CN220062082U - Air deflector assembly, air conditioner indoor unit and air conditioner - Google Patents

Abstract

The utility model discloses an air deflector assembly, an air conditioner indoor unit and an air conditioner, wherein the air deflector assembly comprises a first air deflector and a second air deflector which can rotate relatively, and a plurality of first air dispersing holes are formed in the first air deflector; the second air guide plate is provided with a plurality of second air dispersing holes, the air guide plate assembly comprises a separation state and a matching state, the separation state is that the first air guide plate and the second air guide plate are arranged at intervals in the up-down direction to limit a ventilation channel, and the matching state is that the lower end of the first air guide plate is matched with the upper end of the second air guide plate to block air flow. The air deflector assembly provided by the utility model can form the ventilation channel in a separation state, the ventilation channel can adjust the air outlet direction along with the rotation of the air deflector assembly, and the ventilation channel can play a better role in guiding air at the air outlet of the air conditioner indoor unit.

Description

Air deflector assembly, air conditioner indoor unit and air conditioner

Technical Field

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

Background

An air conditioner is an apparatus for adjusting and controlling parameters such as temperature, humidity, and flow rate of ambient air in a building or structure by manual means.

At present, some air conditioners in the related art have a default air outlet mode of air outlet through an air outlet, when the air conditioner is in the default air outlet mode, the adjustment of the air outlet direction of the indoor unit of the air conditioner is realized by rotating an air deflector arranged at the air outlet, however, in the related art, the guiding effect of the air deflector on the air at the air outlet is poor, so that the adjusting effect of the air outlet direction is limited.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the air deflector assembly, a ventilation channel can be formed in a separation state, the ventilation channel can adjust the air outlet direction along with the rotation of the air deflector assembly, and the ventilation channel can play a better role in guiding air at the air outlet of the air conditioner indoor unit.

The utility model also provides an air conditioner indoor unit with the air deflector assembly.

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

According to the air deflector assembly provided by the embodiment of the utility model, the air deflector assembly comprises a first air deflector and a second air deflector which can rotate relatively, and a plurality of first air dispersing holes are formed in the first air deflector; the second air guide plate is provided with a plurality of second air dispersing holes, the air guide plate assembly comprises a separation state and a matching state, the separation state is that the first air guide plate and the second air guide plate are arranged at intervals in the up-down direction to limit a ventilation channel, and the matching state is that the lower end of the first air guide plate is matched with the upper end of the second air guide plate to block air flow.

According to the air deflector assembly provided by the embodiment of the utility model, the ventilation channel can be formed in a separation state, and can adjust the air outlet direction along with the rotation of the air deflector assembly, and the ventilation channel can play a better guiding role on the air at the air outlet of the air conditioner indoor unit so as to improve the effect of adjusting the air outlet direction of the air conditioner indoor unit. When in a matching state, the air outlet can be shielded, the air conditioner indoor unit can be in a mode without wind sensation, and user experience is improved.

In some embodiments, in the mated state, the lower end of the first air deflector and the upper end of the second air deflector are disposed opposite to each other in the front-rear direction.

In some embodiments, the first air deflector includes at least two parts of the first air dispersing holes with different extending directions; and/or the second air deflector comprises at least two second air dispersing holes with different extending directions.

In some embodiments, the air deflection assembly has a no-wind-sensation mode in which the first air deflection is in snap-fit with the second air deflection and the first air deflection is positioned below the second air deflection, a portion of the second air vents of the second air deflection extending horizontally and a portion of the second air vents extending obliquely downward; and part of the first air dispersing holes of the first air deflector extend vertically downwards, and part of the first air dispersing holes extend downwards and obliquely forwards.

In some embodiments, the range of the included angle between the extending directions of the two parts of the first air dispersing holes with different extending directions is 15-45 degrees; the included angle of the extending directions between the two parts of the second air dispersing holes with different extending directions is 15-45 degrees.

In some embodiments, two ends of the first air deflector in the length direction are respectively provided with a first end plate and a second end plate, the first end plate is connected with a first driving shaft, and the second end plate is provided with a first avoidance hole; a third end plate and a fourth end plate are respectively arranged at two ends of the second air deflector in the length direction, the third end plate is provided with a second avoidance hole, and the fourth end plate is provided with a second driving shaft; the first driving shaft penetrates through the second avoiding hole, and the second driving shaft penetrates through the first avoiding hole.

In some embodiments, the air deflection assembly further includes a drive module for driving rotation of the first drive shaft and the second drive shaft, respectively.

According to an embodiment of the utility model, an indoor unit of an air conditioner comprises: the air conditioner comprises a machine shell, wherein a first air outlet air duct and a second air outlet air duct are arranged in the machine shell, the inlet end of the first air outlet air duct is communicated with the second air outlet air duct, the first air outlet air duct is provided with a first air outlet, the second air outlet air duct is provided with a second air outlet, the first air outlet is positioned above the second air outlet, at least one part of a front panel of the machine shell is provided with a plurality of third air dispersing holes communicated with the first air outlet air duct, and at least one part of the third air dispersing holes extend obliquely upwards or horizontally; the air deflector assembly is rotatably arranged on the shell and is the air deflector assembly in the technical scheme; the driving module is connected with the first air deflector and the second air deflector respectively to drive the first air deflector and the second air deflector to rotate.

In some embodiments, the plurality of third air vents are located in a lower portion of the front panel.

In some embodiments, the first air deflector may rotate until the inlet end of the first air outlet duct is opposite to or dislocated from the inlet end of the first air outlet duct.

In some embodiments, further comprising: a sensor configured to detect a position of a user in an indoor environment; the control module is respectively in communication connection with the inductor and the driving module, the indoor unit of the air conditioner is provided with a wind-shielding mode, one of the first air deflector and the second air deflector rotates to the inside of the shell so as to avoid the second air outlet, and the control module controls the driving module according to the received detection result of the inductor so that the other of the first air deflector and the second air deflector rotates to face a user.

According to an embodiment of the utility model, an air conditioner includes: the air conditioner indoor unit is characterized by comprising a base.

Additional aspects and advantages of the utility model 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 utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic view of an indoor unit of an air conditioner according to an embodiment of the present utility model;

fig. 2 is a cross-sectional view of the air conditioner indoor unit of fig. 1;

FIG. 3 is a schematic structural view of an air guiding assembly;

FIG. 4 is a schematic view of the structure of the first air deflector;

FIG. 5 is a schematic view of a structure of a second air deflector;

FIG. 6 is a schematic structural view of the first drive shaft and the second drive shaft;

FIG. 7 is a schematic diagram of a non-windage mode of an indoor unit of an air conditioner;

FIG. 8 is a schematic diagram of a cooling and air-out mode of an indoor unit of an air conditioner;

FIG. 9 is a schematic diagram of an indoor machine heating air outlet mode of an air conditioner;

fig. 10 is a schematic view of a multi-strand air mode of an indoor unit of an air conditioner.

Reference numerals: 100. an air conditioner indoor unit; 1. a housing; 11. the first air outlet duct; 12. the second air outlet duct; 121. an air inlet; 13. a first exhaust outlet; 14. a second exhaust outlet; 15. a face frame; 16. a front panel; 161. a third air vent; 2. an air deflector assembly; 21. a first air deflector; 211. a first end plate; 212. a second end plate; 213. a first drive shaft; 214. a first avoidance hole; 215. a first air vent; 216. a first flat port; 22. a second air deflector; 221. a third end plate; 222. a fourth end plate; 223. a second drive shaft; 224. a second avoidance hole; 225. the second air dispersing holes; 226. a second flat port; 3. a heat exchanger; 4. and a wind wheel.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The utility model provides an air deflector assembly which is applied to an air conditioner indoor unit of an air conditioner. The air conditioner can be an integral air conditioner or a split air conditioner, and when the air conditioner is a split air conditioner, the air conditioner indoor unit can be a vertical indoor unit or a wall-mounted indoor unit.

The air deflection assemblies 2 according to embodiments of the present utility model are described below with reference to fig. 1-10.

Referring to fig. 1, 2 and 3, the air conditioner indoor unit 100 includes a cabinet 1, and an air duct having an air inlet 121 and an air outlet is defined in the cabinet 1. The air deflector assembly 2 provided by the utility model is applied to an air outlet of an air conditioner indoor unit 100. According to the air deflection assembly 2 of the embodiment of the present utility model, the air deflection assembly 2 is adapted to be rotatably mounted to the enclosure 1 such that the air deflection assembly 2 has a plurality of operating positions.

Referring to fig. 8 and 9, the air deflection assembly 2 includes a first air deflection 21 and a second air deflection 22 that are rotatable relative to each other. The air deflection assembly 2 includes a separated state in which the first air deflection 21 and the second air deflection 22 are spaced apart in the up-down direction to define a ventilation passage, and a mated state in which the lower end of the first air deflection 21 mates with the upper end of the second air deflection 22 to block the air flow.

When the air deflector assembly 2 is in a separated state, the two opposite sides of the ventilation channel are suitable for being respectively connected with the air channel in the casing 1 and the indoor environment outside the casing 1, and the air outlet direction of the air outlet is the direction of the ventilation channel extending from the side of the air channel to the indoor side under the guidance of the ventilation channel. When the air outlet direction of the air outlet needs to be adjusted, the air deflector assembly 2 is driven to rotate relative to the machine shell 1 so as to adjust the relative positions of the ventilation channel and the air outlet, and therefore different air outlet directions are obtained.

Referring to fig. 2, when the air deflection assembly 2 is in the mated state, the lower end of the first air deflection 21 is mated with the upper end of the second air deflection 22 to block the air outlet, so as to block the air outlet.

The first air deflector 21 is provided with a plurality of first air diffusing holes 215, and the second air deflector 22 is provided with a plurality of second air diffusing holes 225.

Referring to fig. 7, the air conditioning indoor unit 100 having the air deflection assembly 2 of the embodiment of the present utility model may have a non-sensing air outlet mode in which the air deflection assembly 2 is in a mated state to block the air outlet, and the air conditioning air outlet may be discharged into the room through the first air vent 215 and the second air vent 225.

According to the air deflection assembly 2 provided by the embodiment of the utility model, the ventilation channel can be formed in a separation state, the ventilation channel can adjust the air outlet direction along with the rotation of the air deflection assembly 2, and the ventilation channel can play a better role in guiding the air at the air outlet so as to improve the effect of adjusting the air outlet direction of the air conditioner indoor unit 100. In the matching state, the air outlet can be shielded, the air conditioner indoor unit 100 can have a mode without wind sensation, and the user experience is improved.

Referring to fig. 1, 2 and 3, in some embodiments, when the air deflection assemblies 2 are in a mated state, the lower ends of the first air deflection 21 abut against the upper ends of the second air deflection 22 for capping the air outlets. When the indoor unit 100 of the air conditioner is stopped, the air deflector assembly 2 can be driven to move to a matched state, so that the lower end of the first air deflector 21 is abutted with the upper end of the second air deflector 22 to cover the air outlet. Thus, when the air conditioning indoor unit 100 is idle, dust or mice or insects can be prevented from entering the air duct, so that the working performance of the air conditioning indoor unit 100 is ensured.

Referring to fig. 1, 2 and 3, in some embodiments, the lower end of the first air deflection 21 and the upper end of the second air deflection 22 are disposed opposite in the front-rear direction in the mated state. So as to shade the gap between the first air deflector 21 and the second air deflector 22, thereby being beneficial to improving the appearance aesthetic degree of the indoor unit 100 of the air conditioner when the indoor unit is shut down.

Referring to fig. 7, in some embodiments, the first air deflection 21 includes at least two first air diffusing holes 215 that extend in different directions.

When the air conditioner air outlet is discharged indoors through the plurality of first air dispersing holes 215 on the first air deflector 21, at least part of the first air dispersing holes 215 are different from the extending directions of other parts of the first air dispersing holes 215, so that the air conditioner air outlet can supply air in at least two different directions after passing through the first air deflector 21. Through the above technical scheme, the air outlet direction of the air outlet at the air outlet in the air-out mode without wind sense is increased, so that the temperature balance of different indoor areas is facilitated, the adaptability of the indoor unit 100 of the air conditioner is improved, and the user experience is improved.

Referring to fig. 7, in other embodiments, the second air deflector 22 includes at least two second air diffusing holes 225 having different extending directions.

When the air conditioner air outlet is discharged indoors through the plurality of second air dispersing holes 225 on the second air deflector 22, at least part of the second air dispersing holes 225 and other parts of the second air dispersing holes 225 have different extending directions, so that the air conditioner air outlet can supply air in at least two different directions after passing through the second air deflector 22. Through the above technical scheme, the air outlet direction of the air outlet at the air outlet in the air-out mode without wind sense is increased, so that the temperature balance of different indoor areas is facilitated, the adaptability of the indoor unit 100 of the air conditioner is improved, and the user experience is improved.

Referring to fig. 7, in still other embodiments, the first air deflector 21 includes at least two portions of first air diffusing holes 215 having different extending directions, and the second air deflector 22 includes at least two portions of second air diffusing holes 225 having different extending directions.

Through the above technical scheme, the air outlet can supply air to at least four different directions after passing through the first air deflector 21 and the second air deflector 22, so that the air outlet direction of the air outlet at the air outlet in the no-wind-sense air outlet mode is increased, the temperature balance of different indoor areas is facilitated, the adaptability of the air conditioner indoor unit 100 is improved, and the user experience is improved.

In some further embodiments, the included angle between the extending directions of the two first air diffusing holes 215 with different extending directions ranges from 15 ° to 45 °. The included angle between the extending directions of the two parts of the second air dispersing holes 225 with different extending directions is 15-45 degrees.

Because there are a plurality of air-out directions in air outlet department under the no wind sense air-out mode, through above-mentioned technical scheme, inject the contained angle between the adjacent air-out direction for the air conditioner air-out in different directions is more even, is favorable to indoor different regional temperature balance, improves the adaptability of air conditioner indoor set 100, improves user experience.

Referring to fig. 7, in some embodiments, the air deflection assemblies 2 have a non-air sensation mode, and when the air conditioning indoor unit 100 is in the non-air sensation outlet mode, the air deflection assemblies 2 are in the non-air sensation mode.

In the no-wind-sense mode, the first air guide plate 21 is in lap joint with the second air guide plate 22, the first air guide plate 21 is positioned below the second air guide plate 22, a part of second air dispersing holes 225 of the second air guide plate 22 extend horizontally, and a part of second air dispersing holes 225 extend obliquely downwards; a part of the first air vent holes 215 of the first air deflector 21 extend vertically downward and a part of the first air vent holes 215 extend obliquely downward and forward.

Referring to fig. 7, when the air-conditioning indoor unit 100 is in the non-sense air-out mode, the air-conditioning air is discharged into the room through the plurality of first air-diffusing holes 215 on the first air guide plate 21 and the plurality of second air-diffusing holes 225 on the second air guide plate 22. Because a portion of the second air-dispersing holes 225 extend horizontally, a portion of the second air-dispersing holes 225 extend obliquely downward, a portion of the first air-dispersing holes 215 extend vertically downward, a portion of the first air-dispersing holes 215 extend obliquely downward and forward, so that the air-conditioner air-out is blown at least in four different directions, at least a portion of the air-conditioner air-out is blown forward, at least a portion of the air-conditioner air-out is blown obliquely downward, at least a portion of the air-conditioner air-out is blown vertically downward, and at least a portion of the air-conditioner air-out is blown downward and forward.

Through the above technical scheme, the air outlet can supply air to at least four different directions after passing through the first air deflector 21 and the second air deflector 22, so that the air outlet direction of the air outlet at the air outlet in the no-wind-sense air outlet mode is increased, the temperature balance of different indoor areas is facilitated, the adaptability of the air conditioner indoor unit 100 is improved, and the user experience is improved.

Referring to fig. 7, in some embodiments, a portion of the first air bleed holes 215 of the first air deflector 21 extend in a first direction, a portion of the first air bleed holes 215 extend in a second direction, a portion of the second air bleed holes 225 of the second air deflector 22 extend in a third direction, and a portion of the second air bleed holes 225 extend in a fourth direction. The first direction is a vertical downward direction, the second direction is a downward and forward direction, an included angle between the first direction and the second direction is 30 degrees, the third direction is a downward inclined direction, an included angle between the third direction and the second direction is 30 degrees, the fourth direction is a horizontal forward direction, and an included angle between the fourth direction and the third direction is 30 degrees.

Referring to fig. 2 and 7, in some embodiments, the first air deflection 21 is configured to be rotatable above or below the second air deflection 22. That is, the first air deflector 21 can rotate to be staggered with the second air deflector 22, that is, the first air deflector 21 can not interfere with the second air deflector 22 when rotating, so that the first air deflector 21 can rotate above the second air deflector 22 or below the second air deflector 22, the rotation of the first air deflector 21 and the second air deflector 22 can not interfere with each other, and the rotation flexibility of the first air deflector 21 and the second air deflector 22 is improved.

Referring to fig. 1, 2 and 3, in some embodiments, the first air deflection 21 and the second air deflection 22 rotate about the same axis of rotation, and the minimum distance between the first air deflection 21 and its axis of rotation is greater than the maximum distance between the second air deflection 22 and its axis of rotation, such that the first air deflection 21 does not interfere with the second air deflection 22. Referring to fig. 2, when the indoor unit 100 is in the off state, the first air deflector 21 is located at the front side of the second air deflector 22, so that the first air deflector 21 is in overlap fit with the upper edge of the air outlet, and the gap between the first air deflector 21 and the upper edge of the air outlet is blocked, thereby improving the aesthetic property of the indoor unit 100.

Referring to fig. 4, 5 and 6, in some embodiments, the first air deflection 21 is provided with a first end plate 211 and a second end plate 212 at both ends in the length direction, respectively, the first end plate 211 is connected with a first driving shaft 213, and the second end plate 212 is provided with a first escape hole 214; the second air deflector 22 has a third end plate 221 and a fourth end plate 222 at both ends in the longitudinal direction, the third end plate 221 has a second escape hole 224, and the fourth end plate 222 has a second drive shaft 223.

Referring to fig. 3, 4 and 5, the first end plate 211 and the third end plate 221 are located at the same side, and the second end plate 212 and the fourth end plate 222 are located at the same side, in the length direction of the air deflection assembly 2. The first driving shaft 213 on the first end plate 211 is inserted into the second escape hole 224 on the third end plate 221, and the second driving shaft 223 on the fourth end plate 222 is inserted into the first escape hole 214 on the second end plate 212.

The air deflection assembly 2 further comprises a drive module adapted to drive the first drive shaft 213 and the second drive shaft 223, respectively, in rotation.

Through the above technical scheme, the driving module can respectively drive the first driving shaft 213 and the second driving shaft 223 to rotate, so that the first air deflector 21 and the second air deflector 22 can rotate independently without interference, and the flexibility of the rotation of the first air deflector 21 and the second air deflector 22 is further improved.

Referring to fig. 4, fig. 5, and fig. 6, in some embodiments, the first end plate 211 is provided with a first flat opening 216, where the first flat opening 216 may be a non-circular hole such as a rectangular hole, a pentagonal hole, a hexagonal hole, etc., and at least a part of the cross section of the first driving shaft 213 is adapted to the first flat opening 216 so that the first driving shaft 213 may drive the first air deflector 21 to rotate; the fourth end plate 222 is provided with a second flat opening 226, the second flat opening 226 may be a non-circular hole such as a rectangular hole, a pentagonal hole, a hexagonal hole, etc., and at least part of the cross section of the second driving shaft 223 is adapted to the second flat opening 226 so that the second driving shaft 223 may drive the second air deflector 22 to rotate.

In some embodiments, the driving module includes a first motor and a second motor disposed at both sides of the air conditioning indoor unit 100 in the length direction, the first motor being connected to the first driving shaft 213 for driving the first air deflector 21 to rotate, and the second motor being connected to the second driving shaft 223 for driving the second air deflector 22 to rotate.

Referring to fig. 1, 2 and 3, an air conditioner indoor unit 100 according to an embodiment of the present utility model includes: the air conditioner comprises a machine shell 1, wherein a first air outlet air channel 11 and a second air outlet air channel 12 are arranged in the machine shell 1, the inlet end of the first air outlet air channel 11 is communicated with the second air outlet air channel 12, the first air outlet air channel 11 is provided with a first air outlet 13, the second air outlet air channel 12 is provided with a second air outlet 14, and the second air outlet 14 is an air outlet in the technical scheme. The first air outlet 13 is located above the second air outlet 14. That is, the air conditioning indoor unit 100 in the embodiment of the present utility model has at least two air outlets, and the two air outlets are distributed at intervals in the vertical direction, when the air conditioner outputs air, the air in the second air outlet duct 12 can flow to the first air outlet duct 11, so that the first air outlet 13 can assist the air conditioner to output air, effectively increasing the air outlet area of the air conditioning indoor unit 100, increasing the air output of the air conditioning indoor unit 100, and improving the air conditioning effect of the air conditioning indoor unit 100.

Referring to fig. 1 and 2, at least a portion of the front panel 16 of the cabinet 1 is provided with a plurality of third air-diffusing holes 161 communicating with the first air outlet duct 11, at least a portion of the plurality of third air-diffusing holes 161 extending obliquely upward or horizontally.

The indoor unit 100 of the air conditioner according to the embodiment of the present utility model may have a non-wind-sensing air-out mode, and in the non-wind-sensing air-out mode, the air deflection assembly 2 is in a matched state to block the second air outlet 14, and the air-conditioning air-out may pass through the first air-dispersing holes 215 and the second air-dispersing holes 225. The third air discharge hole 161 and the first air discharge hole 13 are discharged into the room. The air outlet quantity of the air conditioner indoor unit 100 is increased while the air conditioner indoor unit 100 is ensured to have no wind sensing air outlet, and at least one part of the plurality of third air dispersing holes 161 extends obliquely upwards or horizontally, so that the air outlet direction of the air conditioner indoor unit 100 is increased, the temperature balance of different indoor areas is facilitated, the adaptability of the air conditioner indoor unit 100 is improved, and the user experience is improved.

The air conditioning indoor unit 100 further includes: in the above technical solution, the air deflection assembly 2 and the driving module, the air deflection assembly 2 is rotatably disposed in the casing 1. The driving module is respectively connected with the first air deflector 21 and the second air deflector 22 to drive the first air deflector 21 and the second air deflector 22 to rotate.

According to the embodiment of the utility model, the air conditioning indoor unit 100 is provided with two air outlets, the first air outlet 13 and the second air outlet 14 can simultaneously discharge air, the air outlet area of the air conditioning indoor unit 100 is effectively increased, the air outlet quantity of the air conditioning indoor unit 100 is increased, the air conditioning effect of the air conditioning indoor unit 100 is improved, the first air deflector 21 and the second air deflector 22 of the air deflector assembly 2 can be mutually matched, and the formed ventilation channel can play a better guiding role on air at the second air outlet 14 so as to improve the effect of adjusting the air outlet direction of the air conditioning indoor unit 100. In addition, the indoor unit 100 of the air conditioner provided by the embodiment of the utility model can also have a non-wind sensing mode, so that the user experience is improved.

Referring to fig. 1, 2 and 3, in some embodiments, the second air outlet duct 12 extends from the top of the casing 1 to a position where the bottom of the casing 1 faces forward, an air inlet 121 communicating with the second air outlet duct 12 is provided at the top of the casing 1, and a second air outlet 14 is provided at the position where the bottom of the casing 1 faces forward. The second air outlet duct 12 is internally provided with a heat exchanger 3 and a wind wheel 4, and the wind wheel 4 is used for inducing air flow to enter the second air outlet duct 12 from the air inlet 121 to exchange heat with the heat exchanger 3 and supply air to the indoor side.

In some embodiments, the first air outlet 13 is located at the top of the front surface of the cabinet 1.

Through the technical scheme, when the air conditioner is exhausted, part of the air conditioner is exhausted from the top of the front surface of the casing 1 through the first air outlet 13, so that the possibility that the air is directly blown to a human body when the air is exhausted through the first air outlet 13 is reduced, and the user experience is improved. And through setting up first air exit 13 in the position that just kept away from second air exit 14 top, not only increased the air output of air conditioning indoor set 100, can also increase the air supply scope of air conditioning indoor set 100, promoted the effect of adjusting the temperature of air conditioning indoor set 100 to indoor environment.

Referring to fig. 1, 2 and 3, in some embodiments, the chassis 1 includes a face frame 15 and a front panel 16, the front panel 16 is disposed on a front side of the face frame 15, and the front panel 16 is spaced from the face frame 15 to define the first air outlet duct 11. The first exhaust port 13 is formed at the top of the front panel 16, a second exhaust port 14 is defined between the lower edge of the front panel 16 and the front edge of the bottom wall of the casing 1, and an inlet end of the first air outlet duct 11 is defined between the lower edge of the front panel 16 and the bottom of the face frame 15. That is, the second air outlet 14 is spaced from the inlet end of the first air outlet duct 11 by the front panel 16, so that the air deflector assembly 2 can rotate to shield the second air outlet 14 or rotate to guide the air outlet of the second air outlet 14, and the air deflector assembly 2 can also rotate to avoid or shield the inlet end of the first air outlet duct 11.

It should be noted that, the front panel 16 and the face frame 15 are disposed at intervals, and the front panel 16 may be connected with the face frame 15 through a bracket, so that the front panel 16 and the face frame 15 define a first air outlet duct 11 therebetween; the front panel 16 may be magnetically suspended on the front side of the face frame 15 to define the first air outlet duct 11. In some embodiments, both ends of the front panel 16 in the length direction are connected to the casing 1 through brackets, so that the front panel 16 and the face frame 15 define a first air outlet duct 11 therebetween. In some embodiments, a plurality of third air vent holes 161 are located in a lower portion of the front panel 16.

Referring to fig. 1, 2, and 3, in some embodiments, a portion of the first air vents 215 of the first air deflector 21 extend in a first direction, a portion of the first air vents 215 extend in a second direction, a portion of the second air vents 225 of the second air deflector 22 extend in a third direction, and a portion of the second air vents 225 extend in a fourth direction, and a portion of the third air vents 161 of the front panel 16 extend in a fifth direction. The first direction is a vertical downward direction, the second direction is a downward and forward direction, an included angle between the first direction and the second direction is 30 degrees, the third direction is a downward inclined direction, an included angle between the third direction and the second direction is 30 degrees, the fourth direction is a horizontal and forward direction, an included angle between the fourth direction and the third direction is 30 degrees, the fifth direction is an upward and forward direction, and an included angle between the fifth direction and the fourth direction is 30 degrees.

Referring to fig. 1, 2 and 3, in some embodiments, the air deflection assembly 2 is configured to bypass or block the inlet end of the first outlet air duct 11.

Because the air deflector assembly 2 is rotatably arranged on the casing 1, the air deflector assembly 2 can rotate to avoid the inlet end of the first air outlet air duct 11, so that the air in the second air outlet air duct 12 can flow into the first air outlet air duct 11 and be discharged from the first air outlet 13, the air outlet area of the air conditioner indoor unit 100 is increased, and the air outlet of the air conditioner indoor unit 100 is increased. The air deflector assembly 2 can also rotate to shield the inlet end of the first air outlet duct 11 so as to limit the air in the second air outlet duct 12 to flow into the first air outlet duct 11, so that the indoor unit only outputs air from the second air outlet 14.

Because the air guide plate assembly 2 includes the first air guide plate 21 and the second air guide plate 22, and the first air guide plate 21 and the second air guide plate 22 can be rotatably disposed on the casing 1, in some embodiments, the first air guide plate 21 can be rotated until the inlet end of the first air outlet duct 11 is right opposite to or staggered, that is, the first air guide plate 21 can be rotated until the inlet end of the first air outlet duct 11 is blocked or avoided; in other embodiments, the second air deflector 22 may be rotated to block or avoid the inlet end of the first air outlet duct 11; in still other embodiments, the first air deflector 21 and the second air deflector 22 may be rotatable to cooperate to block or clear the inlet end of the first air outlet duct 11.

Referring to fig. 8, in some embodiments, the indoor unit 100 includes a cooling air outlet mode, in which the air deflection assemblies 2 are in a separated state, the first air deflection 21 is located in the second air outlet duct 12 and covers the inlet end of the first air outlet duct 11, and the second air deflection 22 is located at the second air outlet 14 and protrudes from the lower edge of the second air outlet 14. The second air deflector 22 protrudes from the lower edge of the second air outlet 14 to form a lower air outlet extension section, so that the second air deflector 22 can guide the air outlet direction of the air conditioner at the second air outlet 14 to supply air forwards, thereby improving the air conditioning effect when the air conditioner indoor unit 100 is used for refrigerating. And the second air deflector 22 can also rotate to form a wind sweeping, thereby further improving the air conditioning effect of the air conditioning indoor unit 100.

Referring to fig. 9, in some embodiments, the indoor unit 100 includes a heating air outlet mode, in the heating air outlet mode, the air guide plate assembly 2 is in a separated state, a portion of the first air guide plate 21 is located in the second air outlet duct 12 and covers an inlet end of the first air outlet duct 11, another portion of the first air guide plate 21 protrudes from an upper edge of the second air outlet 14, and the first air guide plate 21 protrudes from an upper edge of the second air outlet 14 to form an upper air outlet extension section, so that the first air guide plate 21 can guide the air conditioner air outlet at the second air outlet 14 to supply air downwards, that is, the first air guide plate 21 can press hot air downwards, so as to improve an air conditioning effect when the indoor unit 100 heats.

The second air deflector 22 is located at the second air outlet 14 and protrudes out of the lower edge of the second air outlet 14. The second air deflector 22 protrudes out of the lower edge of the second air outlet 14 to form a lower air outlet extension section, so that the second air deflector 22 can be matched with the first air deflector 21 to supply air downwards. And the first air deflector 21 and the second air deflector 22 can rotate to form a large-scale wind sweeping, thereby further improving the air conditioning effect of the air conditioning indoor unit 100.

Referring to fig. 10, in some embodiments, the indoor unit 100 includes a multi-air mode in which the air deflection assemblies 2 are in a separated state, the first air deflection 21 is located in the second air outlet duct 12 and avoids the inlet end of the first air outlet duct 11, and the second air deflection 22 is located at the second air outlet 14 and is spaced from the upper and lower sides of the second air outlet 14.

Through the above-mentioned technical solution, when the indoor unit 100 is in the multi-air mode, a part of air flows to the first air outlet duct 11 and is discharged from the first air outlet 13, a part of air flows to the second air outlet 14 and is discharged in the space between the second air deflector 22 and the upper edge of the second air outlet 14, a part of air flows to the second air outlet 14 and is discharged in the space between the second air deflector 22 and the lower edge of the second air outlet 14, and a part of air is discharged through the first air dispersion holes 215, the second air dispersion holes 225 and the third air dispersion holes 161.

In some embodiments, the air conditioning indoor unit 100 further includes: the sensor is configured to detect a position of a user in an indoor environment, for example, the sensor may be configured as an infrared sensor. The control module is respectively connected with the sensor and the driving module in a communication manner, referring to fig. 10, the air conditioning indoor unit 100 has a wind-shielding mode, in which one of the first wind deflector 21 and the second wind deflector 22 rotates into the casing 1 to avoid the second air outlet 14, and the control module controls the driving module according to the received detection result of the sensor so that the other one of the first wind deflector 21 and the second wind deflector 22 rotates to face the user.

Through the technical scheme, one of the first air guide plate 21 and the second air guide plate 22 can face a user and rotate along with the activity of the user, so that the air conditioner is prevented from directly blowing the user, and the user experience is improved.

In some embodiments, in the wind-shielding mode, the first wind deflector 21 is located in the second wind outlet duct 12 and is away from the inlet end of the first wind outlet duct 11, and the second wind deflector 22 rotates to face the user. An area for avoiding people is formed at the second air deflector 22, the area is windless under the action of the second air dispersing holes 225, the second air deflector 22 can rotate along with the activities of users, the area where the users move can be avoided, the experience is better and more intelligent, and the user comfort is higher.

An air conditioner according to an embodiment of the present utility model includes: the air conditioning indoor unit 100 according to the above-described embodiment.

According to the air conditioner disclosed by the embodiment of the utility model, the air conditioning indoor unit 100 is provided with two air outlets, the first air outlet 13 and the second air outlet 14 can simultaneously discharge air, the air outlet area of the air conditioning indoor unit 100 is effectively increased, the air outlet quantity of the air conditioning indoor unit 100 is increased, the air conditioning effect of the air conditioning indoor unit 100 is improved, the first air deflector 21 and the second air deflector 22 of the air deflector assembly 2 can be mutually matched, and the formed ventilation channel can play a better guiding role on air at the second air outlet 14 so as to improve the effect of adjusting the air outlet direction of the air conditioning indoor unit 100. In addition, the indoor unit 100 of the air conditioner provided by the embodiment of the utility model can also have a non-wind sensing mode, so that the user experience is improved.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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 utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. 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 utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. The air deflector assembly is characterized by comprising a first air deflector and a second air deflector which can rotate relatively, wherein a plurality of first air dispersing holes are formed in the first air deflector; the second air guide plate is provided with a plurality of second air dispersing holes, the air guide plate assembly comprises a separation state and a matching state, the separation state is that the first air guide plate and the second air guide plate are arranged at intervals in the up-down direction to limit a ventilation channel, and the matching state is that the lower end of the first air guide plate is matched with the upper end of the second air guide plate to block air flow.

2. The air deflection assembly of claim 1, wherein the lower ends of the first air deflection and the upper ends of the second air deflection are disposed in a front-to-rear direction in the mated condition.

3. The air deflection assembly of claim 1, wherein the first air deflection includes at least two portions of the first air bleed holes having different directions of extension; and/or

The second air deflector comprises at least two second air dispersing holes with different extending directions.

4. The air deflection assembly of claim 3, wherein the air deflection assembly has a no-wind mode in which the first air deflection is in snap fit with the second air deflection and the first air deflection is positioned below the second air deflection, a portion of the second air deflection extending horizontally and a portion of the second air deflection extending obliquely downward;

and part of the first air dispersing holes of the first air deflector extend vertically downwards, and part of the first air dispersing holes extend downwards and obliquely forwards.

5. The air deflection assembly of claim 3, wherein the included angle in the extending direction between the two portions of the first air distribution holes having different extending directions is in the range of 15-45 degrees;

the included angle of the extending directions between the two parts of the second air dispersing holes with different extending directions is 15-45 degrees.

6. The air deflection assembly of any one of claims 1-5, wherein the first air deflection is provided with a first end plate and a second end plate at each end in the length direction, the first end plate being connected to a first drive shaft, the second end plate being provided with a first relief hole;

a third end plate and a fourth end plate are respectively arranged at two ends of the second air deflector in the length direction, the third end plate is provided with a second avoidance hole, and the fourth end plate is provided with a second driving shaft;

the first driving shaft penetrates through the second avoiding hole, and the second driving shaft penetrates through the first avoiding hole.

7. The air deflection assembly of claim 6, further comprising a drive module for driving rotation of the first drive shaft and the second drive shaft, respectively.

8. An air conditioning indoor unit, comprising:

the air conditioner comprises a machine shell, wherein a first air outlet air duct and a second air outlet air duct are arranged in the machine shell, the inlet end of the first air outlet air duct is communicated with the second air outlet air duct, the first air outlet air duct is provided with a first air outlet, the second air outlet air duct is provided with a second air outlet, the first air outlet is positioned above the second air outlet, at least one part of a front panel of the machine shell is provided with a plurality of third air dispersing holes communicated with the first air outlet air duct, and at least one part of the third air dispersing holes extend obliquely upwards or horizontally;

an air deflection assembly rotatably disposed in the housing, the air deflection assembly being in accordance with any one of claims 1-7;

the driving module is connected with the first air deflector and the second air deflector respectively to drive the first air deflector and the second air deflector to rotate.

9. The indoor unit of claim 8, wherein the third plurality of ventilation holes are located in a lower portion of the front panel.

10. The indoor unit of claim 8, wherein the first air deflector is rotatable until an inlet end of the first air outlet duct is directly opposite or offset.

11. The indoor unit of claim 8, further comprising:

a sensor configured to detect a position of a user in an indoor environment;

the control module is respectively in communication connection with the inductor and the driving module, the indoor unit of the air conditioner is provided with a wind-shielding mode, one of the first air deflector and the second air deflector rotates to the inside of the shell so as to avoid the second air outlet, and the control module controls the driving module according to the received detection result of the inductor so that the other of the first air deflector and the second air deflector rotates to face a user.

12. An air conditioner, comprising: an air conditioning indoor unit according to any of claims 8-11.