CN212869987U

CN212869987U - Air conditioner

Info

Publication number: CN212869987U
Application number: CN202021914207.7U
Authority: CN
Inventors: 毛灵; 杨林; 周鑫
Original assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Current assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2021-04-02
Anticipated expiration: 2030-09-04

Abstract

The utility model provides an air conditioner, which comprises a shell, a heat exchanger and a cross-flow fan blade component, wherein the heat exchanger and the cross-flow fan blade component are arranged in the shell; an upper air inlet and a lower air inlet are respectively arranged at two ends of the shell in the vertical direction, one end of the shell in the width direction is suitable for being connected with a mounting surface, and a front air outlet is arranged at the other end of the shell in the width direction; the heat exchanger is positioned between the upper air inlet and the lower air inlet and between one end of the shell connected with the mounting surface and the cross-flow fan blade assembly. The utility model discloses an air conditioner is through being located the upper end and the lower extreme department of heat exchanger respectively with lower air intake on going up the air intake for the air current that gets into from last air intake blows to the upper end of heat exchanger, blows to the lower extreme of heat exchanger from the air current that the air intake got into down, guarantees that the upper and lower both ends of heat exchanger can both carry out the heat exchange with the air current that gets into, has improved the utilization ratio and the heat transfer effect of heat exchanger effectively.

Description

Air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air conditioner.

Background

At present, a hanging air conditioner usually has an air inlet at the upper end of the casing to realize air intake. The evaporator in the hanging air conditioner has a certain length, and air inlet is realized only through one air inlet, so that the evaporator is easily not fully utilized, and the heat exchange effect of the evaporator is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be: how to improve the utilization ratio and the heat exchange effect of an evaporator in an air conditioner.

In order to solve the problems, the utility model provides an air conditioner, which comprises a shell, a heat exchanger and a cross-flow fan blade assembly, wherein the heat exchanger and the cross-flow fan blade assembly are arranged in the shell; an upper air inlet and a lower air inlet are respectively arranged at two ends of the shell in the vertical direction, one end of the shell in the width direction is suitable for being connected with a mounting surface, and a front air outlet is arranged at the other end of the shell in the width direction; the heat exchanger is positioned between the upper air inlet and the lower air inlet and between one end of the shell connected with the mounting surface and the cross-flow fan blade assembly.

Therefore, the upper air inlet and the lower air inlet are arranged, so that air can be fed to the upper end and the lower end of the air conditioner, the air inlet area of the air conditioner is increased, and the heat exchange effect of the heat exchanger is improved; meanwhile, the upper air inlet and the lower air inlet are respectively positioned at the upper end and the lower end of the heat exchanger, so that the air flow entering from the upper air inlet is blown to the upper end of the heat exchanger, the air flow entering from the lower air inlet is blown to the lower end of the heat exchanger, the upper end and the lower end of the heat exchanger can exchange heat with the entering air flow and are blown out from the front air outlet, and the utilization rate and the heat exchange effect of the heat exchanger are effectively improved.

Optionally, the cross-flow fan assembly includes a first cross-flow fan, a second cross-flow fan, and a fan motor, the fan motor is disposed between the first cross-flow fan and the second cross-flow fan, and the fan motor, the first cross-flow fan, and the second cross-flow fan are coaxially disposed.

Therefore, the air output of the cross-flow fan blade assembly can be increased by arranging the two cross-flow fan blades, and the heat exchange effect of the heat exchanger is further improved; and two through-flow fan blades and the coaxial fan blade motor are arranged coaxially, so that the two through-flow fan blades can rotate coaxially and synchronously, the rotation of the two through-flow fan blades is more stable, and the shaking is not easy to occur.

Optionally, the blade motor is located in the middle of the housing, and the first cross-flow blade and the second cross-flow blade are symmetrically arranged with respect to the blade motor.

Therefore, the two cross-flow fan blades are symmetrically arranged to simplify the structure of the cross-flow fan blade assembly, and the production and the manufacture are convenient.

Optionally, a side air outlet is further formed in the shell, and the side air outlet is located at an end of the shell in the length direction.

Therefore, on the basis of arranging the front air outlet, the side air outlet is additionally arranged, so that the side end of the air conditioner can also exhaust air, multi-direction and wide-angle air supply is realized, the air blown out by the air conditioner forms circulating convection indoors, and the comfort of the air conditioner in use is improved; moreover, the air outlet area of the air conditioner is increased, so that the air conditioner is suitable for providing larger air outlet quantity, the heating or refrigerating effect of the air conditioner is improved, and the use experience of a user is improved; simultaneously, the air-out mode of air conditioner has been richened for the air-out direction and the angle of air conditioner are wider, have reduced the air-out dead angle of air conditioner, have further promoted user's use and have experienced.

Optionally, the air conditioner further comprises a front air guide mechanism and a front air guide motor which are arranged at the front air outlet, and the front air guide motor is suitable for driving the front air guide mechanism to rotate so as to adjust the air outlet angle at the front air outlet.

Like this, through wind guiding mechanism before air outlet department sets up and preceding wind motor realizes the regulation of preceding air outlet department air outlet angle in the front to guarantee that the wind that blows off from the front air outlet can blow to indoor with different angles, make preceding air outlet have different air outlet angles, the air outlet angle of air outlet before the user adjusts as required of being convenient for avoids the air-out directly to blow to the user, thereby travelling comfort when guaranteeing to wind.

Optionally, the air conditioner further comprises a side air guide mechanism and a side air guide motor which are arranged at the side air outlet, wherein the side air guide motor is suitable for driving the side air guide mechanism to rotate so as to adjust the air outlet angle at the side air outlet.

Like this, through set up side wind guiding mechanism and side wind motor in side air outlet department and realize the regulation of side air outlet department air outlet angle to guarantee that the wind energy that blows off from the side air outlet can blow to indoor with different angles, make the side air outlet have different air outlet angles, the user of being convenient for adjusts the air outlet angle of side air outlet as required, avoids the air-out directly to blow to the user, thereby travelling comfort when guaranteeing to wind.

Optionally, the front wind guide motor and the side wind guide motor are arranged in parallel.

Like this, preceding air guide motor forms independent control with side air guide motor, and then makes preceding air guide mechanism and side air guide mechanism can independent control to the air-out angle of air outlet and side air outlet before the user adjusts alone has improved the flexibility of adjusting air conditioner air-out angle greatly.

Optionally, the air conditioner further comprises a diversion mechanism, wherein the diversion mechanism is arranged at an air duct intersection between the side air outlet and the front air outlet and is suitable for opening or closing the side air outlet.

In this way, the diversion mechanism is arranged at the air duct turnout between the side air outlet and the front air outlet, and the diversion mechanism is used for controlling the opening or closing of the side air outlet so as to realize the active air supply of the side air outlet and further realize the independent air supply, so that the side air outlet of the air conditioner has selectivity and controllability, the air outlet mode of the air conditioner is enriched, a user can conveniently select a one-way air outlet or multi-way air supply mode according to the actual requirement, and the satisfaction degree of the user is improved; and the diversion mechanism is arranged at the air duct fork opening between the front air outlet and the side air outlet instead of the plane of the side air outlet, so that the diversion mechanism can also divert the air flow under the action of controlling the opening or closing of the side air outlet, so that the air flow can be better blown out from the front air outlet and/or the side air outlet, and the air output and the air outlet effect of the air conditioner are improved.

Optionally, the flow guide mechanism includes a first flow guide structure and a second flow guide structure, and the side air outlet includes a left air outlet and a right air outlet respectively disposed at two ends of the housing in the length direction; the first flow guide structure is arranged at an air duct intersection between the left air outlet and the front air outlet, and the second flow guide structure is arranged at an air duct intersection between the right air outlet and the front air outlet.

Like this, through setting up first water conservancy diversion structure and second water conservancy diversion structure in order to realize opening or closing of left air outlet and right air outlet for the side air-out of air conditioner has the selectivity, so that the user selects one-way air supply or multidirectional air supply mode according to actual need.

Optionally, the air guide mechanism further comprises a first air guide motor and a second air guide motor; the first diversion motor is suitable for driving the first diversion structure to open or close the left air outlet, and the second diversion motor is suitable for driving the second diversion structure to open or close the right air outlet; and the first diversion motor and the second diversion motor are arranged in parallel.

Like this, first water conservancy diversion motor and the parallelly connected setting of second water conservancy diversion motor make first water conservancy diversion structure and second water conservancy diversion structure can independent control, left air outlet and right air outlet can open or close simultaneously this moment, also can be that one in left air outlet and the right air outlet is opened, another is closed, make the multidirectional of air conditioner, wide area air-out has the optional, controllable advantage, be convenient for the user according to actual need selects to open or close one or two in left air outlet and the right air outlet, in order to realize the demand of one-way air supply or multidirectional air supply, the application scope of air conditioner has been improved.

Drawings

Fig. 1 is a schematic structural view of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an air conditioner according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the air conditioner according to the embodiment of the present invention when the air guiding mechanism is closed;

fig. 4 is a schematic structural view of the air conditioner according to the embodiment of the present invention when the diversion mechanism is opened.

Description of reference numerals:

1-shell, 11-upper air inlet, 12-lower air inlet, 13-front air outlet, 14-side air outlet, 141-left air outlet, 142-right air outlet, 2-heat exchanger, 3-cross-flow fan blade component, 31-first cross-flow fan blade, 32-second cross-flow fan blade, 33-fan blade motor, 41-first flow guide structure, 42-second flow guide structure, 5-front air guide mechanism and 6-side air guide mechanism.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "high", "low", and the like are based on the directions or positional relationships shown in the drawings, and a coordinate system XYZ is provided herein, in which the forward direction of the X axis represents the front, the backward direction of the X axis represents the rear, the forward direction of the Y axis represents the right, the backward direction of the Y axis represents the left, the forward direction of the Z axis represents the upper, and the backward direction of the Z axis represents the lower; this is merely for convenience in describing the invention and to simplify the description, and is not intended to indicate or imply that the device referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be considered limiting of the invention.

With reference to fig. 1 to 4, an embodiment of the present invention provides an air conditioner, which includes a casing 1, a heat exchanger 2 disposed in the casing 1, and a cross-flow fan blade assembly 3; an upper air inlet 11 and a lower air inlet 12 are respectively arranged at two ends of the shell 1 in the vertical direction, one end of the shell 1 in the width direction is suitable for being connected with a mounting surface, and a front air outlet 13 is arranged at the other end of the shell 1 in the width direction; the heat exchanger 2 is positioned between the upper air inlet 11 and the lower air inlet 12 and between one end of the shell 1 connected with the mounting surface and the cross-flow fan blade assembly 3.

In the embodiment, the upper air inlet 11 and the lower air inlet 12 are arranged, so that air can be fed to the upper end and the lower end of the air conditioner, the air inlet area of the air conditioner is increased, and the heat exchange effect of the heat exchanger 2 is improved; meanwhile, the upper air inlet 11 and the lower air inlet 12 are respectively located at the upper end and the lower end of the heat exchanger 2, so that the air flow entering from the upper air inlet 11 is blown to the upper end of the heat exchanger 2, the air flow entering from the lower air inlet 12 is blown to the lower end of the heat exchanger 2, the upper end and the lower end of the heat exchanger 2 can exchange heat with the entering air flow and are blown out from the front air outlet, and the utilization rate and the heat exchange effect of the heat exchanger 2 are effectively improved.

Specifically, the casing 1 of the air conditioner is used for protecting and arranging parts such as a heat exchanger 2, a cross-flow fan blade assembly 3 and the like in the casing. Two ends of the shell 1 in the width direction are respectively the front end and the rear end of the shell 1, wherein the width direction of the shell 1 refers to the X-axis direction in fig. 1; the front end of the casing 1 (i.e. the end of the casing 1 located in the positive direction of the X axis in fig. 1) is provided with a front air outlet 13, and the rear end of the casing 1 (i.e. the end of the casing 1 located in the negative direction of the X axis in fig. 1) is adapted to be directly connected with a mounting surface (such as a wall surface) or connected through a bracket, so as to mount the air conditioner on the wall surface. The two ends of the shell 1 in the vertical direction are respectively the upper end and the lower end of the shell 1, wherein the vertical direction of the shell 1 refers to the direction of the Z axis in fig. 1; an upper air inlet 11 is formed at the upper end of the casing 1 (i.e., the end of the casing 1 located in the positive direction of the Z axis in fig. 1), and a lower air inlet 12 is formed at the lower end of the casing 1 (i.e., the end of the casing 1 located in the negative direction of the Z axis in fig. 1). Through setting up last air intake 11 and lower air intake 12 for the upper end and the lower extreme homoenergetic of air conditioner are entered the air, have increased the air inlet area of air conditioner, have improved the heat transfer effect of heat exchanger 2. Moreover, the heat exchanger 2 is arranged between the cross-flow fan blade assembly 3 and the rear end of the shell 1, the upper end of the heat exchanger 2 is close to the upper air inlet 11, the lower end of the heat exchanger 2 is close to the lower air inlet 12, so that the air flow entering from the upper air inlet 11 is blown to the upper end of the heat exchanger 2, the air flow entering from the lower air inlet 12 is blown to the lower end of the heat exchanger 2, the upper end and the lower end of the heat exchanger 2 can exchange heat with the entering air flow and are blown out from the front air outlet, and the utilization rate and the heat exchange effect of the heat.

Optionally, as shown in fig. 3, the cross-flow fan assembly 3 includes a first cross-flow fan 31, a second cross-flow fan 32, and a fan motor 33, where the fan motor 33 is disposed between the first cross-flow fan 31 and the second cross-flow fan 32, and the fan motor 33, the first cross-flow fan 31, and the second cross-flow fan 32 are coaxially disposed. Therefore, the air output of the cross-flow fan blade assembly 3 can be increased by arranging the two cross-flow fan blades, and the heat exchange effect of the heat exchanger 2 is further improved; and two through-flow fan blades and the coaxial setting of fan blade motor 33 can guarantee that two through-flow fan blades are coaxial and synchronous rotation for the rotation of two through-flow fan blades is more stable, is difficult to take place to rock.

Optionally, as shown in fig. 3, the blade motor 33 is located in a middle position in the housing 1, and the first through-flow blade 31 and the second through-flow blade 32 are symmetrically arranged with respect to the blade motor 33. Therefore, the two cross-flow fan blades are symmetrically arranged to simplify the structure of the cross-flow fan blade assembly 3, and the production and the manufacture are convenient.

Optionally, as shown in fig. 1 and fig. 3, a side air outlet 14 is further provided on the housing 1, and the side air outlet 14 is located at an end of the housing 1 in the length direction.

In this embodiment, two ends of the housing 1 in the length direction are respectively a left end and a right end of the housing 1, wherein the length direction of the housing 1 refers to the Y-axis direction in fig. 1; the left end of the housing 1 (i.e. the end of the housing 1 located in the opposite direction of the Y axis in fig. 1) and/or the right end of the housing 1 (i.e. the end of the housing 1 located in the forward direction of the Y axis in fig. 1) is provided with a side air outlet 14. That is, the side outlet 14 may be provided only at the left end of the casing 1, only at the right end of the casing 1, and both the left end and the right end of the casing 1. On the basis of the arrangement of the front air outlet 13, the side air outlet 14 is additionally arranged, so that the side end of the air conditioner can also exhaust air, multi-direction and wide-angle air supply is realized, the air blown out by the air conditioner forms circulating convection indoors, and the comfort of the air conditioner in use is improved; moreover, the air outlet area of the air conditioner is increased, so that the air conditioner is suitable for providing larger air outlet quantity, the heating or refrigerating effect of the air conditioner is improved, and the use experience of a user is improved; meanwhile, the air outlet mode of the air conditioner is enriched, the air outlet direction and the angle of the air conditioner are wider, the air outlet dead angle of the air conditioner is reduced (namely the position where the air flow blown out by the air conditioner cannot directly reach), and the use experience of a user is further improved.

Optionally, as shown in fig. 3, the air conditioner further includes a front guiding fan mechanism 5 and a front guiding fan motor disposed at the front air outlet 13, and the front guiding fan mechanism is adapted to drive the front guiding fan mechanism 5 to rotate so as to adjust an air outlet angle at the front air outlet 13. So, wind guiding mechanism 5 and preceding wind motor realize the regulation of preceding air outlet 13 department air-out angle through air outlet 13 department before setting up in the front to guarantee that the wind that blows off from preceding air outlet 13 can blow to indoor with different angles, make preceding air outlet 13 have different air-out angles, the air-out angle of air outlet 13 before the user adjusts as required of being convenient for avoids the air-out directly to blow to the user, thereby travelling comfort when guaranteeing to wind.

Optionally, as shown in fig. 4, the air conditioner further includes a side air guiding mechanism 6 disposed at the side air outlet 14, and a side air guiding motor adapted to drive the side air guiding mechanism 6 to rotate so as to adjust an air outlet angle at the side air outlet 14. So, through set up side wind guiding mechanism 6 and side air guide motor and realize the regulation of the air-out angle of side air outlet 14 department in side air outlet 14 department, enough blow to indoor with different angles from the wind energy that side air outlet 14 blew off in order to guarantee, make side air outlet 14 have different air-out angles, the user of being convenient for adjusts the air-out angle of side air outlet 14 as required, avoids the air-out directly to blow to the user, thereby travelling comfort when guaranteeing to wind.

Optionally, the front wind guide motor and the side wind guide motor are arranged in parallel. So, preceding air guide motor forms independent control with side air guide motor, and then makes preceding air guide mechanism 5 and side air guide mechanism 6 can independent control to the air-out angle of air outlet 13 and side air outlet 14 before the user adjusts alone has improved the flexibility of adjusting air conditioner air-out angle greatly.

Optionally, as shown in fig. 3 and 4, the air conditioner further includes a diversion mechanism disposed at the air duct intersection between the side air outlet 14 and the front air outlet 13, and adapted to open or close the side air outlet 14.

In this embodiment, the air duct corresponding to the side air outlet 14 (i.e., the air duct communicated with the side air outlet 14) intersects with the air duct corresponding to the front air outlet 13 (i.e., the air duct communicated with the front air outlet 13), and the air duct intersection between the side air outlet 14 and the front air outlet 13 refers to the position where the two air ducts intersect, that is, the air duct intersection between the left air outlet 141 (described later) and the front air outlet 13 refers to the intersection position of the air duct corresponding to the left air outlet 141 and the air duct corresponding to the front air outlet 13, and the air duct intersection between the right air outlet 142 (described later) and the front air outlet 13 refers to the intersection position of the air duct corresponding to the right air outlet 142 and the air duct corresponding to the front air outlet 13. The diversion mechanism is arranged at an air duct intersection between the side air outlet 14 and the front air outlet 13 and is used for controlling the opening or closing of the side air outlet 14, and when the side air outlet 14 of the air conditioner is closed, the air flow in the shell 1 is only blown out from the front air outlet 13; when the side outlet 14 of the air conditioner is opened, the airflow in the casing 1 is blown out together from the front outlet 13 and the side outlet 14. Thus, the diversion mechanism is arranged at the side air outlet 14, and the diversion mechanism is utilized to control the opening or closing of the side air outlet 14 so as to realize active air supply of the side air outlet 14 and further realize independent air supply, so that the side air outlet of the air conditioner has selectivity and controllability, the air outlet mode of the air conditioner is enriched, a user can conveniently select a one-way air outlet mode or a multi-way air supply mode according to actual needs, and the satisfaction degree of the user is improved; moreover, the diversion mechanism is arranged at the air duct intersection between the front air outlet 13 and the side air outlet 14 instead of the plane of the side air outlet 14, so that the diversion mechanism can also divert the air flow under the effect of controlling the side air outlet 14 to be opened or closed, so that the air flow can be better blown out from the front air outlet 13 and/or the side air outlet 14, and the air output and the air outlet effect of the air conditioner are improved.

Optionally, as shown in fig. 4, the flow guiding mechanism includes a first flow guiding structure 41 and a second flow guiding structure 42, and the side air outlet 14 includes a left air outlet 141 and a right air outlet 142 respectively disposed at two ends of the housing 1 in the length direction; the first flow guiding structure 41 is disposed at an air duct intersection between the left air outlet 141 and the front air outlet 13, and the second flow guiding structure 42 is disposed at an air duct intersection between the right air outlet 142 and the front air outlet 13.

In this embodiment, the first flow guiding structure 41 is disposed at the air duct intersection between the left air outlet 141 and the front air outlet 13, the second flow guiding structure 42 is disposed at the air duct intersection between the right air outlet 142 and the front air outlet 13, and the first flow guiding structure 41 and the second flow guiding structure 42 are disposed to open or close the left air outlet 141 and the right air outlet 142, so that the side air outlet of the air conditioner is selectable, and a user can select a unidirectional air supply or a multidirectional air supply manner according to actual needs.

Optionally, the air guiding mechanism further comprises a first air guiding motor and a second air guiding motor; the first diversion motor is suitable for driving the first diversion structure 41 to open or close the left air outlet 141, and the second diversion motor is suitable for driving the second diversion structure 42 to open or close the right air outlet 142; and the first diversion motor and the second diversion motor are arranged in parallel.

The first diversion motor and the second diversion motor can be arranged in parallel or in series, when the first diversion motor and the second diversion motor are arranged in series, the first diversion structure 41 and the second diversion structure 42 are synchronously controlled, and at the moment, the left air outlet 141 and the right air outlet 142 are simultaneously opened or closed; when the first guide motor and the second guide motor are arranged in parallel, the first guide structure 41 and the second guide structure 42 are independently controlled, and at this time, the left air outlet 141 and the right air outlet 142 can be opened or closed simultaneously, or one of the left air outlet 141 and the right air outlet 142 is opened and the other is closed. Preferably, first water conservancy diversion motor and second water conservancy diversion motor parallel arrangement in this implementation for the multidirectional of air conditioner, wide area air-out have optional, controllable advantage, and the user of being convenient for selects to open or close one or two in left air outlet 141 and the right air outlet 142 according to actual need, with the demand that realizes one-way air supply or multidirectional air supply, has improved the application scope of air conditioner.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims

1. An air conditioner is characterized by comprising a shell (1), a heat exchanger (2) arranged in the shell (1) and a cross-flow fan blade assembly (3); an upper air inlet (11) and a lower air inlet (12) are respectively arranged at two ends of the shell (1) in the vertical direction, one end of the shell (1) in the width direction is suitable for being connected with a mounting surface, and a front air outlet (13) is arranged at the other end of the shell (1) in the width direction; the heat exchanger (2) is located between the upper air inlet (11) and the lower air inlet (12) and located between one end, connected with the mounting surface, of the shell (1) and the cross-flow fan blade assembly (3).

2. The air conditioner according to claim 1, wherein the cross-flow fan blade assembly (3) comprises a first cross-flow fan blade (31), a second cross-flow fan blade (32) and a fan blade motor (33), the fan blade motor (33) is arranged between the first cross-flow fan blade (31) and the second cross-flow fan blade (32), and the fan blade motor (33), the first cross-flow fan blade (31) and the second cross-flow fan blade (32) are coaxially arranged.

3. The air conditioner according to claim 2, wherein the fan blade motor (33) is located at a middle position in the housing (1), and the first and second through-flow fan blades (31, 32) are symmetrically arranged with respect to the fan blade motor (33).

4. The air conditioner according to any one of claims 1 to 3, wherein a side outlet (14) is further provided on the housing (1), and the side outlet (14) is located at an end of the housing (1) in a length direction.

5. The air conditioner as claimed in claim 4, further comprising a front wind guiding mechanism (5) and a front wind guiding motor arranged at the front wind outlet (13), wherein the front wind guiding motor is adapted to drive the front wind guiding mechanism (5) to rotate so as to adjust the wind outlet angle at the front wind outlet (13).

6. The air conditioner as claimed in claim 5, further comprising a side air guiding mechanism (6) and a side air guiding motor arranged at the side air outlet (14), wherein the side air guiding motor is adapted to drive the side air guiding mechanism (6) to rotate so as to adjust the air outlet angle at the side air outlet (14).

7. The air conditioner of claim 6, wherein said front wind guide motor and said side wind guide motor are arranged in parallel.

8. The air conditioner according to claim 4, characterized in that it further comprises a flow guide mechanism arranged at the air duct junction between said side outlet mouth (14) and said front outlet mouth (13) and adapted to open or close said side outlet mouth (14).

9. The air conditioner according to claim 8, wherein the flow guide mechanism comprises a first flow guide structure (41) and a second flow guide structure (42), and the side outlet (14) comprises a left outlet (141) and a right outlet (142) respectively provided at both ends of the housing (1) in a length direction thereof; the first flow guide structure (41) is arranged at an air duct intersection between the left air outlet (141) and the front air outlet (13), and the second flow guide structure (42) is arranged at an air duct intersection between the right air outlet (142) and the front air outlet (13).

10. The air conditioner of claim 9, wherein the guide mechanism further comprises a first guide motor and a second guide motor; the first diversion motor is suitable for driving the first diversion structure (41) to open or close the left air outlet (141), and the second diversion motor is suitable for driving the second diversion structure (42) to open or close the right air outlet (142); and the first diversion motor and the second diversion motor are arranged in parallel.