CN211119679U - Air conditioner indoor unit and air conditioner - Google Patents

Abstract

The utility model discloses an indoor set of air conditioning and air conditioner, indoor set of air conditioning include face frame, no wind sense part, heat exchanger and fan. A first air outlet is formed in the front lower portion of the face frame, the first air outlet penetrates through the front portion of the face frame forwards and penetrates through the bottom of the face frame downwards, and a second air outlet is formed in at least one of the left side of the face frame and the right side of the face frame; the non-wind-sensing component is movably arranged on the front side of the face frame between a first position and a second position and comprises a first panel; when the non-wind-sensing component is located at the first position, the first panel opens the first air outlet; when the non-wind-sensing component is located at the second position, the first panel closes the first air outlet. According to the utility model discloses an indoor set of air conditioning is formed with first air outlet and second air outlet on the face frame, can realize the multi-angle air-out, improves air output and air-out scope, realizes the quick refrigeration of indoor set of air conditioning and heats, has improved the work efficiency of indoor set of air conditioning.

Description

Air conditioner indoor unit and air conditioner

Technical Field

The utility model belongs to the technical field of air conditioning equipment and specifically relates to a machine and air conditioner in air conditioning.

Background

In the related art, the air conditioner indoor unit has small air output and low refrigeration and heating efficiency due to structural limitation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides an indoor unit of air conditioning can realize that multi-angle air-out and air output are big, realizes quick refrigeration and heats, has improved indoor unit of air conditioning's work efficiency.

The utility model also provides an air conditioner of having above-mentioned machine in the air conditioning.

According to the utility model discloses machine in air conditioning of first aspect embodiment, include: the air conditioner comprises a face frame, an air inlet is formed in the face frame, a first air outlet is formed in the front lower portion of the face frame, the first air outlet penetrates through the front portion of the face frame forwards and penetrates through the bottom of the face frame downwards, and a second air outlet is formed in at least one of the left side of the face frame and the right side of the face frame; a non-wind-sensing member movably provided at a front side of the face frame between a first position and a second position, the non-wind-sensing member including a first panel; the heat exchanger and the fan are arranged in the face frame; when the non-wind sensing component is located at the first position, the first panel opens the first air outlet; when the non-wind-sensing component is located at the second position, the first panel closes the first air outlet.

According to the utility model discloses an indoor set of air conditioning, the front portion of face frame is formed with first air outlet and the bottom that first air outlet runs through the face frame, is formed with the second air outlet on at least one in the left side of face frame and the right side of face frame, can realize the multi-angle air-out, improves air output and air-out scope, realizes quick refrigeration and heats, has improved the work efficiency of indoor set of air conditioning.

According to some embodiments of the invention, the non-wind sensing part is provided at the front side of the face frame up and down between the first position and the second position.

According to some embodiments of the present invention, when the non-wind-sensing member is located at the second position, a portion of the first panel opposite to the first wind outlet is formed with a wind dispersing structure.

According to some embodiments of the utility model, the upper end of face frame is equipped with the second panel just the second panel is located the front side of face frame, the second panel with inject between the face frame and accept the chamber no wind-sensing part is located when the second position, at least a part of first panel is located accept the intracavity.

Optionally, the first panel includes an air outlet portion, the air outlet portion is formed with an air dispersing structure, and when the non-wind-sensing component is located at the second position, the air outlet portion is opposite to the first air outlet.

Optionally, first panel includes non-air-out portion and air-out portion of connecting from top to bottom, air-out portion is formed with the structure that looses wind, non-air-out portion is located the top of air-out portion when no wind-sensing part is located the second position, air-out portion with first air outlet is relative, non-air-out portion is located accept the intracavity.

Furthermore, the non-wind-sensing component comprises a wind dispersing module with a wind dispersing function, and the wind dispersing module is arranged on the air outlet part and is positioned on the inner side of the air outlet part.

Further, the air dispersing module comprises: the mounting panel, be formed with a plurality of first ventilation holes of arranging along the left right direction on the mounting panel, the mounting panel with first panel links to each other.

Further, the air dispersing module comprises: the air dispersing mechanism with the air dispersing function is arranged at the first ventilation hole.

Further, the wind dispersing mechanism includes: the guide vane assembly is arranged in the first ventilation hole and comprises a static blade and a rotatable movable blade, and the static blade and the movable blade are arranged along the axial direction of the first ventilation hole.

Optionally, the blade is provided on a front side or a rear side of the vane.

Optionally, the blade is disposed coaxially with the vane.

According to some optional embodiments of the utility model, the module that looses wind includes the limiting plate, the limiting plate with first panel links to each other, the limiting plate is established the front side of mounting panel and with the mounting panel links to each other, be formed with on the limiting plate with the relative second ventilation hole that just communicates in first ventilation hole, the mounting panel with inject between the limiting plate and be suitable for and hold scattered wind mechanism hold the chamber.

According to some embodiments of the utility model, the air-out portion includes the sub-air-out portion of first sub-air-out portion and the sub-air-out portion of second that link to each other from top to bottom, first sub-air-out portion with the sub-air-out portion of second all is formed with the wind structure that looses, first sub-air-out portion with the sub-air-out portion of second has the contained angle, it establishes to loose the wind module on the first sub-air-out portion no wind sense part is located during the second position, first sub-air-out portion is located the front side of first air outlet, the sub-air-out portion of second is located the bottom of first air outlet.

According to some optional embodiments of the utility model, the air-out portion includes the first sub air-out portion and the sub air-out portion of second that link to each other from top to bottom, first sub air-out portion with the sub air-out portion of second all is formed with the wind structure that looses, first sub air-out portion with the contained angle has between the sub air-out portion of second no wind sense part is located during the second position, first sub air-out portion is located the front side of first air outlet, the sub air-out portion of second is located the bottom of first air outlet.

Furthermore, the included angle between the first sub air outlet part and the second sub air outlet part ranges from 60 degrees to 120 degrees.

According to some embodiments of the present invention, the face frame has therein an air outlet channel communicated with the first air outlet and the second air outlet, a portion of the bottom wall of the air outlet channel adjacent to the first air outlet is formed with a guide portion for guiding the air flow toward the first air outlet.

Further, in a rear-to-front direction, the guide portion extends obliquely downward to guide a portion of the airflow to the bottom of the first outlet port.

According to some optional embodiments of the present invention, the angle between the guiding portion and the vertical direction is in the range of 15-60 °.

Further, the diapire of air-out passageway is located keeping away from of guide part the part of one side of first air outlet is drainage portion, the contained angle between guide part and the vertical direction is less than contained angle between drainage portion and the vertical direction.

According to some optional embodiments of the present invention, when the non-wind sensing member is located at the second position, the guide portion is opposed to or abutted against the bottom of the first panel in the front-rear direction.

According to some embodiments of the utility model, have in the face frame with first air outlet the air-out passageway that the second air outlet all communicates, be equipped with rotatable interior aviation baffle in the air-out passageway.

Optionally, the indoor unit of the air conditioner has a heating mode and a cooling mode, and when the non-wind-sensing component is located at the first position and the indoor unit of the air conditioner is located at the cooling mode, an included angle between the inner wind deflector and the horizontal plane ranges from 0 degree to 45 degrees; when the non-wind-sensing component is located at the first position and the indoor unit of the air conditioner is in the heating mode, the included angle between the inner wind deflector and the horizontal plane ranges from 45 degrees to 90 degrees.

Optionally, the length of the inner air deflector in the air outlet direction of the first air outlet is adjustable.

According to some optional embodiments of the present invention, when the non-wind-sensing component is located in the first position, the length of the inner wind deflector in the wind-out direction of the first air outlet is L1, and when the non-wind-sensing component is located in the second position, the length of the inner wind deflector in the wind-out direction of the first air outlet is L2, and L2 is smaller than L1.

According to some optional embodiments of the utility model, the aviation baffle includes aviation baffle in first son and the son of second, aviation baffle in first son with the inner wall of air-out passageway rotationally links to each other, aviation baffle movably establishes in the second on the aviation baffle in first son in order to adjust interior aviation baffle is in the ascending length of air-out direction of first air outlet.

Furthermore, the second sub-inner wind deflector can slide or rotate relative to the first sub-inner wind deflector.

Furthermore, a sliding cavity is arranged in the first sub-inner air deflector, and the second sub-inner air deflector is slidably arranged in the sliding cavity.

According to some embodiments of the utility model, have in the face frame with first air outlet the air-out passageway that the second air outlet all communicates no wind sense part is located when the first position, the bottom of first panel be suitable for with the roof butt of air-out passageway.

According to some embodiments of the invention, the drive mechanism for driving the movement of the non-wind sensitive part comprises: the motor is arranged on a chassis or a face frame of the indoor unit of the air conditioner; the gear is connected with an output shaft of the motor; the rack is arranged on the no-wind-sensation component and extends along the vertical direction, and the rack is suitable for being meshed with the gear.

Optionally, the rack is disposed on the first panel, and the rack is detachably connected to the first panel, or the rack and the first panel are integrally formed.

Optionally, a first guide rail is arranged on one of the chassis and the non-wind-sensing component, and a second guide rail matched with the first guide rail is arranged on the other of the chassis and the non-wind-sensing component; or a first guide rail is arranged on one of the face frame and the non-wind-sensing part, and a second guide rail matched with the first guide rail is arranged on the other one of the face frame and the non-wind-sensing part.

Further, a motor mounting seat is arranged on the chassis or the face frame, the motor is arranged on the motor mounting seat, the first guide rail is arranged on the motor mounting seat, and the second guide rail is arranged on the rack.

Further, be formed with the open cooperation chamber in front side on the motor mount pad, at least partly of gear is located the cooperation intracavity, partly stretch into of rack to the cooperation intracavity and with gear engagement, the second guide rail is including forming guide way on the left side wall of rack and the right side wall, first guide rail is including forming guide protrusion on two lateral walls about the open end of cooperation chamber, every guide protrusion cooperation is corresponding in the guide way and relative the guide way can slide from top to bottom.

According to some optional embodiments of the present invention, the rack comprises a tooth holder, the tooth holder has a tooth portion and a non-tooth portion toward a surface of the gear, the tooth portion extends in an up-down direction, the tooth portion is adapted to be engaged with the gear, and the non-tooth portion is located on at least one side in a length direction of the tooth portion.

According to the utility model discloses air conditioner of second aspect embodiment includes: according to the utility model discloses machine in the air conditioning of above-mentioned first aspect embodiment.

According to the utility model discloses an air conditioner through setting up above-mentioned air conditioning indoor set, and the air conditioning indoor set can multi-angle air-out and air output big to make the air conditioner can the multi-angle air-out, and can promote the air output and the air-out scope of air conditioner, improve the work efficiency of air conditioner.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of an air conditioning indoor unit according to some embodiments of the present invention, wherein the non-wind sensing member is in a second position;

FIG. 2 is an enlarged view at A in FIG. 1;

fig. 3 is a schematic view of an air conditioning indoor unit according to some embodiments of the present invention, wherein the non-wind sensing member is in a first position;

fig. 4 is a simplified view of the internal structure of an indoor unit of an air conditioner according to some embodiments of the present invention, wherein the indoor unit of an air conditioner is in a cooling mode;

fig. 5 is a simplified view of the internal structure of an indoor unit of an air conditioner according to some embodiments of the present invention, in which the indoor unit of an air conditioner is in a heating mode;

fig. 6 is a simplified view of the internal structure of an indoor unit of an air conditioner according to some embodiments of the present invention, in which a non-wind sensing part is in a second position;

fig. 7 is a simplified view of an inner structure of an indoor unit of an air conditioner according to further embodiments of the present invention, in which a non-wind sensing part is in a first position;

fig. 8 is a simplified view of an inner structure of an indoor unit of an air conditioner according to further embodiments of the present invention, in which a non-wind sensing part is in a second position;

fig. 9 is an exploded view of an air conditioning indoor unit according to some embodiments of the present invention;

fig. 10 is a partial schematic structural view of an indoor unit of an air conditioner according to some embodiments of the present invention;

FIG. 11 is an enlarged view at B in FIG. 10;

fig. 12 is a side view of a part of the structure of an indoor unit of an air conditioner according to some embodiments of the present invention;

fig. 13 is a block diagram of a non-wind sensitive component and drive mechanism according to some embodiments of the present invention;

FIG. 14 is an enlarged view at C of FIG. 13;

fig. 15 is an exploded view of a non-wind sensitive component and drive mechanism according to some embodiments of the present invention;

fig. 16 is a block diagram of a rack according to some embodiments of the present invention.

Reference numerals:

an indoor air-conditioning unit 100;

a wind-dispersing hole 10;

a face frame 1; an air inlet 11; a first air outlet 12; a second air outlet 13; an air outlet channel 14; a guide portion 141; a drainage portion 142; an end plate 15;

a non-wind-sensing part 2; a first panel 21; a non-air-outlet portion 211; decorative holes 2111; an air outlet portion 212; a first sub-air outlet portion 2121; a second sub-air outlet portion 2122; a wind-dispersing module 22; a mounting plate 221; a first vent 2212; a guide vane assembly 222; a stationary blade 2221; the buckets 2222; a stopper plate 223; a second vent 2231;

a heat exchanger 3;

a fan 4;

a second panel 5; a housing chamber 51;

an inner air deflector 6; a first sub-inner air deflector 61; a second sub-inner air deflector 62;

a drive mechanism 7; a motor 71; a gear 72; a rack 73; the second guide rail 731; a guide groove 7311; a tooth holder 732; a tooth portion 7321; a non-toothed portion 7322;

a chassis 8; a motor mount 81; a first guide rail 82; a guide boss 821; a mating cavity 822;

and (6) louvers (9).

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

An air conditioning indoor unit 100 according to an embodiment of the present invention is described below with reference to the accompanying drawings.

Referring to fig. 1 to 3, an air conditioning indoor unit 100 according to an embodiment of the present invention includes a face frame 1, a non-air-sensitive part 2, a heat exchanger 3, and a fan 4. An air inlet 11 is formed on the face frame 1, a first air outlet 12 is formed at the front lower part of the face frame 1, the first air outlet 12 penetrates through the front part of the face frame 1 forwards, and the first air outlet 12 penetrates through the bottom of the face frame 1 downwards. The first air outlet 12 may be located in a middle portion of the face frame 1 in a length direction (for example, the length direction is a left-right direction), two ends of the first air outlet 12 in the length direction may also extend to two ends of the face frame 1 in the length direction, so that an air outlet area and an air outlet volume of the first air outlet 11 may be increased, the indoor air conditioner 100 may output air forward through the first air outlet 12, the indoor air conditioner 100 may output air downward through the first air outlet 12, and at least one of a left side of the face frame 1 and a right side of the face frame 1 is formed with a second air outlet 13, so that the indoor air conditioner 100 may output air laterally through the second air outlet 13. The non-wind-sensing member 2 is movably provided on the front side of the face frame 1 between a first position and a second position, for example, the non-wind-sensing member 2 is provided on the front side of the face frame 1 movably up and down between the first position and the second position, and the non-wind-sensing member 2 includes a first panel 21. The heat exchanger 3 and the fan 4 are arranged in the face frame 1, the heat exchanger 3 can exchange heat with air flow in the face frame 1, and the fan 4 can drive the air flow to flow.

When the non-wind-sensing component 2 is located at the first position and the second position, the outlet air is discharged from the first air outlet 12 and the second air outlet 13, and 3D or 4D outlet air can be formed, so that outlet air at more angles and outlet air at a wider range can be realized, the air outlet amount is increased, and the working efficiency of the indoor air conditioner 100 is improved. For example, the second air outlet 13 is formed on the left side of the face frame 1, and when the air conditioner indoor unit 100 is used for exhausting air, the air can be exhausted forwards, downwards and leftwards, so that 3D air outlet is formed; a second air outlet 13 is formed on the right side of the face frame 1, and when the air conditioner indoor unit 100 is used for exhausting air, the air can be exhausted forwards, downwards and rightwards to form 3D air outlet; the left side of the face frame 1 and the right side of the face frame 1 are both provided with a second air outlet 13, so that when the air conditioner indoor unit 100 is exhausted, air can be exhausted towards the front, the lower part, the left part and the right part, and 4D air outlet is formed.

Optionally, the left side and the right side of the face frame 1 are both provided with end plates 15, the end plates 15 may be in a grid shape, and the second air outlet 13 may discharge air from gaps of the end plates 15, so that when the indoor air-conditioning unit 100 is in a no-wind-sensation mode, left and right discharge air is softer, and the overall no-wind-sensation effect of the indoor air-conditioning unit 100 is improved.

When the indoor air conditioner 100 works, the fan 4 drives external airflow to enter the indoor air conditioner 100 from the air inlet 11, the airflow can be discharged from the first air outlet 12 after exchanging heat with the heat exchanger 3, and the airflow after exchanging heat can also be discharged from the second air outlet 13. By arranging the first air outlet 12 and the second air outlet 13, the first air outlet 12 is positioned in the front of the face frame 1, the first air outlet 12 penetrates through the bottom of the face frame 1, and the second air outlet 13 is positioned on the side face of the face frame 1, so that the indoor air conditioner 100 can output air forwards, downwards and laterally, the indoor air conditioner 100 can output air at multiple angles, and the air output of the indoor air conditioner 100 is increased.

When the non-wind sensing member 2 is located at the first position, the first panel 21 opens the first outlet 12, and the non-wind sensing member 2 does not interfere with the outlet wind to be discharged from the first outlet 12, so that the indoor air conditioning unit 100 has a large air outlet volume. When the no wind sensing part 2 is located at the second position, the first panel 21 closes the first air outlet 12, at this time, the indoor air conditioner unit 100 can output air from the second air outlet 13, cold air can be prevented from directly blowing to a human body when the indoor air conditioner unit 100 is used for cooling, and the comfort level of a user is improved.

Air-conditioning indoor unit 100 in this application, when no wind sense part 2 is located the second position, no wind sense part 2 can make the air-out of following first air outlet 12 soft, even the air output of first air outlet 12 has been reduced because of first panel 21 blocks the air-out of first air outlet 12, air-conditioning indoor unit 100 can be followed second air outlet 13 air-out simultaneously, make air-conditioning indoor unit 100 follow the air-out of first air outlet 12 exhaust and the total amount of wind of second air outlet 13 exhaust is great, when realizing that the air-out of air-conditioning indoor unit 100 is not directly blowing human, the total amount of air-out of air-conditioning indoor unit 100 is great, thereby can quick adjustment indoor temperature, user experience has been improved.

According to the utility model discloses an indoor set of air conditioner 100, the front portion of face frame 1 is formed with first air outlet 12 and first air outlet 12 runs through the bottom of face frame 1, is formed with second air outlet 13 on at least one in the left side of face frame 1 and the right side of face frame 1, can realize the multi-angle air-out, improves air output and air-out scope, realizes quick refrigeration and heats, has improved indoor set of air conditioner 100's work efficiency.

Referring to fig. 1-3, according to some embodiments of the present invention, the non-wind sensing part 2 is provided at the front side of the face frame 1 to be movable up and down between a first position and a second position. This design facilitates the movement of the non-wind sensing member 2, and when the non-wind sensing member 2 is located at the first position, the first panel 21 opens the first wind outlet 12, and when the non-wind sensing member 2 is located at the second position, the first panel 21 closes the first wind outlet 12.

Referring to fig. 1 to 3, according to some embodiments of the present invention, when the non-wind-sensing component 2 is located at the second position, a portion of the first panel 21 opposite to the first air outlet 12 is formed with a wind dispersing structure, the wind dispersing structure may be a plurality of wind dispersing holes 10, the air flow may pass through the wind dispersing holes 10, and the wind dispersing holes 10 have an effect of dispersing the air flow, so that the air outlet of the first air outlet 12 is soft, and the non-wind-sensing air outlet is realized; the air dispersing structure can also be an air dispersing grid, and air flow is dispersed when passing through the air dispersing grid, so that the air outlet of the first air outlet 12 is soft, and the air outlet without wind sensation is realized. By arranging the no-wind-sensing component 2 with the wind-dispersing structure, cold wind can be prevented from directly blowing a human body, the air outlet is soft, the no-wind-sensing air outlet mode is realized, and the indoor unit 100 of the air conditioner can have larger refrigerating capacity in the no-wind-sensing mode.

In the description of the present invention, "a plurality" means two or more.

Referring to fig. 4-6, according to some embodiments of the present invention, the upper end of the face frame 1 is provided with the second panel 5, and the second panel 5 is located at the front side of the face frame 1, a receiving cavity 51 is defined between the second panel 5 and the face frame 1, the bottom of the receiving cavity 51 can be opened, and when the non-wind sensing component 2 is located at the second position, at least a part of the first panel 21 is located in the receiving cavity 51. For example, when the non-wind sensing member 2 is located at the second position, a part of the first panel 21 is located in the accommodating cavity 51; alternatively, when the non-airflow sensing member 2 is at the second position, the entire first panel 21 is located in the housing cavity 51. This design makes it possible for the second panel 5 to protect the first panel 21. Meanwhile, the second panel 5 can limit and guide the first panel 21 to move, which is beneficial for the non-wind-sensing component 2 to move between the first position and the second position according to a preset direction.

Referring to fig. 6 and 8, optionally, the first panel 21 includes an air outlet portion 212, the air outlet portion 212 is formed with an air dispersing structure, and when the non-wind-sensing component 2 is located at the second position, the air outlet portion 212 is opposite to the first air outlet 12, so that the outlet air of the first air outlet 12 can be dispersed by the air dispersing structure, thereby realizing the non-wind-sensing outlet air of the first air outlet 12.

Referring to fig. 6 and 8, further, the first panel 21 includes a non-air outlet portion 211 and an air outlet portion 212 connected up and down, the air outlet portion 212 is formed with a plurality of air dispersing structures, and the air flow can be dispersed when passing through the air dispersing structures, thereby reducing the wind sensation of the air flow. The non-air-outlet portion 211 is located above the air-outlet portion 212, and when the non-wind-sensing component 2 is located at the second position, the air-outlet portion 212 is opposite to the first air outlet 12, so that the outlet air of the first air outlet 12 can be scattered by the air scattering structure, and the non-wind-sensing outlet air of the first air outlet 12 is realized. The non-air-outlet portion 211 is located in the housing cavity 51, and can prevent the first panel 21 from falling off from the housing cavity 51.

Optionally, when the air diffusing structure is a plurality of air diffusing holes 10, the non-air outlet portion 211 is formed with a plurality of decorative holes 2111 having the same appearance as the air diffusing holes 10, and this design makes the appearance of the air outlet portion 212 consistent with that of the non-air outlet portion 211, so as to be more beautiful.

Referring to fig. 4-8, further, the non-wind-sensing component 2 includes a wind-dispersing module 22 having a wind-dispersing function, the wind-dispersing module 22 is disposed on the wind-outlet portion 212 and located inside the wind-outlet portion 212, and the wind-outlet portion 212 can protect the wind-dispersing module 22.

Further, the air diffusing module 22 includes a mounting plate 221, a plurality of first ventilation holes 2212 arranged in the left-right direction are formed in the mounting plate 221, the mounting plate 221 is connected to the first panel 21, and the air flow can pass through the first ventilation holes 2212, so as to ensure that the outlet air of the indoor unit 100 of the air conditioner can flow through the first ventilation holes 2212 and be smoothly discharged from the first air outlet 12 when the non-wind sensing component 2 is located at the second position.

Further, the air diffusing module 22 includes an air diffusing mechanism having an air diffusing function, and the air diffusing mechanism is disposed at the first vent 2212, and the air diffusing mechanism can further diffuse the air flowing through the first vent 2212, so that the air flow is softer.

Further, the air dispersing mechanism includes a guide vane assembly 222, a guide vane assembly 222 is disposed in each first vent hole 2212, the guide vane assembly 222 includes a stationary vane 2221 and a rotatable movable vane 2222, the stationary vane 2221 and the movable vane 2222 are arranged along the axial direction of the first vent hole 2212, when the airflow passes through the first vent hole 2212, the relative position of the blade of the movable vane 2222 and the blade of the stationary vane 2221 can be changed by controlling the rotation of the movable vane 2222, so that the ventilation area of the first vent hole 2212 can be adjusted, and the air outlet amount and the air outlet speed can be adjusted. When the air conditioning indoor unit 100 is operated and the no-wind-sensing part 2 is at the second position, the movable blade 2222 may be controlled to rotate to a certain angle and then stop rotating, or the movable blade 2222 may be controlled to rotate all the time.

Referring to fig. 9-15, alternatively, when the blades 2222 are disposed forward or aft of the vanes 2221 and the blades 2222 are disposed forward of the vanes 2221, the flow passes first through the stationary vanes 2221 and then through the rotatable blades 2222. The airflow sequentially passes through the guiding, rectifying and dispersing effects of the stationary blade 2221 and then passes through the movable blades 2222, the movable blades 2222 can rotate in a certain direction, so that the airflow also has a certain direction after passing through the movable blades 2222, and finally the airflow is further dispersed through the air dispersing structure on the air outlet part 212, so that the air outlet is softer and closer to natural wind.

When the movable blade 2222 is disposed at the rear side of the stationary blade 2221, when the airflow passes through the air dispersing module 22, the airflow passes through the movable blade 2222 and the stationary blade 2221 in sequence, the movable blade 2222 may have a certain rotation direction, so that the airflow has a certain rotation direction after passing through the movable blade 2222, then the airflow is guided, rectified and dispersed by the stationary blade 2221, and finally the airflow is further dispersed by the air dispersing structure on the air outlet portion 212, so that the outlet air is softer and closer to natural wind.

Referring to fig. 9-15, alternatively, the movable blade 2222 is disposed coaxially with the stationary blade 2221, and this design facilitates adjusting a ventilation area of the first ventilation hole 2212 by rotating the movable blade 2222, while facilitating disposing the movable blade 2222 and the stationary blade 2221.

Referring to fig. 9-15, according to some optional embodiments of the present invention, the wind module 22 includes a limiting plate 223, the limiting plate 223 is connected to the first panel 21, the limiting plate 223 is disposed at the front side of the mounting plate 221 and connected to the mounting plate 221, and a second ventilating hole 2231 opposite to and communicating with the first ventilating hole 2212 is formed on the limiting plate 223, so that the outlet wind flowing through the first ventilating hole 2212 can be discharged from the second ventilating hole 2231, and the airflow is prevented from being blocked by the limiting plate 223. The mounting plate 221 and the limit plate 223 define a containing cavity therebetween, which is suitable for containing the air dispersing mechanism, and the mounting plate 221 and the limit plate 223 can protect the air dispersing mechanism. The outlet air of the first air outlet 12 can enter the accommodating cavity from the first vent 2212, the air flow direction of the air dispersing mechanism in the accommodating cavity can be changed, and then the outlet air is discharged from the second vent 2231.

Referring to fig. 4-8, according to some embodiments of the present invention, the air outlet portion 212 includes a first sub air outlet portion 2121 and a second sub air outlet portion 2122 connected from top to bottom, and the first sub air outlet portion 2121 and the second sub air outlet portion 2122 are both formed with an air dispersing structure, so that the air flow can be dispersed by the air dispersing structure when passing through the first sub air outlet portion 2121, and the air flow can be dispersed by the air dispersing structure when passing through the second sub air outlet portion 2122, thereby making the air flow soft. An included angle is formed between the first sub air-out portion 2121 and the second sub air-out portion 2122, the air-dispersing module 22 is disposed on the first sub air-out portion 2121, and the air-dispersing module 22 can soften the air flowing through the first sub air-out portion 2121 and adjust the direction of the air flowing. When the non-wind-sensing component 2 is located at the second position, the first sub-air-out portion 2121 is located at the front side of the first air outlet 12, and the second sub-air-out portion 2122 is located at the bottom of the first air outlet 12. Due to the design, when the air flow in the indoor unit 100 of the air conditioner is discharged from the first air outlet 12, the air flow flowing through the first sub air outlet portion 2121 can be discharged forwards, and the air flow flowing through the second sub air outlet portion 2122 can be discharged downwards, which is beneficial to realizing multi-angle air discharge of the indoor unit 100 of the air conditioner.

Referring to fig. 4 to 6, according to some optional embodiments of the present invention, the air outlet portion 212 includes a first sub air outlet portion 2121 and a second sub air outlet portion 2122 connected from top to bottom, and the first sub air outlet portion 2121 and the second sub air outlet portion 2122 are both formed with an air dispersing structure, so that the air flow can be dispersed by the air dispersing structure when passing through the first sub air outlet portion 2121, and the air flow can be dispersed by the air dispersing structure when passing through the second sub air outlet portion 2122, thereby making the air flow soft. An included angle is formed between the first sub air-out portion 2121 and the second sub air-out portion 2122, when the non-wind-sensing component 2 is located at the second position, the first sub air-out portion 2121 is located at the front side of the first air outlet 12, and the second sub air-out portion 2122 is located at the bottom of the first air outlet 12. Due to the design, when the air flow in the indoor unit 100 of the air conditioner is discharged from the first air outlet 12, the air flow flowing through the first sub air outlet portion 2121 can be discharged forwards, and the air flow flowing through the second sub air outlet portion 2122 can be discharged downwards, which is beneficial to realizing multi-angle air discharge of the indoor unit 100 of the air conditioner.

Referring to fig. 4-6, further, the included angle between the first sub-air outlet portion 2121 and the second sub-air outlet portion 2122 ranges from 60 to 120 °. If the included angle between the first sub air outlet portion 2121 and the second sub air outlet portion 2122 is too large, the structure of the indoor unit 100 of the air conditioner is not compact, and the appearance of the whole unit is reduced. If the included angle between the first sub-air-out portion 2121 and the second sub-air-out portion 2122 is too small, the air flow is not smooth when passing through the second sub-air-out portion 2122, and the noise is generated due to the unsmooth air flow. The included angle between the first sub air outlet part 2121 and the second sub air outlet part 2122 is limited in a proper range, so that the air conditioner indoor unit 100 is compact in structure while the air flow can smoothly pass through the second sub air outlet part 2122 and is discharged downwards.

Referring to fig. 4-6, according to some embodiments of the present invention, the face frame 1 has an air outlet channel 14 therein, which is communicated with both the first air outlet 12 and the second air outlet 13, and the air flow in the air outlet channel 14 can be discharged from the first air outlet 12 and the air flow in the air outlet channel 14 can also be discharged from the second air outlet 13. A guide portion 141 is formed at a portion of the bottom wall of the air outlet channel 14 adjacent to the first air outlet 12, the guide portion 141 is used for guiding the airflow toward the first air outlet 12, a part of the airflow may be guided downward by the guide portion 141, and a part of the airflow may also be guided forward by the guide portion 141.

Referring to fig. 4-6, further, in the direction from the back to the front, the guide portion 141 extends obliquely downward to guide a portion of the airflow to the bottom of the first air outlet 12, and this design enables the guide portion 141 to guide the airflow to be discharged from the bottom of the indoor unit 100, which is beneficial to increase the bottom air outlet volume of the indoor unit 100 and realize multi-angle air outlet of the indoor unit 100.

Optionally, a louver 9 is disposed in the air outlet channel 14, and the louver 9 can adjust the flow direction of the air flow in the air outlet channel.

Referring to fig. 4-8, according to some alternative embodiments of the present invention, the angle between the guide portion 141 and the vertical direction is in the range of 15-60 °. If the included angle between the guiding portion 141 and the vertical direction is too small, when the airflow in the air outlet channel 14 flows to the guiding portion 141 along the bottom wall of the air outlet channel 14, the flowing direction of the airflow is greatly changed, and the guiding effect of the guiding portion 141 on the airflow is reduced. If the included angle between the guiding portion 141 and the vertical direction is too large, it is not favorable for the guiding portion 141 to guide the airflow to the bottom of the first air outlet 12, and the air output at the bottom of the indoor unit 100 of the air conditioner decreases. By limiting the included angle between the guiding portion 141 and the vertical direction within a proper range, the guiding portion 141 guides a portion of the airflow in the air outlet channel 14 to be discharged from the bottom of the first air outlet 12.

Referring to fig. 4 to 6, according to some optional embodiments of the present invention, a portion of the bottom wall of the air outlet channel 14, which is located on one side of the guiding portion 141 away from the first air outlet 12, is a drainage portion 142, and an included angle between the guiding portion 141 and the vertical direction is smaller than an included angle between the drainage portion 142 and the vertical direction. Due to the design, the flow guiding portion 142 can effectively guide the airflow in the air outlet channel 14 to flow, when the airflow flows from the flow guiding portion 142 to the guiding portion 141, the flowing direction of the airflow changes suddenly, and the guiding portion 141 can effectively guide a part of the airflow to be discharged from the bottom of the first air outlet 12.

Referring to fig. 6, alternatively, when the non-wind sensing member 2 is located at the second position, the guide portion 141 is opposed to or abuts the bottom portion of the first panel 21 in the front-rear direction. This design can prevent the air current in the air outlet channel 14 from leaking from the gap between the guide portion 141 and the bottom of the first panel 21, and avoid the problems of noise, condensation and the like caused by air leakage.

Referring to fig. 4-6, according to some embodiments of the present invention, the face frame 1 has an air outlet channel 14 therein, which is communicated with both the first air outlet 12 and the second air outlet 13, and the rotatable inner air deflector 6 is disposed in the air outlet channel 14. By arranging the inner air guide plate 6 in the air outlet channel 14, the change and adjustment of the air outlet direction can be realized through the rotation of the inner air guide plate 6.

Referring to fig. 4 to 6, optionally, the indoor unit 100 of the air conditioner has a heating mode and a cooling mode, when the non-wind-sensing component 2 is located at the first position and the indoor unit 100 of the air conditioner is located at the cooling mode, an included angle between the inner wind deflector 6 and the horizontal plane ranges from 0 to 45 °, so that the inner wind deflector 6 can guide the airflow in the air outlet channel 14 to be discharged forward from the first air outlet 12, so that the cool air can reach a higher position in the room, and uniform cooling in the room is facilitated. When the non-wind-sensing component 2 is located at the first position and the indoor unit 100 of the air conditioner is in the heating mode, the included angle between the inner wind deflector 6 and the horizontal plane is 45-90 degrees, so that the inner wind deflector 6 can guide the airflow in the air outlet channel 14 to be discharged downwards from the first air outlet 12, the warm air can reach the lower position in the room, and the indoor temperature can be uniformly increased.

Referring to fig. 4-6, optionally, the length of the inner wind deflector 6 in the air outlet direction of the first air outlet 12 is adjustable, such design can adjust the guiding effect of the inner wind deflector 6 on the air flow, and when the inner wind deflector 6 is longer, the guiding effect of the inner wind deflector 6 on the air flow is stronger, referring to fig. 4-6, according to some optional embodiments of the present invention, when the non-wind-sensing component 2 is located at the first position, the length of the inner wind deflector 6 in the air outlet direction of the first air outlet 12 is L1, when the non-wind-sensing component 2 is located at the second position, the length of the inner wind deflector 6 in the air outlet direction of the first air outlet 12 is L2, and L2 is less than L1.

Referring to fig. 7 and 8, according to some optional embodiments of the present invention, the inner wind deflector 6 includes a first sub-inner wind deflector 61 and a second sub-inner wind deflector 62, the first sub-inner wind deflector 61 is rotatably connected to the inner wall of the wind outlet channel 14, and this design facilitates adjusting the included angle between the inner wind deflector 6 and the horizontal plane. The second sub-inner wind deflector 62 is movably disposed on the first sub-inner wind deflector 61 to adjust the length of the inner wind deflector 6 in the air outlet direction of the first air outlet 12, and this design facilitates the adjustment of the length of the inner wind deflector 6 in the air outlet direction of the first air outlet 12, and has a simple structure. For example, the length of the inner air guiding plate 6 in the air outlet direction of the first air outlet 12 can be adjusted by the movement of the second air guiding plate relative to the first air guiding plate.

Referring to fig. 7 and 8, further, the second sub-inner wind guide plate 62 is slidable or rotatable with respect to the first sub-inner wind guide plate 61. When the second sub-inner air guiding plate 62 is slidable relative to the first sub-inner air guiding plate 61, the second sub-inner air guiding plate 62 can be slid onto the first sub-inner air guiding plate 61, so that the second sub-inner air guiding plate 62 is overlapped with the first sub-inner air guiding plate 61, and further the length of the inner air guiding plate 6 in the air outlet direction of the first air outlet 12 is reduced; the second sub-inner air guiding plate 62 may be slid to form an extension of the first sub-inner air guiding plate 61, so as to increase the length of the inner air guiding plate 6 in the air outlet direction of the first air outlet 12. When the second sub-inner air guiding plate 62 is rotatable relative to the first sub-inner air guiding plate 61, the second sub-inner air guiding plate 62 can be rotated to overlap the first sub-inner air guiding plate 61 with the second sub-inner air guiding plate 62, so as to reduce the length of the inner air guiding plate 6 in the air outlet direction of the first air outlet 12; the second sub-inner air guiding plate 62 may be rotated to form an extension of the first sub-inner air guiding plate 61 by the second sub-inner air guiding plate 62, so as to increase the length of the inner air guiding plate 6 in the air outlet direction of the first air outlet 12.

Referring to fig. 7 and 8, further, a sliding cavity is arranged in the first sub-inner air guiding plate 61, and the second sub-inner air guiding plate 62 is slidably arranged in the sliding cavity, so that the sliding process of the second in-line inner air guiding plate 6 is more reliable, and the second sub-inner air guiding plate 62 is prevented from being disengaged from the first sub-inner air guiding plate 61.

Referring to fig. 6 and 8, according to some embodiments of the present invention, the face frame 1 has therein an air outlet channel 14 communicated with both the first air outlet 12 and the second air outlet 13, and when the non-wind sensing component 2 is located at the first position, the bottom of the first panel 21 is adapted to abut against the top wall of the air outlet channel 14. Due to the design, when the non-wind-sensing component 2 is located at the second position, airflow in the air outlet channel 14 is prevented from flowing into a gap between the top wall of the air outlet channel 14 and the first panel 21, and air volume loss is prevented.

Referring to fig. 9-15, according to some embodiments of the present invention, the driving mechanism 7 for driving the movement of the non-wind sensing part 2 includes a motor 71, a gear 72 and a rack 73. For example, when the non-airflow sensing member 2 is provided on the front side of the face frame 1 so as to be movable up and down between the first position and the second position, the driving mechanism 7 is configured to drive the non-airflow sensing member 2 to move up and down. The motor 71 is provided on the chassis 8 or the face frame 1 of the indoor air conditioning unit 100. The gear 72 is connected with an output shaft of the motor 71, and the motor 71 can drive the gear 72 to rotate when working. The rack 73 is arranged on the non-wind sensing component 2 and extends along the up-down direction, the rack 73 is suitable for being meshed with the gear 72, and the motor 71 can drive the rack 73 to move when working through the matching of the rack 73 and the gear 72, so that the non-wind sensing component 2 can be driven to move.

Referring to fig. 9-15, alternatively, the rack gear 73 is provided on the first panel 21, the rack gear 73 is detachably connected to the first panel 21, or the rack gear 73 is integrally formed with the first panel 21. When the rack 73 is detachably connected with the first panel 21, the driving mechanism 7 and the non-wind-sensing component 2 are convenient to assemble, for example, the rack 73 is connected with the first panel 21 in a clamping way; or the rack 73 is connected to the first panel 21 by a screw. When the rack 73 is integrally formed with the first panel 21, the rack 73 and the first panel 21 have high connection strength, and the reliability of the indoor unit 100 of the air conditioner can be improved.

In some embodiments of the present invention, the non-wind-sensing component 2 includes a wind-dispersing module, the rack 73 is disposed on the wind-dispersing module, and the rack 73 is detachably connected to the wind-dispersing module, so that the driving mechanism 7 and the non-wind-sensing component 2 are convenient to assemble, for example, the rack 73 is connected to the wind-dispersing module in a clamping manner; or the rack 73 is connected with the air dispersing module through a screw.

Referring to fig. 9-15, alternatively, one of the chassis 8 and the non-wind sensing part 2 is provided with a first guide rail 82, and the other of the chassis 8 and the non-wind sensing part 2 is provided with a second guide rail 731 engaged with the first guide rail 82. For example, a first guide rail 82 is arranged on the chassis 8, and a second guide rail 731 matched with the first guide rail 82 is arranged in the non-wind-sensing part 2; alternatively, the non-wind-sensing part 2 is provided with a first guide rail 82, and the chassis 8 is provided with a second guide rail 731 engaged with the first guide rail 82. The movement of the non-wind-sensing part 2 between the first position and the second position can be realized by the cooperation of the first guide rail 82 and the second guide rail 731, and the first guide rail 82 and the second guide rail 731 have a guiding function, so that the movement of the non-wind-sensing part 2 is more reliable.

Alternatively, one of the face frame 1 and the non-wind sensing member 2 is provided with a first guide rail 82, and the other of the face frame 1 and the non-wind sensing member 2 is provided with a second guide rail 731 to be engaged with the first guide rail 82. For example, the face frame 1 is provided with a first guide rail 82, and the non-wind-sensing part 2 is provided with a second guide rail 731 matched with the first guide rail 82; alternatively, the non-wind-sensing member 2 is provided with a first guide rail 82, and the face frame 1 is provided with a second guide rail 731 engaged with the first guide rail 82. The movement of the non-wind-sensing part 2 between the first position and the second position can be realized by the cooperation of the first guide rail 82 and the second guide rail 731, and the first guide rail 82 and the second guide rail 731 have a guiding function, so that the movement of the non-wind-sensing part 2 is more reliable.

Referring to fig. 9-15, further, a motor mounting seat 81 is provided on the chassis 8 or the face frame 1, and the motor 71 is provided on the motor mounting seat 81, so that the motor 71 is stably mounted on the chassis 8. The first guide rail 82 is arranged on the motor mounting seat 81, and the second guide rail 731 is arranged on the rack 73, so that the first guide rail 82 and the second guide rail 731 are convenient to form, the structure is simple, and the first guide rail 82 and the second guide rail 731 are convenient to match.

Referring to fig. 9-15, further, the motor mount 81 is formed with a mating cavity 822 with an open front, and at least a portion of the gear 72 is located in the mating cavity 822, for example, a portion of the gear 72 is located in the mating cavity 822; or the gear 72 is completely positioned in the matching cavity 822, and a part of the rack 73 extends into the matching cavity 822 and is meshed with the gear 72, so that the matching cavity 822 can protect the gear 72. The second guide rail 731 includes guide grooves 7311 formed on the left and right side walls of the rack gear 73, the first guide rail 82 includes guide protrusions 821 formed on both left and right side walls of the open end of the coupling chamber 822, each guide protrusion 821 is coupled in the corresponding guide groove 7311 and is slidable up and down relative to the guide groove 7311, such a design that the first guide rail 82 and the second guide rail 731 are not easily disengaged, and the guide protrusions 821 are smoothly moved in the guide grooves 7311.

Referring to fig. 16, according to some alternative embodiments of the present invention, the rack 73 includes a rack 732, a surface of the rack 732 facing the gear 72 has a toothed portion 7321 and a non-toothed portion 7322, the toothed portion 7321 extends in an up-down direction, the toothed portion 7321 is adapted to be engaged with the gear 72, the non-toothed portion 7322 is located at least one side of a length direction of the toothed portion 7321, and the non-toothed portion 7322 cannot be engaged with the gear 72. For example, the non-toothed portion 7322 is located on the upper side of the toothed portion 7321, when the non-wind sensing member 2 moves downward, the toothed portion 7321 engages with the gear 72, so that the rack 73 moves downward relative to the gear 72, and as the rack 73 moves downward, when the gear 72 contacts the non-toothed portion 7322, the non-toothed portion 7322 cannot engage with the gear 72, so that the rack 73 can be prevented from moving downward excessively; alternatively, the non-toothed portion 7322 is located below the toothed portion 7321, and when the non-wind sensing member 2 moves upward, the toothed portion 7321 engages with the gear 72, so that the rack 73 moves upward relative to the gear 72, and as the rack 73 moves upward, when the gear 72 contacts the non-toothed portion 7322, the non-toothed portion 7322 cannot engage with the gear 72, so that the rack 73 can be prevented from moving excessively upward; alternatively, the non-toothed portions 7322 are located at both sides of the toothed portion 7321 in the length direction, and at this time, the rack 73 can be prevented from excessively moving upward and downward by providing the non-toothed portions 7322. By providing the non-toothed portion 7322, the rack 73 can be prevented from moving excessively to disengage the rack 73 from the gear 72, thereby improving the reliability of the drive mechanism 7.

According to the present invention, an air conditioner includes an air conditioner indoor unit 100 according to the present invention. For example, the air conditioner is a split floor type air conditioner, and the air-conditioning indoor unit 100 is a split floor type air-conditioning indoor unit 100; alternatively, the air conditioner is a split wall type air conditioner, and the indoor unit 100 is a split wall type indoor unit 100.

According to the utility model discloses an air conditioner through setting up above-mentioned indoor set of air conditioner 100, and indoor set of air conditioner 100 can multi-angle air-out and air output big to make the air conditioner can the multi-angle air-out, and can promote the air output and the air-out scope of air conditioner, improve the work efficiency of air conditioner.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (36)

1. An indoor unit of an air conditioner, comprising:

the air conditioner comprises a face frame, an air inlet is formed in the face frame, a first air outlet is formed in the front lower portion of the face frame, the first air outlet penetrates through the front portion of the face frame forwards and penetrates through the bottom of the face frame downwards, and a second air outlet is formed in at least one of the left side of the face frame and the right side of the face frame;

a non-wind-sensing member movably provided at a front side of the face frame between a first position and a second position, the non-wind-sensing member including a first panel;

the heat exchanger and the fan are arranged in the face frame;

when the non-wind sensing component is located at the first position, the first panel opens the first air outlet;

when the non-wind-sensing component is located at the second position, the first panel closes the first air outlet.

2. An indoor unit of an air conditioner according to claim 1, wherein the non-wind-feeling member is provided on a front side of the face frame so as to be movable up and down between the first position and the second position.

3. An indoor unit of an air conditioner according to claim 1, wherein a portion of the first panel facing the first outlet is formed with an air diffusing structure when the non-airflow-sensing member is located at the second position.

4. An indoor unit of an air conditioner according to claim 1, wherein a second panel is provided at an upper end of the face frame and is located at a front side of the face frame, a housing chamber is defined between the second panel and the face frame, and at least a part of the first panel is located in the housing chamber when the no-wind-sensing member is located at the second position.

5. An indoor unit of an air conditioner according to claim 4, wherein the first panel includes an air outlet portion, the air outlet portion is formed with an air dispersing structure, and the air outlet portion is opposed to the first air outlet when the non-airflow sensing member is located at the second position.

6. The indoor unit of claim 4, wherein the first panel comprises a non-air-outlet portion and an air-outlet portion connected in a vertical direction, the air-outlet portion is formed with an air-dispersing structure, the non-air-outlet portion is located above the air-outlet portion, when the non-air-sensing component is located at the second position, the air-outlet portion is opposite to the first air outlet, and the non-air-outlet portion is located in the accommodating cavity.

7. An indoor unit of an air conditioner according to claim 5 or 6, wherein the non-wind-sensation member includes a wind-dispersing module having a wind-dispersing function, and the wind-dispersing module is provided on the air-out portion and inside the air-out portion.

8. An indoor unit of an air conditioner according to claim 7, wherein the air dispersing module includes:

the mounting panel, be formed with a plurality of first ventilation holes of arranging along the left right direction on the mounting panel, the mounting panel with first panel links to each other.

9. An indoor unit of an air conditioner according to claim 8, wherein the air dispersing module includes: the air dispersing mechanism with the air dispersing function is arranged at the first ventilation hole.

10. An indoor unit of an air conditioner according to claim 9, wherein the air dispersing mechanism includes: the guide vane assembly is arranged in the first ventilation hole and comprises a static blade and a rotatable movable blade, and the static blade and the movable blade are arranged along the axial direction of the first ventilation hole.

11. An indoor unit of an air conditioner according to claim 10, wherein the movable blade is provided on a front side or a rear side of the stationary blade.

12. An indoor unit of an air conditioner according to claim 10, wherein the movable blade is provided coaxially with the stationary blade.

13. The indoor unit of an air conditioner as claimed in claim 9, wherein the air diffusing module includes a limiting plate connected to the first panel, the limiting plate is disposed at a front side of the mounting plate and connected to the mounting plate, a second vent hole opposite to and communicating with the first vent hole is formed on the limiting plate, and a receiving cavity adapted to receive the air diffusing mechanism is defined between the mounting plate and the limiting plate.

14. The indoor unit of an air conditioner according to claim 5 or 6, wherein the air outlet portion includes a first sub air outlet portion and a second sub air outlet portion connected up and down, the first sub air outlet portion and the second sub air outlet portion are both formed with the air dispersing structure, an included angle is formed between the first sub air outlet portion and the second sub air outlet portion, the air dispersing structure is arranged on the first sub air outlet portion, when the non-wind-sensing component is located at the second position, the first sub air outlet portion is located at the front side of the first air outlet, and the second sub air outlet portion is located at the bottom of the first air outlet.

15. The indoor unit of an air conditioner according to claim 5 or 6, wherein the air outlet portion comprises a first sub air outlet portion and a second sub air outlet portion which are connected up and down, the air dispersing structure is formed on each of the first sub air outlet portion and the second sub air outlet portion, an included angle is formed between the first sub air outlet portion and the second sub air outlet portion, when the non-wind-sensing component is located at the second position, the first sub air outlet portion is located at the front side of the first air outlet, and the second sub air outlet portion is located at the bottom of the first air outlet.

16. An indoor unit of an air conditioner according to claim 15, wherein an included angle between the first sub air outlet portion and the second sub air outlet portion ranges from 60 ° to 120 °.

17. An indoor unit of an air conditioner according to claim 1, wherein an air outlet channel that communicates with both the first outlet and the second outlet is provided in the face frame, and a guide portion for guiding the airflow toward the first outlet is formed on a portion of a bottom wall of the air outlet channel that is adjacent to the first outlet.

18. An indoor unit of an air conditioner according to claim 17, wherein the guide portion extends obliquely downward in a rear-to-front direction to guide a part of the airflow to a bottom of the first outlet port.

19. An air conditioning indoor unit according to claim 17, wherein an angle between the guide portion and a vertical direction is in a range of 15 to 60 °.

20. An indoor unit of an air conditioner according to claim 19, wherein a portion of the bottom wall of the air outlet channel, which is located on a side of the guide portion away from the first air outlet, is a flow guide portion, and an included angle between the guide portion and the vertical direction is smaller than an included angle between the flow guide portion and the vertical direction.

21. An air conditioning indoor unit according to claim 17, wherein the guide portion is opposed to or abuts against a bottom portion of the first panel in a front-rear direction when the no-wind-sensing member is located at the second position.

22. An indoor unit of an air conditioner as claimed in claim 1, wherein an air outlet channel is formed in the face frame and is communicated with both the first air outlet and the second air outlet, and a rotatable inner air deflector is arranged in the air outlet channel.

23. The indoor unit of claim 22, wherein the indoor unit has a heating mode and a cooling mode, and when the non-air-sensing member is in the first position and the indoor unit is in the cooling mode, an included angle between the inner air deflector and a horizontal plane ranges from 0 ° to 45 °; when the non-wind-sensing component is located at the first position and the indoor unit of the air conditioner is in the heating mode, the included angle between the inner wind deflector and the horizontal plane ranges from 45 degrees to 90 degrees.

24. An indoor unit of an air conditioner according to claim 22, wherein the length of the inner air guide plate in the air outlet direction of the first air outlet is adjustable.

25. An air conditioning indoor unit according to claim 24, wherein when the non-airflow sensing member is located at the first position, the length of the inner air deflector in the air outlet direction of the first outlet is L1, and when the non-airflow sensing member is located at the second position, the length of the inner air deflector in the air outlet direction of the first outlet is L2, and the length of L2 is smaller than the length of L1.

26. An indoor unit of an air conditioner according to claim 24, wherein the inner air guiding plate includes a first sub-inner air guiding plate and a second sub-inner air guiding plate, the first sub-inner air guiding plate is rotatably connected to the inner wall of the outlet air channel, and the second sub-inner air guiding plate is movably disposed on the first sub-inner air guiding plate to adjust the length of the inner air guiding plate in the outlet air direction of the first outlet.

27. An indoor unit of an air conditioner according to claim 26, wherein the second sub inner air guiding plate is slidable or rotatable with respect to the first sub inner air guiding plate.

28. An indoor unit of an air conditioner according to claim 27, wherein a sliding chamber is provided in the first sub inner air guiding plate, and the second sub inner air guiding plate is slidably provided in the sliding chamber.

29. An indoor unit of an air conditioner according to claim 1, wherein an air outlet passage communicating with both the first air outlet and the second air outlet is provided in the face frame, and when the non-airflow sensing member is located at the first position, the bottom of the first panel is adapted to abut against a top wall of the air outlet passage.

30. An air conditioning indoor unit according to claim 1, wherein a driving mechanism for driving the movement of the non-airflow-sensing member includes:

the motor is arranged on a chassis or a face frame of the indoor unit of the air conditioner;

the gear is connected with an output shaft of the motor;

the rack is arranged on the no-wind-sensation component and extends along the vertical direction, and the rack is suitable for being meshed with the gear.

31. An indoor unit of an air conditioner according to claim 30, wherein the rack is provided on the first panel, and the rack is detachably connected to the first panel, or the rack is integrally formed with the first panel.

32. An indoor unit of an air conditioner according to claim 30, wherein a first guide rail is provided on one of the base plate and the non-airflow-sensing member, and a second guide rail that engages with the first guide rail is provided on the other of the base plate and the non-airflow-sensing member; or a first guide rail is arranged on one of the face frame and the non-wind-sensing part, and a second guide rail matched with the first guide rail is arranged on the other one of the face frame and the non-wind-sensing part.

33. An indoor unit of an air conditioner according to claim 32, wherein a motor mount is provided on the base plate, the motor is provided on the motor mount, the first rail is provided on the motor mount, and the second rail is provided on the rack.

34. An indoor unit of an air conditioner according to claim 33, wherein the motor mount is formed with a fitting chamber opened at a front side, at least a part of the gear is located in the fitting chamber, a part of the rack extends into the fitting chamber and is engaged with the gear, the second guide rail includes guide grooves formed on left and right side walls of the rack, the first guide rail includes guide protrusions formed on left and right side walls of an opened end of the fitting chamber, and each of the guide protrusions is fitted in the corresponding guide groove and is slidable up and down with respect to the guide groove.

35. An indoor unit of an air conditioner according to claim 30, wherein the rack includes a rack holder, a surface of the rack holder facing the gear has a toothed portion extending in an up-down direction and a non-toothed portion adapted to mesh with the gear, the non-toothed portion being located on at least one side in a longitudinal direction of the toothed portion.

36. An air conditioner, comprising: the indoor unit of an air conditioner according to any one of claims 1 to 35.

Images