. In the present embodiment, the motor receiving portion 40 is a part of the back panel 13 (specifically, the vertical plate portion 41), the side panel 42 provided in the indoor heat exchanger 22, and a part of the drain pan 23. (Specifically, it is configured in combination with the side plate portion 43).

As shown in FIG. 7, the cross flow fan 21 is surrounded by a back panel 13, an indoor heat exchanger 22, and a drain pan 23. Each member (vertical plate portion 41, side panel 42, and side plate portion 43) constituting the motor receiving portion 40 is arranged so as to face the right side surface of the cross flow fan 21.

A substantially circular opening is formed in the motor receiving portion 40. The rotation shaft 21a of the cross flow fan 21 is located at the center of the opening. The substantially circular opening is formed by the vertical plate portion 41 of the back panel 13, the side panel 42 of the indoor heat exchanger 22, and the side plate portion 43 of the drain pan 23.

A reverse taper portion (seal portion on the motor receiving portion side) 45 is formed on the outer periphery of the substantially circular opening. The reverse taper portion 45 is composed of a curved end portion 41a of the vertical plate portion 41, a curved end portion 42a of the side panel 42, and a curved end portion 43a of the side plate portion 43. The reverse taper portion 45 is formed so as to match the taper portion 37 on the motor portion 30 side. When the motor portion 30 is attached to the motor receiving portion 40, the tapered portion 37 and the reverse tapered portion 45 are in contact with each other (see FIG. 11). Then, the contact surface between the tapered portion 37 and the reverse tapered portion 45 is substantially sealed, and the sealed portion is formed.

As a result, it is possible to prevent the airflow formed by the rotation of the cross flow fan 21 from leaking to the side motor portion 30 side. Therefore, it is possible to suppress the loss of the air volume sent from the outlet of the indoor unit 1.

Further, in the motor receiving portion 40, at the boundary (connecting portion) between the side panel 42 and the drain pan 23, one end portion (hook 52) of the side panel 42 and one end portion (overlapping end portion) of the side plate portion 43 of the drain pan 23 An overlapping portion formed by 53) is provided.

FIG. 10 shows the cross-sectional structure of the overlapping portion. The drain pan 23 is made of a material having a higher strength than the side panel 42. Therefore, the drain pan 23 is less likely to be deformed than the side panel 42. Therefore, in the present embodiment, in the overlapping portion, the drain pan 23 having higher strength is arranged on the cross flow fan 21 side, and the side panel 42 having lower strength is arranged on the motor portion 30 side.

When the indoor unit 1 is attached to the wall of the room, the operator moves the auxiliary pipe covered with the heat insulating material 26, so that the side panel 42 having a relatively weak strength moves in the vertical direction, and the side panel 42 is deformed or distorted. May occur. At this time, as described above, at the overlapping portion of the boundary between the side panel 42 and the drain pan 23, the overlapping end portion 53 of the drain pan 23 having high rigidity is arranged inside the hook 52 of the side panel 42 (on the side of the cross flow fan 21). By doing so, the deformation of the side panel 42 can be suppressed to some extent.

It is preferable that the hook 52 of the side panel 42 and the overlapping end portion 53 of the drain pan 23 forming the overlapping portion have a certain length in the front-rear direction of the indoor unit 1. This point will be described with reference to FIG.

In FIG. 12, the front side of the indoor unit 1 is located on the left side, and the rear side of the indoor unit 1 is located on the right side. An overlapping portion formed by the hook 52 of the side panel 42 and the overlapping end portion 53 of the drain pan 23 is located on the front side of the indoor unit 1. As shown in FIG. 12, the overlapping portion has a length equal to or longer than a predetermined value (for example, the length from the reverse taper portion 45 to the outer circumference of the cross flow fan 21) from the reverse taper portion 45 forming the seal portion to the front side. It is preferable to have it. As a result, when assembling the side panel 42 and the drain pan 23, it is possible to more easily align the members with each other. Further, the airtightness of the cross flow fan 21 formed by combining the side panel 42 and the drain pan 23 can be further improved.

In the example shown in FIG. 12, the hook 52 of the side panels 42 constituting the overlapping portion has a length L in the front-rear direction. The front end of the hook 52 preferably extends to a position intersecting the member 23a extending in the left-right direction in the drain pan 23. As a result, when the side panel 42 and the drain pan 23 are assembled, if a misalignment occurs at the overlapping portion and the side panel 42 accidentally enters the cross flow fan 21 side, the member 23a of the drain pan 23 The configuration becomes an obstacle and assembly cannot be realized. Therefore, when assembling the motor receiving portion 40, the operator can easily notice the occurrence of the misalignment.

Further, in the motor receiving portion 40, at the boundary (connecting portion) between the side panel 42 and the back panel 13, one end (hook 54) of the side panel 42 and one end (overlapping) of the side plate 43 of the back panel 13. An overlapping portion formed by the end portion 55) is provided.

The back panel 13 is made of a material having higher strength than the side panel 42. Therefore, the back panel 13 is less likely to be deformed than the side panel 42. Therefore, in the present embodiment, for the same reason as described above, the back panel 13 having higher strength is arranged on the cross flow fan 21 side and the side panel 42 having lower strength is arranged on the motor portion 30 side in the overlapping portion. ing.

Further, as shown in FIG. 5 and the like, a protrusion 51 is formed on the reverse taper portion 45 formed in the motor receiving portion 40. In the present embodiment, the protrusion 51 is formed at the lower end of the curved end portion 42a of the side panel 42 (more specifically, the end portion on the connecting portion side with the side panel 42). Further, the protrusion 51 is formed at a position corresponding to the notch 38 of the tapered portion 37 of the motor case 32. This makes it easier to align the motor unit 30 when it is attached to the main body.

The protrusion 51 provided on the side panel 42 is preferably located near the end portion on the drain pan 23 side, for example, the overlapping portion formed by the drain pan 23 and the side panel 42. This is because when the back panel 13, the side panel 42, and the drain pan 23 are combined to form the motor receiving portion 40, the overlapping portion of the side panel 42 with the drain pan 23 is most likely to be displaced due to deformation or distortion. Because. In the present embodiment, the protrusion 51 is provided on the seal portion located closest to the overlapping portion formed by the hook 52 and the overlapping end portion 53.

According to this configuration, when the motor portion 30 is attached to the motor receiving portion 40, the protrusion 51 and the notch 38 are aligned at a position where the misalignment is most likely to occur. As a result, it is possible to suppress the occurrence of misalignment when the motor unit 30 is attached. Further, even if the side panel 42 is slightly deformed, it is possible to prevent the motor unit 30 from being difficult to install.

<Summary of the first embodiment>
As described above, the indoor unit 1 of the air conditioner according to the present embodiment includes a cross flow fan (blower) 21 extending in the left-right direction in the housing 10 and a drive motor 31 for driving the cross flow fan 21. I am prepared. The drive motor 31 is housed in the motor case 32 and constitutes the motor unit 30. The motor unit 30 is detachably attached to the side of the cross flow fan 21.

The motor unit 30 is attached to the motor receiving unit 40. The motor receiving portion 40 is composed of a plate-shaped member located between the cross flow fan 21 and the motor portion 30. Specifically, the motor receiving portion 40 is formed by combining the side panel 42, the vertical plate portion 41 of the back panel 13, and the side plate portion 43 of the drain pan 23. The motor receiving portion 40 has a substantially circular opening in the bearing portion (around the rotating shaft 21a) of the cross flow fan 21.

On the other hand, the motor case 32 of the motor portion 30 has a tapered portion 37 around the shaft portion 34. When the motor portion 30 is correctly attached to the main body of the indoor unit 1, the tapered portion 37 fits into the above-mentioned opening on the motor receiving portion 40 side. The opening is provided with a reverse taper portion 45 having a reverse taper shape corresponding to the taper shape formed in the tapered portion 37.

Then, when the motor portion 30 is correctly attached to the motor receiving portion 40, a seal portion is formed by the tapered portion 37 and the reverse tapered portion 45. As a result, it is possible to prevent the airflow generated by the cross-flow fan 21 from leaking from the connection portion between the motor portion 30 and the motor receiving portion 40 to the motor portion 30 side. Therefore, the loss of air volume can be reduced.

The tapered portion 37 formed on the motor portion 30 side has a tapered shape toward the motor receiving portion 40 side (toward the mounting direction thereof). The reverse tapered portion 45 on the motor receiving portion 40 side has a shape in which the diameter of the opening increases toward the motor portion 30 side corresponding to the shape of the tapered portion 37 (see FIG. 11). ..

According to this configuration, the tapered portion 37 of the motor portion 30 can be more easily fitted into the reverse tapered portion 45 of the motor receiving portion 40. Therefore, after removing the motor unit 30, the attachment work when reattaching the motor unit 30 to the main body portion becomes easier.

In order to improve the efficiency of maintenance work, the motor unit 30 may be attached / detached while the large components such as the drain pan 23 and the indoor heat exchanger 22 are still attached to the main body as much as possible. desirable. In that case, the field of view of the operator is limited by the drain pan 23 or the like, and the installation work of the motor unit 30 is performed in a state where the periphery of the motor receiving unit 40 cannot be seen.

At this time, as in the indoor unit 1 of the present embodiment, the tapered portion 37 is formed in the motor portion 30 and the reverse tapered portion 45 is formed in the motor receiving portion 40, so that the periphery of the motor receiving portion 40 works. The motor unit 30 can be guided to the correct mounting position even when it is invisible to a person.

Therefore, according to the configuration of the present embodiment, the workability of the removal operation of the motor unit 30 can be improved.

Further, when the motor unit 30 is attached to the indoor unit 1, if an improper installation such as a misalignment occurs between the motor unit 30 and the motor receiving unit 40 on the main body side, abnormal noise or air leakage may occur during operation of the air conditioner. It can occur.

According to the configuration of the present embodiment described above, when the tapered portion 37 is not correctly fitted to the reverse tapered portion 45, the motor portion 30 feels uncomfortable such as tilting or wobbling, resulting in improper mounting of the motor portion 30. Can be detected more easily. Therefore, it is possible to suppress mounting defects of the motor unit.

[Second Embodiment]
A second embodiment of the present invention will be described. In the first embodiment described above, the motor receiving portion 40 is formed by three constituent members: the vertical plate portion 41 of the back panel 13, the side panel 42 of the indoor heat exchanger 22, and the side plate portion 43 of the drain pan 23. The configuration to be performed has been described. However, the present invention is not limited to this. Therefore, in the second embodiment, an example in which the motor receiving portion 40 is formed by the two constituent members will be described.

In the indoor unit 1 according to the second embodiment, the motor receiving portion 40 is formed by the side panel 42 of the indoor heat exchanger 22 and the side plate portion 43 of the back panel 13. The seal portion (reverse taper portion) 45 on the motor receiving portion 40 side includes a curved end portion 42a provided on the side panel 42, a curved end portion 41a provided on the side plate portion 43 of the drain pan 23, and a curved end portion 41a. It is formed by the end portion 43a. As described above, the curved end portion 43a may be formed by the back panel 13 instead of the drain pan 23.

In this configuration, it is preferable that the side plate portion 43 of the drain pan 23 is provided with two overlapping end portions 53 and 55. One overlapping end 53 is arranged so as to overlap the hook 52 located on the front side of the side panel 42. The other overlapping end 55 is arranged so as to overlap the hook 54 located on the rear side of the side panel 42.

The motor unit 30 has the same configuration as that of the first embodiment. That is, the motor case 32 constituting the motor portion 30 is provided with a tapered portion (seal portion on the motor case side) 37 on the side surface facing the motor receiving portion 40 on the main body side.

Further, the seal portion (reverse taper portion 45) on the motor receiving portion 40 side has a reverse taper shape that matches the taper portion 37. Therefore, when the motor portion 30 is attached to the main body portion, the tapered portion 37 and the reverse tapered portion 45 match, and a seal portion is formed by these.

According to the above configuration, the motor receiving portion 40 can be formed by two constituent members, the side panel 42 of the indoor heat exchanger 22 and the side plate portion 43 of the back panel 13. Further, since the seal portion is formed between the motor receiving portion 40 and the motor portion 30, the airflow generated by the rotation of the cross flow fan 21 is sided from the connecting portion between the motor portion 30 and the motor receiving portion 40. It is possible to prevent leakage to the direction part.

[Third Embodiment]
Subsequently, a third embodiment of the present invention will be described. In the third embodiment, as in the second embodiment, an example in which the motor receiving portion 40 is formed by the two constituent members will be described.

In the indoor unit according to the third embodiment, the motor receiving portion 40 is formed of the side panel 42 and the drain pan 23. The seal portion (reverse taper portion 45) on the motor receiving portion 40 side is formed by a curved end portion 41a and a curved end portion 42a provided on the side panel 42, and a curved end portion 43a provided on the drain pan 23. To. As described above, the curved end portion 41a may be formed by the side panel 42 instead of the back panel 13.

[Fourth Embodiment]
Subsequently, a fourth embodiment of the present invention will be described. In the above-described first embodiment, the configuration in which the notch 38 is formed in the tapered portion 37 on the motor case 32 side and the protrusion 51 is formed in the reverse tapered portion 45 on the motor receiving portion 40 side has been described. However, the present invention is not limited to this.

Therefore, as a fourth embodiment, there may be mentioned a configuration in which a protrusion is formed on the tapered portion 37 on the motor case 32 side and a notch is formed on the reverse tapered portion 45 on the motor receiving portion 40 side.

(Summary)
The air conditioner (for example, the indoor unit 1) according to one aspect of the present invention drives the housing 10, the cross flow fan (blower) 21 extending in the left-right direction in the housing 10, and the cross flow fan 21. The motor 31, the motor case 32 that houses the motor 31 and is detachably attached to the housing 10, and the motor that is located between the cross-flow fan 21 and the motor case 32. It includes a motor receiving portion 40 to which the case 32 is attached. The motor case 32 forms a seal portion with the motor receiving portion 40 at its mounting position. The seal portion (tapered portion 37) on the motor case 32 side has a tapered shape that tapers toward the cross flow fan 21 side, and the seal portion (reverse tapered portion) on the motor receiving portion 40 side. 45) has a reverse taper shape corresponding to the taper shape.

The air conditioner (for example, the indoor unit 1) according to one aspect of the present invention described above includes a side panel (side plate) 42 arranged adjacent to the left-right end of the cross-flow fan 21 and the cross. A drain pan 23 arranged below the flow fan 21 may be further provided. The seal portion (reverse taper portion 45) on the motor receiving portion 40 side includes at least one of the side panel 42, the housing 10 (specifically, the back panel 13), and the drain pan 23. It may be composed of.

Further, in the motor receiving portion 40 having the above configuration, at the boundary between the side panel 42 and at least one of the housing 10 (specifically, the back panel 13) and the drain pan 23, the side panel is formed. It is preferable that the 42 and the overlapping portion formed by the housing 10 (specifically, the back panel 13) or the drain pan 23 are provided. The overlapping portion is formed, for example, by the hook 52 of the side panel 42 and the overlapping end portion 53 of the vertical plate portion 41 of the drain pan 23. Alternatively, it is formed by the hook 54 of the side panel 42 and the overlapping end portion 55 of the side plate portion 43 of the back panel 13.

Further, in the motor receiving portion 40 having the above configuration, a protrusion is projected on either one of the seal portion (tapered portion 37) on the motor case 32 side and the seal portion (reverse tapered portion 45) on the side panel 42 side. 51 may be provided, and the other may be provided with a notch 38 into which the protrusion 51 fits.

Further, in the motor receiving portion 40 having the above configuration, the overlapping portion formed by the side panel 42 and the drain pan 23 has a length of a predetermined value or more from the seal portion to the front. May be good.

Further, a protrusion 51 is provided on one of the seal portion (tapered portion 37) on the motor case 32 side and the seal portion (reverse tapered portion 45) on the side panel 42 side, and the other is provided with the protrusion 51. In the configuration in which the notch 38 into which the protrusion 51 is fitted is provided, the protrusion or the notch provided in the side panel 42 may be located in the vicinity of the overlapping portion.

It should be considered that the embodiments disclosed this time are exemplary in all respects and not restrictive. The scope of the present invention is shown by the scope of claims rather than the above description, and it is intended to include all modifications within the meaning and scope equivalent to the scope of claims. In addition, a configuration obtained by combining the configurations of different embodiments described in the present specification with each other is also included in the scope of the present invention.

1: Indoor unit (of air conditioner) 10: Housing 13: Back panel (housing)
21: Cross flow fan (blower)
22: Indoor heat exchanger 23: Drain pan 30: Motor unit 31: Drive motor (motor)
32: Motor case 34: Shaft part 37: Tapered part 38: Notch 40: Motor receiving part 41: Vertical plate part (on the back panel) 42: Side panel (side plate)
43: Side plate part (of drain pan) 45: Reverse taper part 51: Protrusion 52: Hook (overlapping part)
53: Overlapping end (overlapping part)
54: Hook (overlapping part)
55: Overlapping end (overlapping part)

Claims (6)

With the housing
A blower extending in the left-right direction in the housing,
The motor that drives the blower and
A motor case that houses the motor and is detachably attached to the housing,
An air conditioner located between the blower and the motor case and provided with a motor receiving portion to which the motor case is attached.
The motor case forms a seal portion with the motor receiving portion.
The seal portion on the motor case side has a tapered shape that tapers toward the blower side.
The seal portion on the motor receiving portion side has a reverse taper shape corresponding to the taper shape.
Air conditioner. A side plate arranged adjacent to the left-right end of the blower,
Further provided with a drain pan located below the blower
The seal portion on the motor receiving portion side is
With the side plate
The air conditioner according to claim 1, which is composed of at least one of the housing and the drain pan. In the motor receiving part
With the side plate
At the boundary between the housing and at least one of the drain pans,
An overlapping portion formed by the side plate and the housing or the drain pan is provided.
The air conditioner according to claim 2. 2 or claim 2, wherein a protrusion is provided on either one of the seal portion on the motor case side and the seal portion on the side plate side, and the other is provided with a notch into which the protrusion fits. The air conditioner according to 3. The overlapping portion formed by the side plate and the drain pan has a length of a predetermined value or more from the sealing portion to the front.
The air conditioner according to claim 3. A protrusion is provided on either one of the seal portion on the motor case side and the seal portion on the side plate side, and the other is provided with a notch into which the protrusion fits.
The protrusion or the notch provided on the side plate is located in the vicinity of the overlapping portion.
The air conditioner according to claim 3.

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