CN107990525B

CN107990525B - Air conditioner indoor unit, control method thereof and air conditioning equipment

Info

Publication number: CN107990525B
Application number: CN201610957626.0A
Authority: CN
Inventors: 许黎明
Original assignee: Suzhou Samsung Electronics Co Ltd; Samsung Electronics Co Ltd
Current assignee: Suzhou Samsung Electronics Co Ltd; Samsung Electronics Co Ltd
Priority date: 2016-10-27
Filing date: 2016-10-27
Publication date: 2021-03-12
Anticipated expiration: 2036-10-27
Also published as: CN107990525A

Abstract

The invention discloses an air conditioner indoor unit, a control method thereof and air conditioning equipment. According to the air-conditioning indoor unit disclosed by the invention, the front panel of the shell is positioned at the first air outlet, and the front panel is provided with the non-wind-sensing air outlet structure, so that non-wind-sensing air outlet can be realized through the front panel, and the front panel of the shell is larger, so that the area of the non-wind-sensing air outlet can be increased particularly compared with the air outlet of the existing air-conditioning indoor unit, the non-wind-sensing air outlet quantity can be increased, and further the non-wind-sensing air outlet effect can be improved.

Description

Air conditioner indoor unit, control method thereof and air conditioning equipment

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner indoor unit, a control method of the air conditioner indoor unit and air conditioning equipment.

Background

The air conditioning equipment changes the indoor environment temperature by supplying air to the indoor, and when the air outlet of the air conditioner blows to the human body, the human body has strong wind sense. The human body suffers from wind feeling for a long time, discomfort is easy to occur, and especially for the old, pregnant women, children and the like, the human body is easy to get ill, the health of the human body is not facilitated, and the comfort is poor.

In order to reduce the influence of air-conditioning air outlet on human body and improve comfort, an air-conditioning indoor unit with no-wind-sensing air outlet function is developed. As shown in fig. 1, the face frame 11, the chassis and the water receiving component form an air duct, the front panel 12 is in front of the face frame 11, the fan 13 is located in the air duct, the wind-sensing-free air outlet plate 14 and the first air guiding plate 15 are both rotatably disposed at the air outlet, and the second air guiding plate 17 is rotatably disposed on the chassis 16. When no wind is sensed to output wind, the first air deflector 15 rotates and opens the air outlet, the no wind sensing air output plate 14 rotates to the air outlet, so that the wind is discharged after passing through the no wind sensing air output plate 14, and the second air deflector 17 rotates to a first preset position to guide the wind to the no wind sensing air output plate 14. When wind needs to be induced, the second air deflector 17 rotates to the second preset position, namely the second air deflector 17 rotates to the accommodating groove 18, the wind-induction-free air deflector 14 rotates to the third preset position, so that the wind-induction-free air deflector 14 is parallel to the wind-out direction, and the first air deflector 15 rotates to realize up-and-down wind induction.

Above-mentioned indoor set of air conditioner realizes no wind sense air-out function through no wind sense air-out board 14, because the air outlet is located the side below of the whole casing of indoor set of air conditioner for the air outlet is less, because no wind sense air-out board 14 establishes in this air outlet department again, leads to no wind sense air-out board 14 less, makes no wind sense air output less, and no wind sense air-out effect is relatively poor.

In addition, on the premise of having the non-wind-sensing air outlet function, the air-conditioning indoor unit can only realize up-and-down air guiding and cannot realize left-and-right guiding when wind senses wind, so that the air outlet direction when the wind senses wind is reduced, and the air outlet effect is poor.

In summary, how to achieve the non-wind-sensing air outlet to increase the non-wind-sensing air outlet amount and improve the non-wind-sensing air outlet effect is a problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide an air conditioner indoor unit which has a non-wind-sensing air outlet function and can realize non-wind-sensing air outlet so as to increase the non-wind-sensing air outlet quantity and improve the non-wind-sensing air outlet effect. The invention also provides an air conditioning device with the air conditioning indoor unit and a control method of the air conditioning indoor unit.

In order to achieve the above purpose, the invention provides the following technical scheme:

the utility model provides an air-conditioning indoor unit, includes the casing that has the wind channel, the wind channel has first air outlet, the front panel of casing is located first air outlet, just the front panel has no wind and feels the air-out structure.

Preferably, the air duct includes a first air duct section and a second air duct section, wherein the first air outlet is an air outlet of the first air duct section, and the second air duct section has a second air outlet;

the air-conditioning indoor unit further comprises: the air guide plate comprises an air guide plate, a first driving part for driving the air guide plate to rotate, a baffle plate and a second driving part for driving the baffle plate to rotate;

when the air deflector rotates to a first preset position, the second air outlet is closed by the air deflector; when the air deflector rotates to a second preset position, the second air outlet is opened by the air deflector;

when the baffle rotates to a third preset position, the first air duct section is separated from the second air duct section; when the baffle rotates to a fourth preset position, the first air duct section is communicated with the second air duct section.

Preferably, the air conditioning indoor unit further includes: and the swinging blade is positioned in the second air duct section and can guide air left and right, and the third driving component drives the swinging blade to guide air left and right.

Preferably, a water receiving part is fixed in the shell and provided with a water receiving groove for receiving condensed water;

the swinging blade, the air deflector and the baffle are all rotatably arranged on the water receiving part.

Preferably, the air deflector is a non-wind-sensing air deflector.

Preferably, the air conditioning indoor unit further includes:

the first auxiliary plate is fixed in the shell, when the baffle rotates to the third preset position, the baffle is abutted against the first auxiliary plate, and the second air duct section and the first air duct section are separated by the baffle and the first auxiliary plate;

and when the baffle plate rotates to the fourth preset position and the air guide plate rotates to the first preset position, the baffle plate is abutted against the second auxiliary plate, and the baffle plate and the second auxiliary plate shield the air guide plate.

Preferably, the air deflector is a hole plate, and the non-wind-sensing air outlet structure is a non-wind-sensing air outlet.

In the air-conditioning indoor unit provided by the invention, the front panel of the shell is positioned at the first air outlet, and the front panel is provided with the non-wind-sensing air outlet structure, so that non-wind-sensing air outlet can be realized through the front panel, and the area of the non-wind-sensing air outlet can be increased due to the larger front panel of the shell, particularly compared with the air outlet of the existing air-conditioning indoor unit, so that the non-wind-sensing air outlet quantity can be increased, and further the non-wind-sensing air outlet effect can be improved.

Based on the air-conditioning indoor unit, the invention also provides a control method of the air-conditioning indoor unit, and the control method of the air-conditioning indoor unit comprises the following steps:

when wind is needed to be induced, the first driving part is controlled to drive the air deflector to open the second air outlet, and the second driving part is controlled to drive the baffle to rotate so as to isolate the second air channel section from the first air channel section;

when strong wind-sensing-free wind outlet is needed, the first driving part is controlled to drive the air deflector to close the second air outlet, and the second driving part is controlled to drive the baffle to rotate so as to isolate the second air channel section from the first air channel section;

when the air needs to be discharged softly without wind sensation, the first driving part is controlled to drive the air deflector to close the second air outlet, and the second driving part is controlled to drive the baffle to rotate so as to communicate the second air channel section with the first air channel section.

Preferably, in the control method of an indoor unit of an air conditioner, the step of, when wind comes out, further includes: controlling the first driving component to drive the air deflector to guide air up and down;

and/or, the air conditioning indoor unit further comprises: the third driving component is used for driving the left air guide and the right air guide of the swinging blade and controlling the third driving component to drive the left air guide and the right air guide of the swinging blade.

Based on the air-conditioning indoor unit, the invention also provides air-conditioning equipment which comprises the air-conditioning indoor unit, wherein the air-conditioning indoor unit is any one of the air-conditioning indoor units.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an indoor unit of an air conditioner in the prior art;

fig. 2 is a schematic structural diagram of an air conditioner indoor unit in a wind sensing air outlet mode according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an air conditioner indoor unit in a soft and non-wind-sensing air outlet mode according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an air conditioning indoor unit in a powerful no-wind-sensation air outlet mode according to an embodiment of the present invention.

In FIGS. 1-4:

11 is a face frame, 12 is a front panel, 13 is a fan, 14 is a no-wind-sensing air outlet plate, 15 is a first air outlet plate, 16 is a chassis, 17 is a second air outlet plate, 18 is a holding tank, 21 is a front panel, 22 is a first air channel section, 23 is a middle frame, 24 is a water receiving part, 25 is a baffle plate, 26 is an air outlet plate, 27 is a second auxiliary plate, 28 is a swing blade, 29 is a base, 210 is a second air channel section, 211 is a fan, 212 is a heat exchanger, and 213 is a first auxiliary plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 2 to 4, an indoor unit of an air conditioner provided in an embodiment of the present invention includes a casing, the casing has an air duct, the air duct has a first air outlet, a front panel 21 of the casing is located at the first air outlet, and the front panel 21 has an air outlet structure without wind sensation.

In the air-conditioning indoor unit provided by the embodiment of the invention, the front panel 21 of the shell is positioned at the first air outlet, and the front panel 21 has the non-wind-sensing air outlet structure, so that non-wind-sensing air outlet can be realized through the front panel 21, and the front panel 21 of the shell is larger, so that the area of the non-wind-sensing air outlet can be increased, the non-wind-sensing air outlet quantity can be increased, and the non-wind-sensing air outlet effect can be further improved compared with the air outlet of the existing air-conditioning indoor unit.

Meanwhile, in the indoor unit of an air conditioner provided by the embodiment of the invention, the front panel 21 has the non-wind-sensing air outlet structure, and the area of the non-wind-sensing air outlet can be increased, so that the non-wind-sensing air outlet quantity can be increased, the wind-sensing air outlet quantity in the prior art can be achieved, and the use requirements of users can be met.

In order to increase the non-wind-sensing air output to the maximum, the non-wind-sensing air output structure is preferably selected to be fully distributed on the front panel 21, so that the non-wind-sensing air output area is increased to the maximum, and the non-wind-sensing air output is increased.

Preferably, in the indoor unit of an air conditioner, the air duct includes a first air duct section 22 and a second air duct section 210, where the first air outlet is an air outlet of the first air duct section 22, and the second air duct section 210 has a second air outlet; the air-conditioning indoor unit further comprises: a wind deflector 26, a first drive member, a baffle 25 and a second drive member; the first driving member drives the air deflector 26 to rotate, and the second driving member drives the baffle 25 to rotate.

Specifically, when the air deflector 26 rotates to the first preset position, the air deflector 26 closes the second air outlet; when the air deflector 26 rotates to the second preset position, the air deflector 26 opens the second air outlet;

when the baffle 25 rotates to the third preset position, the first air duct section 22 is isolated from the second air duct section 210; when the shutter 25 is rotated to the fourth preset position, the first air channel section 22 and the second air channel section 210 are communicated.

It is understood that the second air duct section 210 is isolated from the first air duct section 22, which means that the second air duct section 210 is not communicated with the first air duct section 22, i.e. the air flowing through the second air duct section 210 does not enter the first air duct section 22. From the first preset position and the second preset position, the air deflector 26 can realize up-and-down air deflection in the rotating process. The up-down refers to the up-down in the vertical direction. When the air deflector 26 rotates to the second preset position, wind induction air supply can be performed, and the air deflector 26 is parallel to the air outlet direction.

The working principle of the air conditioner indoor unit provided by the embodiment of the invention is as follows:

when strong wind-sensing-free air supply is needed, the first driving part drives the air deflector 26 to rotate to a first preset position, the air deflector 26 closes the second air outlet, the second driving part drives the baffle 25 to rotate to a fourth preset position, the first air duct section 22 is communicated with the second air duct section 210, at the moment, wind reaches the first air outlet through the second air duct section 210 and the first air duct section 22, and strong wind-sensing-free air supply is carried out through the wind-sensing-free air outlet structure of the front panel 21;

when wind is needed to be induced, the first driving part drives the air deflector 26 to rotate to the second preset position, and the second air outlet is opened by the air deflector 26 to supply wind in a wind sense manner.

The air conditioner indoor unit can realize non-wind-sense air supply and wind-sense air supply, namely has the non-wind-sense air supply function and the wind-sense air supply function, and improves the service performance.

Further, the air-conditioning indoor unit further includes: a swinging blade 28 which is positioned in the second air duct section 210 and can guide air left and right, and a third driving component which drives the swinging blade 28 to guide air left and right.

In the air conditioner indoor unit, when wind is induced, left and right air guiding can be realized through the swing blades 28, and up and down air guiding can also be realized through the air guide plates 26, so that the wind outlet direction when wind is induced to supply wind is increased, and the wind outlet effect is improved.

In order to facilitate installation, in the air conditioning indoor unit, the casing is internally fixed with a water receiving part 24, and the water receiving part 24 is provided with a water receiving groove for receiving condensed water; the swing blade 28, the air deflector 26 and the baffle 25 are all rotatably arranged on the water receiving part 24.

It will be appreciated that the water receiving trough is adapted to receive condensate water from the heat exchanger 212. Of course, the swinging vane 28, the air deflector 26 and the baffle 25 may be disposed on other components, but are not limited thereto.

The shape and size of the water receiving part are designed according to actual needs, and the embodiment of the invention does not limit the shape and size.

Preferably, the first air duct section 22 is formed by the water receiving part 24 and the middle frame 23 in the casing, the baffle 25 and the front panel 21. Specifically, the middle frame 23 is located between the heat exchanger 212 and the front panel 21, the heat exchanger 212 and the fan 211 are both located on one side of the middle frame 23 away from the front panel 21, and the middle frame 23 is fixedly connected with the front panel 21; the water receiving part 24 is fixedly connected with the middle frame 23. In this way, the formation of the first air duct section 22 is facilitated.

Of course, the first air duct section 22 may alternatively be formed of other configurations and is not limited to the above-described embodiment.

In order to further optimize the above technical solution, in the above air-conditioning indoor unit, the air deflector 26 is a non-wind-sensing air deflector.

It can be understood that since the air deflector 26 is small relative to the front panel 21, the air volume is small when no wind is induced by the air deflector 26.

In the air-conditioning indoor unit, the first driving part drives the air deflector 26 to rotate to the first preset position, and the air deflector 26 closes the second air outlet, so that air reaching the second air outlet passes through the air deflector 26, and accordingly, no-wind-sense air supply is achieved. Because the air deflector 26 and the front panel 21 can supply air without wind sense, the selection of users is increased, the selectivity is improved, and the service performance is correspondingly improved.

In order to facilitate the isolation of the first air duct section 22 from the second air duct section 210, the indoor unit of the air conditioner further includes a first auxiliary plate 213 and a second auxiliary plate 27; the first auxiliary plate 213 is fixed in the housing, when the baffle 25 rotates to a third preset position, the baffle 25 abuts against the first auxiliary plate 213, and the baffle 25 and the first auxiliary plate 213 separate the second air duct section 210 and the first air duct section 22; the second auxiliary plate 27 is fixedly connected to the air guiding plate 26, when the baffle 25 rotates to the fourth predetermined position and the air guiding plate 26 rotates to the first predetermined position, the baffle 25 abuts against the second auxiliary plate 27, and the baffle 25 and the second auxiliary plate 27 shield the air guiding plate 26.

It will be appreciated that the baffle 25 abuts the first auxiliary plate 213, either by overlapping or abutting. The baffle 25 and the first auxiliary plate 213 separate the second air duct section 210 and the first air duct section 22, which means that the baffle 25 and the first auxiliary plate 213 work together to separate the second air duct section 210 and the first air duct section 22. The baffle plate 25 abuts against the second auxiliary plate 27, and the two plates may abut against each other by overlapping or abutting against each other. The baffle 25 and the second auxiliary plate 27 block the air guiding plate 26, which means that the baffle 25 and the second auxiliary plate 27 cooperate to block the air guiding plate 26.

In the above-mentioned indoor unit of an air conditioner, the first auxiliary plate 213 may be fixed on the water receiving component 24 in the casing or on the base of the casing, or may be fixedly connected or rotatably connected with the swing blade 28 in the casing 24, or may be fixed at another position by selecting the first auxiliary plate 213, which is not limited to the above-mentioned embodiments; accordingly, the second auxiliary plate 27 may be fixed to other positions, such as the base, the water receiving member 24, and the like, and is not limited to the above embodiments. The first air duct section 22 and the second air duct section 210 may be isolated by other components, and are not limited to the above embodiments.

Preferably, the air deflector 26 is a perforated plate, and the non-wind-sensing air outlet structure is a non-wind-sensing air outlet. The aperture of the air deflector 26 and the aperture of the non-wind-sensing air outlet are selected according to actual needs, so long as the non-wind-sensing air outlet is ensured. Furthermore, the aperture of the air deflector 26 is 2-4mm, and the aperture of the non-wind-sensing air outlet structure of the front panel 21 is 2-4 mm.

Of course, the air guiding plate 26 may be other types of non-wind-sensing air guiding plates, such as a grid plate. The non-wind-sensing air outlet structure is also of other structures, for example, at least two layers of grids, and the grid holes of two adjacent layers of grids are distributed in a staggered manner.

The indoor unit of the air conditioner can be a wall-mounted indoor unit of the air conditioner and can also be a vertical cabinet type air conditioner. For convenience, the air-conditioning indoor unit is a wall-mounted air-conditioning indoor unit.

Based on the air-conditioning indoor unit provided by the embodiment, the embodiment of the invention also provides a control method of the air-conditioning indoor unit, and the control method of the air-conditioning indoor unit comprises the following steps:

when wind is needed to be induced, the first driving part is controlled to drive the air deflector 26 to open the second air outlet, and the second driving part is controlled to drive the baffle 25 to rotate so as to isolate the second air channel section 210 from the first air channel section 22;

when strong wind-sensing-free wind outlet is needed, the first driving part is controlled to drive the air deflector 26 to close the second air outlet, and the second driving part is controlled to drive the baffle 25 to rotate so as to isolate the second air channel section 210 from the first air channel section 22;

when the air needs to be discharged softly and without wind sensation, the first driving part is controlled to drive the air deflector 26 to close the second air outlet, and the second driving part is controlled to drive the baffle 25 to rotate so as to communicate the second air channel section 210 with the first air channel section 22.

It should be noted that the powerful wind-sense-free wind outlet means wind outlet from the second wind outlet; soft and no wind sense air outlet means air outlet from the first air outlet; the strong no-wind-sense air outlet is stronger than the soft no-wind-sense air outlet, and the soft no-wind-sense air outlet is softer than the strong no-wind-sense air outlet.

The control method of the air conditioner indoor unit realizes control of air outlet of the air conditioner indoor unit, is convenient for users to use, and users can select the air outlet mode of the air conditioner indoor unit according to actual needs, such as a wind-sensing air outlet mode, a strong wind-sensing-free air outlet mode or a soft wind-sensing-free air outlet mode, so that the use performance is improved.

Further, in the control method of the indoor unit of an air conditioner, when wind comes out, the method further includes the steps of: the first driving component is controlled to drive the air deflector 26 to guide air up and down;

and/or, the air conditioning indoor unit further comprises: the air guide device comprises a swinging blade 28 which is positioned in the second air duct section 210 and can guide air left and right, a third driving component which drives the swinging blade 28 to guide air left and right, and a control third driving component which drives the swinging blade 28 to guide air left and right.

It can be understood that the above-mentioned up-and-down wind guide in this document refers to the up-and-down wind guide along the vertical direction after the indoor unit is installed; the left and right air guide means left and right air guide along the longitudinal direction of the air conditioning indoor unit. The length direction of the indoor unit of the air conditioner is perpendicular to the vertical direction.

According to the control method of the air conditioner indoor unit, the air outlet direction when wind senses the air is increased, and the air outlet effect is improved.

Based on the air-conditioning indoor unit provided by the embodiment, the embodiment of the invention also provides air-conditioning equipment, which comprises the air-conditioning indoor unit.

Since the air-conditioning indoor unit provided by the embodiment has the technical effects, and the air-conditioning equipment has the air-conditioning indoor unit, the air-conditioning equipment also has corresponding technical effects, and the description is omitted here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An air-conditioning indoor unit is characterized by comprising a shell with an air duct, wherein the air duct is provided with a first air outlet, a front panel (21) of the shell is positioned at the first air outlet, the front panel (21) is provided with a wind-sensation-free air outlet structure, and the air duct comprises a first air duct section (22) and a second air duct section (210), wherein the first air outlet is an air outlet of the first air duct section (22), and the second air duct section (210) is provided with a second air outlet;

the air-conditioning indoor unit further comprises: the air guide plate comprises an air guide plate (26), a first driving component for driving the air guide plate (26) to rotate, a baffle plate (25) and a second driving component for driving the baffle plate (25) to rotate;

when the air deflector (26) rotates to a first preset position, the second air outlet is closed by the air deflector (26); when the air deflector (26) rotates to a second preset position, the second air outlet is opened by the air deflector (26);

when the baffle (25) rotates to a third preset position, the first air channel section (22) is isolated from the second air channel section (210); when the baffle (25) rotates to a fourth preset position, the first air channel section (22) is communicated with the second air channel section (210).

2. An indoor unit of an air conditioner according to claim 1, further comprising: the air guide device comprises a swinging blade (28) which is positioned in the second air duct section (210) and can guide air left and right, and a third driving component which drives the swinging blade (28) to guide air left and right.

3. The indoor unit of claim 2, wherein a water receiving part (24) is fixed in the casing, and the water receiving part (24) has a water receiving groove for receiving condensed water;

the swinging blade (28), the air deflector (26) and the baffle (25) are all rotatably arranged on the water receiving part (24).

4. The indoor unit of air conditioner according to any one of claims 2 to 3, wherein the air guide plate (26) is a non-wind-sensing air guide plate.

5. An indoor unit of an air conditioner according to claim 4, further comprising:

a first auxiliary plate (213) fixed in the housing, wherein when the baffle (25) rotates to the third preset position, the baffle (25) abuts against the first auxiliary plate (213), and the baffle (25) and the first auxiliary plate (213) separate the second air duct section (210) and the first air duct section (22);

and the second auxiliary plate (27) is fixedly connected with the air guide plate (26), when the baffle plate (25) rotates to the fourth preset position and the air guide plate (26) rotates to the first preset position, the baffle plate (25) is abutted to the second auxiliary plate (27), and the baffle plate (25) and the second auxiliary plate (27) shield the air guide plate (26).

6. The indoor unit of claim 4, wherein the air deflector (26) is a perforated plate, and the non-wind-sensing outlet structure is a non-wind-sensing outlet.

7. A control method of an indoor unit of an air conditioner according to any one of claims 4 to 6, comprising the steps of:

when wind is needed to be induced, the first driving part is controlled to drive the air deflector (26) to open the second air outlet, and the second driving part is controlled to drive the baffle (25) to rotate so as to isolate the second air channel section (210) from the first air channel section (22);

when strong wind-sensing-free wind outlet is needed, the first driving part is controlled to drive the air deflector (26) to close the second air outlet, and the second driving part is controlled to drive the baffle (25) to rotate so as to isolate the second air channel section (210) from the first air channel section (22);

when the air needs to be discharged softly and without wind sensation, the first driving part is controlled to drive the air deflector (26) to close the second air outlet, and the second driving part is controlled to drive the baffle (25) to rotate so as to communicate the second air channel section (210) with the first air channel section (22).

8. The control method according to claim 7, wherein the wind-induced wind further comprises the steps of: the first driving component is controlled to drive the air deflector (26) to guide air up and down;

and/or, the air conditioning indoor unit further comprises: the air guide device comprises a swinging blade (28) which is positioned in the second air duct section (210) and can guide air left and right, a third driving component which drives the swinging blade (28) to guide air left and right, and the third driving component is controlled to drive the swinging blade (28) to guide air left and right.

9. An air conditioning apparatus comprising an indoor air conditioning unit, characterized in that the indoor air conditioning unit is an indoor air conditioning unit according to any one of claims 1 to 6.