CN216481272U - Machine and air conditioner in air conditioning - Google Patents

Abstract

The utility model provides a machine and air conditioner in air conditioning, machine includes in the air conditioning: the air duct is positioned on the inner side of the second panel; the inner wall of the second panel forms a partial structure of the air duct, and air flow can be blown out sequentially through the air duct and the second air outlet; along the flowing direction of the air current, the flow area of the air duct is gradually reduced. According to the wall-mounted air conditioner, the air duct area is effectively reduced, the air speed can be increased, the air speed reaching the second air outlet reaches the maximum (the speed can be effectively increased), cold air can be blown farther, the purpose of rapidly cooling the indoor space is achieved, and the problems that the air supply distance is short, the air speed is low and the cooling speed in the room is low in a household wall-mounted air conditioner are effectively solved.

Description

Air conditioner indoor unit and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an air conditioner indoor unit and an air conditioner.

Background

The existing air conditioner usually adopts a single-layer panel structure, when the panel is opened, an air duct inside is easily exposed outside, air leakage is generated, the performance of the air conditioner is influenced, the appearance is not attractive, and the sealing performance is poor; and cold air is blown directly to people, so that the comfort of users is poor, the air supply distance is short, the air speed is low, and the cooling speed in a room is low.

Because the household wall-mounted air conditioner in the prior art has the technical problems of short air supply distance, low air speed, low cooling speed in a room and the like, the utility model researches and designs an indoor unit of the air conditioner and the air conditioner.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problem of overcoming the defects of short air supply distance, low air speed and low cooling speed in a room of a household wall-mounted air conditioner in the prior art, and provides an air conditioner indoor unit and an air conditioner.

In order to solve the above problems, the present invention provides an indoor unit of an air conditioner, including:

the air duct is positioned on the inner side of the second panel; the inner wall of the second panel forms a partial structure of the air duct, and air flow can be blown out sequentially through the air duct and the second air outlet; along the flowing direction of the air current, the flow area of the air duct is gradually reduced.

In some embodiments, the panel body further comprises a second air duct wall, the second air duct wall is disposed on the panel body, and the second air duct wall is opposite to the second panel, the second air duct wall forms a partial structure of the air duct, and the air duct is formed by the second panel and the second air duct wall.

In some embodiments, in a cross section of the air conditioning indoor unit, at least part of the inner wall of the second panel is of an arc-shaped structure; at least part of the second air duct wall is also of an arc-shaped structure.

In some embodiments, in a cross section of the indoor unit of an air conditioner, the second duct wall includes an upstream end, a downstream end and a middle end, the upstream end is located at an upstream end of the second duct wall in an airflow flowing direction, the downstream end is located at a downstream end of the second duct wall in the airflow flowing direction, the middle end is located between the upstream end and the downstream end, an arc section between the middle end and the upstream end is a first arc section, an arc section between the middle end and the downstream end is a second arc section, and the first arc section length is equal to the second arc section length;

the minimum distance between any position on the first arc section and the second panel is larger than the minimum distance between any position on the second arc section and the second panel.

In some embodiments, the first arc segment is a convex arc segment toward the second panel, and the second arc segment is a convex arc segment away from the second panel; and/or the presence of a gas in the gas,

the arc radius of the first arc section is larger than that of the second panel.

In some embodiments, the second panel is connected and assembled to the panel body, and an assembly surface of the second panel opposite to the panel body is provided with a first positioning structure, a second positioning structure and a third positioning structure, the first positioning structure can limit the front and back direction of the second panel, the second positioning structure can limit the left and right direction of the second panel, the third positioning structure can limit the up and down direction of the second panel, and the assembly surface is opposite to the second air duct wall.

In some embodiments, the first locating feature comprises a latch feature, the second locating feature comprises a rib and a catch, and the third locating feature comprises a catch.

In some embodiments, further comprising a first panel and a first vent, the second panel being stationary, the first panel being located outside of the second panel, and the first panel being movable to open the first vent, the first panel also being movable to close the first vent;

when the first panel moves to close the first air outlet, the first panel wraps the second panel inside the first panel; when the first panel moves to open the first air outlet, the second panel can shield and seal the air duct.

In some embodiments, the panel further comprises a fan, and when the first panel moves to the position for opening the first air outlet, the air flow can be blown out through the first air outlet after passing through the fan;

when the first panel moves to a position for closing the first air outlet, airflow can be blown out from the air duct and the second air outlet in sequence after passing through the fan.

In some embodiments, further comprising a bottom housing, the first air outlet being located between the bottom housing and the second panel; and/or the second air outlet is positioned above the first air outlet.

In some embodiments, the air conditioning indoor unit further includes a third panel located above the first panel; and/or the presence of a gas in the gas,

the first air outlet is also provided with an air deflector, the air deflector can move to open the first air outlet, and the air deflector can also move to close the first air outlet; when the first panel moves to close the first air outlet, the first panel wraps the air deflector inside the first panel.

The utility model also provides an air conditioner which comprises the air conditioner indoor unit.

The utility model provides an air conditioner indoor unit and an air conditioner, which have the following beneficial effects:

1. the air duct is of a structure that the flow area is gradually reduced along the airflow flowing direction, so that the airflow speed can be effectively increased, and under the condition that the rotating speed of the fan is unchanged, the air volume is unchanged, the air duct area is effectively reduced in the airflow flowing direction, the air speed can be increased, so that the air speed reaching the second air outlet reaches the maximum (the speed can be effectively increased), cold air can be blown farther, the purpose of quickly cooling the indoor space is achieved, and the problems that the air supply distance is short, the air speed is small and the cooling speed in the room is low in a household wall-mounted air conditioner are effectively solved;

2. the air conditioner also has the advantages that the double-layer panel structure of the first panel and the second panel is arranged, so that the first air outlet can be effectively opened through the movement of the first panel, the first air outlet is closed through the movement of the first panel, meanwhile, the second panel is fixed, the second panel can effectively shield and seal the air channel on the inner side when the first panel moves to open the first air outlet, the condition that the air channel inside is exposed outside when the panel is opened can be effectively avoided, the effective sealing performance of the air channel inside is ensured, air leakage is prevented, and the running reliability of the air conditioner is improved; and can make the wind channel can not expose through inboard fixed second panel, and the interior panel can regard as secondary outward appearance face when the panel is opened outside, effectively improves the aesthetic property of air conditioner, improves the comfort level in the user's use.

Drawings

Fig. 1 is an outer side structure view of a first panel (outer panel) of an indoor unit of an air conditioner according to the present invention;

fig. 2 is an outer side structure view of a second panel (inner panel) of the indoor unit of an air conditioner according to the present invention;

fig. 3 is an inner side structure view of a second panel (inner panel) of the indoor unit of an air conditioner according to the present invention;

fig. 4 is a cross-sectional view of the air conditioning indoor unit according to the present invention when the first panel (outer panel) is closed.

The reference numerals are represented as:

11. a first air outlet; 12. a second air outlet; 21. a first panel; 22. a second panel; 221. a plug pin structure; 222. ribs; 223. a hook; 224. buckling; 23. a third panel; 3. a bottom case; 4. a fan; 5. an air duct; 6. a panel body; 7. a second duct wall; 71. an upstream end; 72. a downstream end; 73. a middle end; 74. a first arc segment; 75. a second arc segment; 10. an air deflector.

Detailed Description

As shown in fig. 1 to 4, the present invention provides an indoor unit of an air conditioner, including:

the second air outlet 12, the second panel 22 and the air duct 5, wherein the air duct 5 is located on the inner side of the second panel 22; the inner wall of the second panel 22 forms part of the structure of the air duct 5, and the air flow can be blown out through the air duct 5 and the second air outlet 12 in sequence; along the flow direction of the air flow, the flow area of the air duct 5 gradually decreases.

The air duct is of a structure that the flow area is gradually reduced along the airflow flowing direction, so that the airflow speed can be effectively increased, under the condition that the rotating speed of the fan is unchanged, the air volume is unchanged, the air duct area is effectively reduced in the airflow flowing direction, the air speed can be increased, the air speed reaching the second air outlet reaches the maximum (can be effectively increased), cold air can be blown farther, the purpose of quickly cooling the indoor space is achieved, and the problems that the air supply distance of a household wall-mounted air conditioner is short, the air speed is low, and the cooling speed in the room is low are effectively solved.

The utility model provides a double-layer lower panel structure, wherein an outer layer panel is used as an appearance surface, and an inner layer panel is used as an air duct, so that the double-layer lower panel structure has a flow guiding function. The structure plays a role in beautifying the appearance and can guide the flow of the air outlet.

1. Double-layer panel forms air duct structure with good sealing performance

2. The outer layer of the panel is used as an appearance surface, and the inner layer is used as an air duct with the function of flow guiding

3. The inner panel is used as an air duct molded line, the air duct gradually narrows along the air outlet direction, the air speed is increased, the air is blown far, and the temperature is rapidly reduced

4. The air outlet is raised, the direct blowing is avoided, and the comfort is improved

In some embodiments, the air duct further comprises a panel body 6 and a second air duct wall 7, the second air duct wall 7 is disposed on the panel body 6, the second air duct wall 7 is opposite to the second panel 22, the second air duct wall 7 is formed as a partial structure of the air duct 5, and the air duct 5 is formed by the second panel 22 and the second air duct wall 7. This is a further preferred form of construction of the utility model, and the arrangement of the second air duct wall is such that it is capable of forming together with the second panel a structure of the air duct, the second air duct wall being located on the panel body or belonging to a part of the structure of the panel body.

In some embodiments, at least part of the inner wall of the second panel 22 in the cross section of the air conditioning indoor unit has an arc-shaped structure; at least part of the inner wall of the first panel 21 is of an arc structure; at least part of the second air duct wall 7 is also of an arcuate configuration. This is the preferred structure form of the second panel of the present invention, and the arc structure of the inner wall can make the air flow form smooth flow through the arc inner wall when passing through the air duct, and reduce the resistance.

Preferably, the first panel 21 has a certain radian around and the whole structure is high in the middle and low around; the upper and lower edges of the second panel 22 are arc-shaped structures, and the left and right edges have no radian.

In some embodiments, in a cross section of the air conditioning indoor unit, the second duct wall 7 includes an upstream end 71, a downstream end 72, and a middle end 73, the upstream end 71 is located at an upstream end of the second duct wall 7 in the airflow flowing direction, the downstream end 72 is located at a downstream end of the second duct wall 7 in the airflow flowing direction, the middle end 73 is located between the upstream end 71 and the downstream end 72, an arc section between the middle end 73 and the upstream end 71 is a first arc section 74, an arc section between the middle end 73 and the downstream end 72 is a second arc section 75, and the first arc section has a first arc section length and a second arc section length;

the minimum distance between any position on the first arc and the second panel 22 > the minimum distance between any position on the second arc and the second panel 22.

According to the utility model, the minimum distance between any position on the first arc section and the second panel 22 is larger than the minimum distance between any position on the second arc section and the second panel 22, so that the circulation area of air in the flowing direction can be reduced, the flow velocity of air flow can be effectively improved, the blowing distance is increased, the indoor refrigerating and heating speed is increased, and the purpose of quickly cooling or heating is achieved.

In some embodiments, the first arc 74 is a convex arc toward the second panel 22, and the second arc 75 is a convex arc away from the second panel 22; and/or the presence of a gas in the gas,

the arc radius of the first arc section is larger than that of the second panel.

The first arc section and the second arc section are the preferable structural forms of the utility model, the distance between the arc section protruding towards the second panel 22 and the second panel can be effectively larger than the distance between the arc section protruding away from the second panel 22 and the second panel, and the effects of reducing the flow and improving the wind speed are achieved; the arc radius of the first arc section is larger than the arc radius of the second panel, so that the distance between the first arc section and the second panel can be further increased, and a condition is provided for reducing the flow area.

The second outlet 12 discharges air upwards, and the second panel 22 serves as the lower end portion of the air duct and the upper end of the air duct to guide the air. When the air conditioner is started, the fan 4 rotates in a clockwise direction, and the generated wind blows towards the air duct. The second panel 22 is a section of concave arc, and cooperates with the upper end of the air duct to change the direction of the air into upward air, so that the condition that the air is directly blown to the user and the user is uncomfortable can be avoided.

The air duct is arranged from the right end of the inner panel to the middle part of the inner panel, and the radius of the first arc section 74 is slightly larger than that of the second panel 22; from the middle of the second panel 22 to the second air outlet 12, the arc direction of the second air duct wall 7 changes from concave to convex; by adopting the structure, the area of the air channel can be gradually reduced from the right end position of the second panel 22 to the air outlet. Under the condition that the rotating speed of the fan is not changed, the air quantity is not changed, the air duct area is reduced, and the air speed can be increased. Therefore, the wind speed reaching the air outlet reaches the maximum, cold air can be blown farther, and the aim of quickly cooling the indoor space is fulfilled.

And when the wind power is too big, easily cause local atress too big or the problem of leaking out. The double-layer panel has good sealing performance and can effectively solve the problems.

In some embodiments, the second panel 22 is connected and assembled on the panel body 6, and an assembling surface of the second panel 22, which is opposite to the panel body 6, is provided with a first positioning structure, a second positioning structure, and a third positioning structure, the first positioning structure can limit the front-back direction of the second panel 22, the second positioning structure can limit the left-right direction of the second panel 22, the third positioning structure can limit the up-down direction of the second panel 22, and the assembling surface is opposite to the second air duct wall 7.

The second panel is preferably in a hollow structure, so that the assembly surface of the second panel can be opposite to the second air duct wall, and air flow can flow through the assembly surface of the second panel.

In some embodiments, the first positioning structure comprises a latch structure 221, the second positioning structure comprises a rib 222 and a catch 223, and the third positioning structure comprises a catch 224. This is a preferred form of construction for the first, second and third locating structures, respectively, of the present invention.

The edge part around the inner panel arranges 12 bolt structures 221, fixes a position around the inner panel (if observe in fig. 4 for restricting the inner panel from moving in the left-right direction), and sets five ribs 222 and hooks 223 on the inner panel to fix a position around (observe in fig. 4 for moving along the view direction), the buckle 224 and hooks 223 restrict the up-and-down movement of the inner panel (the second panel 22), and the inner panel completes the positioning.

In some embodiments, the air conditioner further comprises a first air outlet 11, a first panel 21 and an air duct 5, wherein the second panel 22 is fixed, the first panel 21 is located on the outer side of the second panel 22, and the air duct 5 is located on the inner side of the second panel 22; the first panel 21 is located outside the first air outlet 11, the first panel 21 can move to open the first air outlet 11, and the first panel 21 can also move to close the first air outlet 11;

when the first panel 21 moves to close the first outlet 11, the first panel 21 wraps the second panel 22 inside the first panel 21; when the first panel 21 moves to open the first air outlet 11, the second panel 22 can shield and close the air duct 5.

According to the air conditioner, the first air outlet can be effectively opened through the movement of the first panel and closed through the movement of the first panel by the double-layer panel structure of the first panel and the second panel, and meanwhile, the second panel is fixed, so that the second panel can effectively shield and seal the air channel on the inner side when the first panel moves to open the first air outlet, the condition that the air channel inside is exposed outside when the panel is opened can be effectively avoided, the effective sealing performance of the air channel inside is ensured, air leakage is prevented, and the running reliability of the air conditioner is improved; and can make the wind channel can not expose through inboard fixed second panel, and the interior panel can regard as secondary outward appearance face when the panel is opened outside, effectively improves the aesthetic property of air conditioner, improves the comfort level in the user's use.

The utility model provides a double-layer lower panel structure, wherein an outer panel is used as an appearance surface, an inner panel is used as an air duct, and the inner panel can be used as a secondary appearance surface when the outer panel is opened, so that the air duct is prevented from being directly exposed. The structure not only plays a role in beautifying the appearance, but also can be matched with an air outlet mode of an air conditioner.

1. The outer panel (i.e., the first panel 21) is closed

Comprises a second air outlet 12, an inner panel (namely a second panel 22), an outer panel (a first panel 21) and a fan 4.

The air outlet of the outer panel in the closed state is a second air outlet 12 which upwards exhausts air, and when the air conditioner is started, the fan 4 rotates. The air quantity generated in the air conditioner is guided by the inner panel as an air duct. The inner panel is arc-shaped as an air duct, and the air conditioning air is blown to the inner panel by the fan and is guided to the second air outlet 12 by the arc profile of the inner panel. When the wind power is too large, the problem of local overlarge stress or wind leakage is easily caused. The double-layer panel has good sealing performance and can effectively solve the problems.

2. Outer panel opening

Comprises a rotating shaft, an outer layer panel (a first panel 21), a first air outlet 11, an inner layer panel (a second panel 22) and an olecranon structure.

The air outlet of the outer panel in the open state is a first air outlet 11 which blows air downwards. When the air conditioner starts, the olecranon structure of the outer panel is opened clockwise around the rotating shaft to give way for the lower air outlet. At the moment, the inner layer panel is used as a secondary appearance surface, so that the air conditioner air duct is prevented from being directly exposed to the outside to influence the appearance.

In some embodiments, the air conditioner further comprises a fan 4, and when the first panel 21 moves to a position for opening the first air outlet 11, an air flow can be blown out through the first air outlet 11 after passing through the fan 4;

the air conditioner also comprises a second air outlet 12, the inner wall of the second panel 22 forms part of the structure of the air duct 5, and when the first panel 21 moves to close the first air outlet 11, the air flow can be blown out through the air duct 5 and the second air outlet 12 in sequence after passing through the fan 4.

The air conditioner indoor unit is in a preferable structure form, namely, the air flow can pass through an internal fan of the air conditioner indoor unit and be blown out from a first air outlet (at the moment, the first air outlet is opened), and the air flow can also pass through the fan, an air duct and a second air outlet (at the moment, the second air outlet is opened), so that a structure form of air outlet from top to bottom is formed, the lower air outlet (the first air outlet) is controlled to be opened and closed by a first panel and/or a lower air deflector, and the upper air outlet (the second air outlet) is controlled to be opened and closed by an upper air deflector.

In some embodiments, the air conditioner further comprises a bottom case 3, and the first air outlet 11 is located between the bottom case 3 and the second panel 22; and/or the second air outlet 12 is located above the first air outlet 11. The preferred position structure of the first air outlet is that the first air outlet is positioned between the bottom shell and the second panel below the bottom shell, the second air outlet is positioned above the first air outlet and is an upper air outlet, and the first air outlet is a lower air outlet.

The periphery of the outer panel has a certain radian, and the whole structure is high in the middle and low in the periphery; the upper and lower edges of the inner panel are arc-shaped structures, and the left and right sides have no radian.

In some embodiments, the air conditioning indoor unit further comprises a third panel 23, the third panel 23 being located above the first panel 21; and/or the presence of a gas in the gas,

an air deflector 10 is further arranged at the first air outlet 11, the air deflector 10 can move to open the first air outlet 11, and the air deflector 10 can also move to close the first air outlet 11; when the first panel 21 moves to close the first outlet 11, the first panel 21 wraps the air deflector 10 inside the first panel 21.

The third panel is arranged above the air-conditioning indoor unit and can move, and the third panel mainly has the functions of effectively shielding the air inlet part, improving the aesthetic degree of the appearance and ensuring the appearance integrity of the air-conditioning indoor unit.

The utility model also has the function of guiding the wind blown out from the lower air outlet through the structure of the wind deflector, and the wind deflector is sealed inside the first air outlet through the first panel when the first air outlet is closed, thereby effectively ensuring the integrity of the appearance and improving the aesthetic degree.

The utility model also provides an air conditioner which comprises the air conditioner indoor unit.

The utility model provides a double-layer lower panel structure, wherein an outer panel is used as an appearance surface, an inner panel is used as an air duct, and the inner panel can be used as a secondary appearance surface when the outer panel is opened, so that the air duct is prevented from being directly exposed. The structure not only plays a role in beautifying the appearance, but also can be matched with an air outlet mode of an air conditioner.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention. The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (12)

1. An air conditioning indoor unit, characterized in that: the method comprises the following steps:

the air conditioner comprises a second air outlet (12), a second panel (22) and an air duct (5), wherein the air duct (5) is positioned on the inner side of the second panel (22); the inner wall of the second panel (22) forms a part of the structure of the air duct (5), and air flow can be blown out sequentially through the air duct (5) and the second air outlet (12); along the flowing direction of the air flow, the flow area of the air duct (5) is gradually reduced.

2. An indoor unit of an air conditioner according to claim 1, wherein:

still include panel body (6) and second wind channel wall (7), second wind channel wall (7) set up in on panel body (6), just second wind channel wall (7) with second panel (22) are relative, second wind channel wall (7) form into the partial structure of wind channel (5), through second panel (22) with second wind channel wall (7) constitute wind channel (5).

3. An indoor unit of an air conditioner according to claim 2, wherein:

in the cross section of the air-conditioning indoor unit, at least part of the inner wall of the second panel (22) is of an arc-shaped structure; at least part of the second air duct wall (7) is also of an arc-shaped structure.

4. An indoor unit of an air conditioner according to claim 3, wherein:

in the cross section of the air conditioning indoor unit, the second air duct wall (7) comprises an upstream end (71), a downstream end (72) and a middle end (73), the upstream end (71) is located at the upstream end of the second air duct wall (7) in the airflow flowing direction, the downstream end (72) is located at the downstream end of the second air duct wall (7) in the airflow flowing direction, the middle end (73) is located between the upstream end (71) and the downstream end (72), the arc section between the middle end (73) and the upstream end (71) is a first arc section (74), the arc section between the middle end (73) and the downstream end (72) is a second arc section (75), and the first arc section length is equal to the second arc section length;

the minimum distance between any position on the first arc section and the second panel (22) is larger than the minimum distance between any position on the second arc section and the second panel (22).

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

the first arc section (74) is a convex arc section towards the second panel (22), and the second arc section (75) is a convex arc section away from the second panel (22); and/or the presence of a gas in the gas,

the arc radius of the first arc section is larger than that of the second panel.

6. An indoor unit of an air conditioner according to claim 2, wherein:

the second panel (22) connect the assembly in on the panel body (6), just second panel (22) with be provided with first location structure, second location structure and third location structure on the relative assembly surface of panel body (6), first location structure can be right the fore-and-aft direction of second panel (22) is spacing, second location structure can be right the left and right sides direction of second panel (22) is spacing, third location structure can be right the upper and lower direction of second panel (22) is spacing, the assembly surface with second wind channel wall (7) are relative.

7. An indoor unit of an air conditioner according to claim 6, wherein:

the first positioning structure comprises a plug pin structure (221), the second positioning structure comprises a rib (222) and a clamping hook (223), and the third positioning structure comprises a buckle (224).

8. An indoor unit of an air conditioner according to any one of claims 1 to 7, wherein:

further comprising a first panel (21) and a first outlet mouth (11), said second panel (22) being fixed, said first panel (21) being located outside said second panel (22) and said first panel (21) being movable to open said first outlet mouth (11), said first panel (21) being also movable to close said first outlet mouth (11);

the first panel (21) wrapping the second panel (22) inside the first panel (21) when the first panel (21) is moved to close the first outlet mouth (11); when the first panel (21) moves to open the first air outlet (11), the second panel (22) can shield and close the air duct (5).

9. An indoor unit of an air conditioner according to claim 8, wherein:

the air conditioner also comprises a fan (4), and when the first panel (21) moves to a position for opening the first air outlet (11), airflow can be blown out through the first air outlet (11) after passing through the fan (4);

when the first panel (21) moves to a position for closing the first air outlet (11), the air flow can be blown out sequentially through the air duct (5) and the second air outlet (12) after passing through the fan (4).

10. An indoor unit of an air conditioner according to claim 8, wherein:

the first air outlet (11) is positioned between the bottom shell (3) and the second panel (22); and/or the second air outlet (12) is positioned above the first air outlet (11).

11. An indoor unit of an air conditioner according to claim 8, wherein:

the air-conditioning indoor unit further comprises a third panel (23), wherein the third panel (23) is positioned above the first panel (21); and/or the presence of a gas in the gas,

the first air outlet (11) is further provided with an air deflector (10), the air deflector (10) can move to open the first air outlet (11), and the air deflector (10) can also move to close the first air outlet (11); when the first panel (21) moves to close the first air outlet (11), the first panel (21) wraps the air deflector (10) inside the first panel (21).

12. An air conditioner, characterized in that: comprising an air conditioning indoor unit according to any one of claims 1 to 11.

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