Indoor unit for air-conditioning apparatus

Abstract

An indoor unit of an air-conditioning apparatus includes vanes, vane shafts and, which are disposed at the ends of the vanes, vane bearings and, which hold the vane shafts and, and motors, each of which is mounted on a corresponding one of the vane shafts and each of which causes a corresponding one of the vanes to rotate. Each of the vane shafts is provided with a rib, and each of the vane bearings, which hold the corresponding vane shafts, is provided with a hook portion. When one of the vane shafts moves by a reference movement amount in a direction toward the corresponding vane shaft, the corresponding rib and the corresponding hook portion engage with each other, so that movement of the vane shaft is restricted.

Description

TECHNICAL FIELD

The present invention relates to an indoor unit of an air-conditioning apparatus.

BACKGROUND ART

In the related art, there is a bathroom heater that includes an air outlet unit, which includes a frame member and a motor-accommodating box, the frame member including a bearing portion and having an air outlet formed therein, and the motor-accommodating box being connected to the frame member, a wind-direction-adjusting louver that includes pivot shafts on the left and right sides thereof and that is rotatably supported by the frame member, and a stepping motor for driving the louver that is accommodated in the motor-accommodating box (see, for example, Patent Literature 1). In the bathroom heater described in Patent Literature 1, pivot shafts of a wind-direction-adjusting louver are connected to a drive shaft of a stepping motor.

CITATION LIST

Patent Literature

[Patent Literature 1] Japanese Unexamined Patent Application Publication No. 2003-14286 (p. 3, FIG. 5)

SUMMARY OF INVENTION

Technical Problem

However, in the bathroom heater described in Patent Literature 1, there has been a problem in that in the case where one of the pivot shafts of the wind-direction-adjusting louver (a vane) that receives a rotational force from the stepping motor (a motor) breaks before the other one of the pivot shafts of the vane breaks, the other one of the pivot shafts of the vane cannot support the weight of the vane that acts in a direction in which the vane falls, and the vane falls into an indoor space.

The present invention has been made in the context of a problem such as that described above, and it is an object of the present invention to obtain an indoor unit of an air-conditioning apparatus capable of suppressing occurrence of falling of a vane without deteriorating operation efficiency.

Solution to Problem

An indoor unit of an air-conditioning apparatus according to the present invention includes a vane, vane shafts that are disposed at ends of the vane, vane bearings each of which holds a corresponding one of the vane shafts, and a motor that is attached to one of the vane shafts and that causes the vane to rotate. Another one of the vane shafts includes a vane shaft side engagement portion. The vane bearing that holds the other one of the vane shafts includes a vane bearing side engagement portion. When the other one of the vane shafts moves by a reference movement amount in a direction toward the one of the vane shafts, the vane shaft side engagement portion and the vane bearing side engagement portion engage with each other, and movement of the other one of the vane shafts is restricted.

Advantageous Effects of Invention

According to the present invention, when one of vane shafts moves by a reference movement amount in a direction toward the other one of the vane shafts, a vane shaft side engagement portion and a vane bearing side engagement portion engage with each other, and movement of the one of the vane shafts is restricted. Therefore, even if one of the vane shafts that receives a rotational force from a motor breaks due to, for example, crazing, occurrence of falling of the vane can be suppressed. In addition, since the vane shaft side engagement portion is included in one of the vane shafts, and the vane bearing side engagement portion is included in a vane bearing, a structure that suppresses occurrence of falling of the vane is formed of only components of the related art, and operation efficiency will not deteriorate.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a perspective view illustrating an installation state of an indoor unit 100 of an air-conditioning apparatus according to Embodiment.

FIG. 2 is a perspective view illustrating the indoor unit 100 for the air-conditioning apparatus according to Embodiment and illustrating a state where decorative-panel-corner-cover members 8A and 8B have been removed.

FIG. 3 is an enlarged view of an area in the vicinity of one of vanes 4 in a state where the decorative-panel-corner-cover members 8A and 8B of the indoor unit 100 for the air-conditioning apparatus according to Embodiment have been removed.

FIG. 4 is a perspective view illustrating an area in the vicinity of one of vane shafts 4a of the indoor unit 100 for the air-conditioning apparatus according to Embodiment.

FIG. 5 is a sectional view taken along line Y-Y of FIG. 4.

FIG. 6 is a perspective view illustrating an area in the vicinity of one of vane shafts 4b at the time of assembling the indoor unit 100 for the air-conditioning apparatus according to Embodiment.

FIG. 7 is a sectional view taken along line Z-Z of FIG. 6.

FIG. 8 is a sectional view illustrating an area in the vicinity of one of the vane shafts 4b at the time of product shipment of the indoor unit 100 for the air-conditioning apparatus according to Embodiment.

FIG. 9 is a sectional view illustrating an area in the vicinity of one of the vane shafts 4b of the indoor unit 100 for the air-conditioning apparatus according to Embodiment and illustrating a state where the vane 4 has fallen.

DESCRIPTION OF EMBODIMENT

A four-way cassette type indoor unit of an air-conditioning apparatus will be described below as an example of an air-conditioning apparatus according to Embodiment of the present invention. Note that the present invention is not limited to Embodiment, which will be described below. In addition, although in the following description, terms (e.g., “top”, “bottom”, and the like) that represent locations will be suitably used for ease of understanding, this is for the sake of explanation, and these terms do not limit the present invention.

FIG. 1 is a perspective view illustrating an installation state of an indoor unit 100 for the air-conditioning apparatus according to Embodiment. FIG. 2 is a perspective view illustrating the indoor unit 100 for the air-conditioning apparatus according to Embodiment and illustrating a state where decorative-panel-corner-cover members 8A and 8B have been removed.

As illustrated in FIG. 1, the indoor unit 100 for the air-conditioning apparatus includes a housing 2 in an indoor space 1. Four hanging bolts 7 are bolted to a ceiling 6. The housing 2 is mounted on the ceiling 6 by fastening hanging metal fittings 5 onto any points on the hanging bolts 7. The housing 2 is attached to the hanging bolts 7 at, for example, four points on an outline of the housing 2.

The housing 2 accommodates an indoor-air-sending device (not illustrated) and an indoor-unit-heat exchanger (not illustrated) that exchanges heat for indoor air. A suction grille 3a and air outlets 3b are formed on a bottom surface of the housing 2. The suction grille 3a is disposed at the center of the bottom surface of the housing 2. The air outlets 3b are formed around the suction grille 3a. Vanes 4 each of which has, for example, a flat plate-like shape are disposed in the air outlets 3b. The vanes 4 adjust the volume of air that flows from an area inside the indoor unit 100 toward an indoor space through the air outlets 3b and guide the direction of the air.

A decorative panel 3 is attached on the bottom surface of the housing 2. The decorative panel 3 includes the decorative-panel-corner-cover members 8A and 8B each of which is removable. In the state illustrated in FIG. 1, in the case where the decorative-panel-corner-cover members 8A and 8B are removed, various components are exposed as illustrated in FIG. 2. Details of the various components will be described later. Note that, a portion from which the decorative-panel-corner-cover member 8A has been removed is a portion that is surrounded by a dotted line frame A illustrated in FIG. 2. Similarly, a portion from which the decorative-panel-corner-cover member 8B has been removed is a portion that is surrounded by a dotted line frame B illustrated in FIG. 2.

FIG. 3 is an enlarged view of an area in the vicinity of one of the vanes 4 in a state where the decorative-panel-corner-cover members 8A and 8B of the indoor unit 100 for the air-conditioning apparatus according to Embodiment have been removed. Here, a portion that is surrounded by a dotted line frame A illustrated in FIG. 3 is obtained by enlarging the portion that is surrounded by the dotted line frame A illustrated in FIG. 2. Similarly, a portion that is surrounded by a dotted line frame B illustrated in FIG. 3 is obtained by enlarging the portion that is surrounded by the dotted line frame B illustrated in FIG. 2. As illustrated in FIG. 3, one of the vanes 4 includes a vane shaft 4a and a vane shaft 4b.

The vane shaft 4a is disposed at one end of the vane 4. A decorative-panel-corner portion 8a, a motor 9, a vane gear 10, and a vane bearing 11 are disposed in the vicinity of the vane shaft 4a. The decorative-panel-corner portion 8a, the motor 9, the vane gear 10, and the vane bearing 11 are members that are exposed by removing the decorative-panel-corner-cover member 8A. The decorative-panel-corner portion 8a is a wall surface a portion of which is an opening into which the vane bearing 11 is to be inserted. The vane bearing 11 is a member into which the vane shaft 4a is to be inserted.

The vane shaft 4b is disposed at the other end of the vane 4. A decorative-panel-corner portion 8b and a vane bearing 12 are disposed in the vicinity of the vane shaft 4b. The decorative-panel-corner portion 8b and the vane bearing 12 are members that are exposed by removing the decorative-panel-corner-cover member 8B. The decorative-panel-corner portion 8b is a wall surface a portion of which is an opening into which the vane bearing 12 is to be inserted. The vane bearing 12 is a member into which the vane shaft 4b is to be inserted.

FIG. 4 is a perspective view illustrating an area in the vicinity of one of the vane shafts 4a of the indoor unit 100 for the air-conditioning apparatus according to Embodiment. FIG. 5 is a sectional view taken along line Y-Y of FIG. 4.

As illustrated in FIG. 4, the motor 9 is a member that is used for causing the vane 4 to rotate. The rotational force of the motor 9 is to be transmitted to the vane shaft 4a. The vane 4 rotates about the vane shaft 4a with rotation of the motor 9. A motor-holding sheet metal 9a that holds the motor 9 is mounted on the motor 9.

As illustrated in FIG. 5, the vane gear 10 is a member that includes a convex vane gear shaft 10a and a recess 10b. The vane gear shaft 10a is a member that is to be inserted into a hole 9a1 that is formed in the motor-holding sheet metal 9a. The recess 10b is a portion into which an end portion of the vane shaft 4a is to be pressed and fitted. The vane bearing 11 includes a hook portion 11a and a flange 11b.

The hook portion 11a is a member that is used for causing the vane bearing 11 to be held by the decorative panel 3 and protrudes toward the side on which the decorative-panel-corner portion 8a is present. The flange 11b protrudes toward the side on which the vane gear 10 is present. A gap 13a is defined between the motor-holding sheet metal 9a and the vane gear 10. A gap 13b is defined between the vane gear 10 and the vane bearing 11.

A procedure of assembling members that are positioned at the side on which one of the vane shafts 4a of the indoor unit 100 for the air-conditioning apparatus is present will be described below.

First, the vane shaft 4a is inserted into the vane bearing 11, and an end portion of the vane shaft 4a is pressed and fitted into the recess 10b of the vane gear 10. Next, the vane gear shaft 10a is inserted into the hole 9a1. The position of the corresponding vane 4 after the assembling operation is set by inserting the vane shaft 4a into the recess 10b of the vane gear 10 so as to make contact with the bottom of the recess 10b as described above. An amount of movement of the vane 4 in an axial direction of the vane 4 after the assembling operation is determined in accordance with the gap 13a and the gap 13b.

FIG. 6 is a perspective view illustrating an area in the vicinity of one of the vane shafts 4b at the time of assembling the indoor unit 100 for the air-conditioning apparatus according to Embodiment. FIG. 7 is a sectional view taken along line Z-Z of FIG. 6. FIG. 8 is a sectional view illustrating an area in the vicinity of one of the vane shafts 4b at the time of product shipment of the indoor unit 100 for the air-conditioning apparatus according to Embodiment. FIG. 9 is a sectional view illustrating an area in the vicinity of one of the vane shafts 4b of the indoor unit 100 for the air-conditioning apparatus according to Embodiment and illustrating a state where the vane 4 has fallen.

As illustrated in FIG. 6, the vane shaft 4b includes a rib 4c that has, for example, a fan-like shape. At the time of the assembling operation, the rib 4c is arranged in such a manner as to, for example, protrude upward. The vane bearing 12 includes a hook portion 12a, a flange 12b, and a hook portion 12c. The hook portion 12a protrudes toward the side on which the decorative-panel-corner portion 8b is present. The flange 12b protrudes toward the side opposite to that on which the decorative-panel-corner portion 8b is present. The flange 12b is configured to be deflectable in a direction in which the weight of the flange 12b acts. Since the flange 12b is configured as described above, the vane bearing 12 can be easily removed from the decorative panel 3, and maintenance can be facilitated. The hook portion 12c is arranged in such a manner as to, for example, protrude upward.

As illustrated in FIG. 7, the vane shaft 4b is inserted into the vane bearing 12 in a state where, for example, the rib 4c protrudes upward. Thus, the rib 4c, which has a fan-like shape, can avoid the hook portion 12c, and the vane shaft 4b can be inserted without the rib 4c and the hook portion 12c contacting each other.

A procedure of assembling members that are positioned at the side on which one of the vane shafts 4b of the indoor unit 100 for the air-conditioning apparatus is present will be described below.

First, the vane shaft 4b is inserted into the vane bearing 12. Next, the vane bearing 12 is inserted into the decorative-panel-corner portion 8b. In this manner, the vane 4 is held by the decorative-panel-corner portion 8b. In other words, the vane 4 is held by the decorative panel 3. As a result of the hook portion 12a being hooked on the decorative-panel-corner portion 8b, the vane bearing 12 is held by the decorative panel 3. The vane shaft 4b is positioned as illustrated in FIG. 8 at the time of product shipment by being rotated 180 degrees.

As illustrated in FIG. 8, at the time of product shipment, an end of the rib 4c faces the direction in which the weight of the rib 4c acts, and the rib 4c and the hook portion 12c are disposed in such a manner as to be superposed with each other in the axial direction. In this case, the hook portion 12c is positioned further toward the side on which the vane shaft 4a is present than the rib 4c, and a gap 13c is defined between the rib 4c and the hook portion 12c.

The gap 13c is designed in such a manner as to be larger than the gap 13a. Thus, even if the vane 4 moves in such a manner that the gap 13a is eliminated in a normal operation, the gap 13c will not be eliminated, and the rib 4c and the hook portion 12c will not interfere with each other. Therefore, the slidability of the vane shaft 4b and the vane bearing 12 and the drive stability of the vane 4 will not be impaired.

Operation of the indoor unit 100 for the air-conditioning apparatus in the case where one of the vane shafts 4a breaks will be described below.

First, when the vane shaft 4a (FIG. 5) that receives the rotational force of the motor 9 breaks, the vane 4 moves in the left direction as viewed in FIG. 9 and has a tendency to fall into the indoor space 1 under its own weight. Then, in a state where the vane 4 has moved by a predetermined amount (a reference movement amount), the rib 4c and the hook portion 12c engage with each other, so that movement of the vane shaft 4a is restricted. As a result, falling of the vane 4 is controlled.

Note that increasing the size of the rib 4c, which has a fan-like shape, facilitates the engagement of the rib 4c and the hook portion 12c when the vane shaft 4a breaks during the period when the indoor unit 100 is operating. However, in the case where the size of the rib 4c, which has a fan-like shape, is excessively large, the rib 4c hinders insertion of the vane shaft 4b into the vane bearing 12. Therefore, it is desirable to design the rib 4c, which has a fan-like shape, in such a manner that the size of the rib 4c is not excessively large.

As described above, the indoor unit 100 for the air-conditioning apparatus according to Embodiment includes the vanes 4, the vane shafts 4a and 4b, which are disposed at the ends of the vanes 4, the vane bearings 11 and 12, which hold the vane shafts 4a and 4b, and the motors 9, each of which is mounted on the corresponding vane shaft 4a and each of which causes the corresponding vane 4 to rotate. Each of the vane shafts 4b is provided with the rib 4c, and each of the vane bearings 12, which hold the corresponding vane shafts 4b, is provided with the hook portion 12c. When one of the vane shafts 4b moves by a reference movement amount in a direction toward the corresponding vane shaft 4a, the corresponding rib 4c and the corresponding hook portion 12c engage with each other, so that movement of the vane shaft 4b is restricted.

Therefore, even if the vane shaft 4a, which receives the rotational force of the motor 9 breaks due to crazing or the like, occurrence of falling of the vane 4 can be suppressed. In addition, since the rib 4c is included in the vane shaft 4b, and the hook portion 12c is included in the vane bearing 12, a structure that suppresses the occurrence of falling of the vane 4 is formed of only components of the related art, and operation efficiency will not deteriorate. Therefore, the indoor unit 100 for the air-conditioning apparatus in which an assembly or removal operation can be easily performed can be obtained.

Note that each of the ribs 4c corresponds to a vane shaft side engagement portion of the present invention.

In addition, each of the hook portions 12c corresponds to a vane bearing side engagement portion of the present invention.

REFERENCE SIGNS LIST

1 indoor space 2 housing 3 decorative panel 3a suction grille 3b air outlet 4 vane 4a vane shaft 4b vane shaft 4c rib 5 hanging metal fitting 6 ceiling 7 hanging bolt 8A decorative-panel-corner-cover member 8B decorative-panel-corner-cover member 8a decorative-panel-corner portion 8b decorative-panel-corner portion 9 motor 9a motor-holding sheet metal 9a1 hole 10 vane gear 10a vane gear shaft 10b recess 11 vane bearing 11a hook portion 11b flange 12 vane bearing 12a hook portion 12b flange 12c hook portion 13a gap 13b gap 13c gap 100 indoor unit

Claims

1. An indoor unit for an air-conditioning apparatus comprising: a vane assembled within the air-conditioning apparatus;first and second vane shafts that are disposed at opposing ends of the vane, the second vane shaft including a vane shaft side engagement portion;a first vane bearing holding the first vane shaft;a motor attached to the first vane shaft and configured to rotate the vane; anda second vane bearing holding the second vane shaft and including a vane bearing side engagement portion,wherein the vane shaft side engagement portion and the vane bearing side engagement portion include a configuration that prevents the vane from being displaced from the air-conditioning apparatus, the configuration including the vane shaft side engagement portion being positioned at a gap of fixed distance from the vane bearing side engagement portion and being aligned to engage the vane bearing side engagement portion by movement of the second vane shaft in a direction toward the first vane shaft and in an amount equal to the gap of fixed distance.

2. The indoor unit for an air-conditioning apparatus of claim 1, wherein, in a state where the first vane shaft is held by the first vane bearing and the second vane shaft is held by the second vane bearing, the vane bearing side engagement portion is positioned further toward a side on which the first vane shaft is present than the vane shaft side engagement portion.

3. The indoor unit for an air-conditioning apparatus of claim 1, wherein the vane shaft side engagement portion is a rib that has a fan-like shape.

4. The indoor unit for an air-conditioning apparatus of claim 1, wherein, in a state where the second vane shaft is inserted into the second vane bearing, the vane shaft side engagement portion and the vane bearing side engagement portion are unconnected to each other.