CN111156598A

CN111156598A - Air outlet structure and air conditioner indoor unit with same

Info

Publication number: CN111156598A
Application number: CN201811321512.2A
Authority: CN
Inventors: 刘胜辈; 林裕亮; 金海元; 王朝新; 陈圣文; 曾庆和; 李德清; 傅凯凯; 贾飞飞; 陈红光; 刘禾铭; 李军
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2018-11-07
Filing date: 2018-11-07
Publication date: 2020-05-15

Abstract

The invention provides an air outlet structure and an air-conditioning indoor unit with the same, wherein the air outlet structure is used for being connected with an air outlet positioned in the air-conditioning indoor unit, the air outlet structure is characterized in that a panel of the air-conditioning indoor unit is provided with a containing hole, the containing hole is communicated with the air outlet, and the air outlet structure comprises: the wind shielding component is at least partially arranged in the accommodating hole of the panel of the indoor unit and has a first position and a second position; and at least part of the moving part is connected with the wind shielding part and moves along the extending direction of the accommodating hole so as to drive the wind shielding part to move between a first position and a second position, so that the accommodating hole is blocked when the wind shielding part moves to the first position, and the moving part is separated from the accommodating hole when the wind shielding part moves to the second position, so that the indoor air conditioner can discharge air through a gap between the accommodating hole and the wind shielding part. The air outlet structure solves the problem that the air outlet structure in the prior art runs unstably.

Description

Air outlet structure and air conditioner indoor unit with same

Technical Field

The invention relates to the field of household appliances, in particular to an air outlet structure and an air conditioner indoor unit with the same.

Background

At present, the air quality is increasingly worsened, and a fresh air fan capable of purifying air is also increasingly popular in the market. The air outlet and the air outlet mode of the fresh air machine are greatly related to user experience, and the air outlet of the fresh air machine in the current market is provided with a direct air outlet and a retractable air outlet.

However, the movement mechanism in the retractable air outlet of the air outlet in the prior art is a rotary push-out mechanism, which has a complex structure, is not smooth in operation, has low assembly efficiency, and further causes high production cost.

Disclosure of Invention

The invention mainly aims to provide an air outlet structure and an air conditioner indoor unit with the same, and aims to solve the problem that the air outlet structure in the prior art runs unstably.

In order to achieve the above object, according to one aspect of the present invention, there is provided an outlet structure for connecting to an outlet port provided in an indoor unit of an air conditioner, the indoor unit panel of the air conditioner having a receiving hole communicating with the outlet port, the outlet structure including: the wind shielding component is at least partially arranged in the accommodating hole of the panel of the indoor unit and has a first position and a second position; and at least part of the moving part is connected with the wind shielding part and moves along the extending direction of the accommodating hole so as to drive the wind shielding part to move between a first position and a second position, so that the accommodating hole is blocked when the wind shielding part moves to the first position, and the moving part is separated from the accommodating hole when the wind shielding part moves to the second position, so that the indoor air conditioner can discharge air through a gap between the accommodating hole and the wind shielding part.

Furthermore, the air outlet is a fresh air outlet of the fresh air device, the fresh air device is located on the inner side of the panel of the indoor unit, and the air outlet structure is connected with the fresh air device so that fresh air in the fresh air device can be discharged through the accommodating hole and the gap between the wind-shielding parts when the wind-shielding parts move to the second position.

Further, the wind blocking member has an accommodating cavity, and at least a part of the moving member is located in the accommodating cavity.

Further, the air outlet structure includes: the air outlet channel shell is arranged on the inner side of the indoor unit panel and is provided with an air outlet channel, one end of the air outlet channel is communicated with the air outlet, and the other end of the air outlet channel is communicated with the accommodating hole, so that air outlet of the air conditioner enters the accommodating hole through the air outlet channel; the moving part is connected with the air outlet channel shell and is positioned on one side, close to the wind shielding part, of the air outlet channel shell.

Further, the moving part includes: the supporting piece is connected with the air outlet channel shell, and the wind shielding part is movably arranged relative to the supporting piece and is in sliding connection with the supporting piece so as to support the wind shielding part.

Further, the moving part further includes: and the transmission assembly is in transmission connection with the wind shielding part so as to drive the wind shielding part to move.

Furthermore, the transmission assembly comprises a transmission gear and a transmission rack meshed with the transmission gear, the transmission gear is in transmission connection with the transmission rack, and the wind shielding component is connected with the transmission rack so as to enable the wind shielding component to move under the action of the transmission gear and the transmission rack.

Further, the moving part further includes: the wind shielding part is connected with the supporting part; the movable piece is connected with the supporting piece in a sliding mode and located above the supporting piece, the transmission rack is arranged on the movable piece, and the wind shielding part is fixedly connected with the movable piece so that the wind shielding part can move under the driving of the movable piece.

Further, the wind blocking member is slidably coupled to the support member.

Further, the moving piece is provided with a third accommodating space, the transmission gear is located in the third accommodating space, and the transmission rack is arranged on the inner wall of the third accommodating space.

Further, the moving part further includes: and the driving motor is fixedly connected with the supporting piece and is in driving connection with the transmission gear so as to enable the transmission gear to rotate under the action of the driving motor.

Further, the driving motor is arranged on one side of the supporting piece far away from the moving piece, and the supporting piece is provided with a through hole, so that a driving shaft of the driving motor passes through the through hole to be connected with the transmission gear.

Further, the supporting piece is provided with a first sliding groove, the moving piece is provided with a first sliding portion matched with the first sliding groove, and at least part of the first sliding portion is slidably arranged in the first sliding groove.

Furthermore, the moving member comprises a moving member main body part, the first sliding part is connected with the moving member main body part, the moving member main body part is provided with a first end and a second end which are arranged oppositely, the number of the first sliding parts is two, one first sliding part is arranged at the first end of the moving member main body part, and the other first sliding part is arranged at the second end of the moving member main body part; the number of the first sliding grooves is two, the two first sliding portions and the two first sliding grooves are arranged in a one-to-one correspondence mode, and each first sliding portion is arranged in the corresponding first sliding groove in a sliding mode.

Furthermore, the first sliding portion is provided with a plurality of first sliding columns which are arranged at intervals along the extending direction of the first sliding portion, each first sliding column extends along the width direction of the first sliding portion, and each first sliding column protrudes out of the end face, far away from the main body part of the moving member, of the first sliding portion, so that the first sliding portion is in contact with the bottom of the first sliding groove through the first sliding column.

Furthermore, the outer surface of at least part of the end surface of the first sliding column, which protrudes out of the first sliding part and is far away from the moving part main body part, is a spherical crown surface.

Furthermore, the first sliding column protrudes from the two side walls of the first sliding portion, so that the two side walls of the first sliding portion are both in contact with the groove wall of the first sliding groove through the first sliding column.

Furthermore, a rolling part is arranged on the supporting part, the moving part is provided with a fourth accommodating space, and the rolling part is arranged in the fourth accommodating space; the inner wall of the fourth accommodating space is provided with a rolling groove matched with the rolling part, and the rolling part can be arranged in the rolling groove in a rolling way.

Furthermore, the rolling grooves are two, and the two rolling grooves are oppositely arranged on two sides of the rolling part.

Further, the moving member is provided with a first moving block, the supporting member is provided with a first stop block, and the first stop block is arranged at one end, close to the wind blocking member, of the supporting member so as to stop the first moving block.

Further, the transmission assembly comprises a push rod, at least part of the push rod moves along the extension direction of the accommodating hole, and one end of the push rod is connected with the wind shielding component, so that the wind shielding component moves under the action of the push rod.

Further, the moving part includes a support; the wind-shielding component is provided with a second installation part, the second installation part comprises an installation rod and two supporting plates, one end of the installation rod is connected with one supporting plate, the other end of the installation rod is connected with the other supporting plate, the push rod is connected with the installation rod, and the wind-shielding component is connected with the supporting component in a sliding mode through the two supporting plates.

Further, the support piece is provided with second sliding grooves, each support plate is provided with two second sliding portions matched with the second sliding grooves, the two second sliding portions and the two second sliding grooves are arranged in a one-to-one correspondence mode, and at least part of each second sliding portion is arranged in the corresponding second sliding groove in a sliding mode.

Furthermore, a second moving block is arranged on at least one supporting plate, a second stop block is arranged on the supporting piece, and the second stop block is arranged at one end, close to the wind blocking part, of the supporting piece so as to stop the second moving block.

According to another aspect of the present invention, an indoor unit of an air conditioner is provided, which includes an air outlet structure, wherein the air outlet structure is the air outlet structure described above.

The air outlet structure is provided with the wind shielding part and the moving part, the moving part moves along the extension direction of the accommodating hole to drive the wind shielding part to stretch, the moving part of the air outlet structure conveniently and quickly drives the wind shielding part to stretch, the structure is simple, the operation is stable and reliable, the assembly efficiency is higher, and the cost is saved. By adopting the moving part, the wind-shielding part can extend outwards when the air-conditioning indoor unit is used, and can be retracted into the panel of the indoor unit when the air-conditioning indoor unit is closed, so that the wind-shielding part is flush with the appearance, and the appearance is beautified. In addition, through setting up the part that keeps out the wind to make the new trend discharge through the clearance between accommodation hole and the part that keeps out the wind, solved the direct air-out of air outlet structure and lead to wind to blow the people's problem directly.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

figure 1 shows a schematic view of the wind-stopping elements of the outlet structure according to the invention in a first position;

figure 2 shows a schematic view of the wind-stopping members of the outlet structure according to the invention in a second position;

FIG. 3 illustrates an exploded view of one embodiment of an outlet configuration according to the present invention;

figure 4 shows a schematic view of an angle of the moving part of the outlet structure according to the invention;

fig. 5 shows a schematic structural view of the moving part of the outlet structure according to the invention;

figure 6 shows a schematic view of another angle of the moving parts of the outlet structure according to the invention;

figure 7 shows an exploded view of another embodiment of an outlet construction according to the invention;

figure 8 shows a schematic view of an angle of another embodiment of the outlet structure according to the invention; and

figure 9 shows a schematic view of another angle of another embodiment of the outlet structure according to the invention.

Wherein the figures include the following reference numerals:

30. a moving part; 31. a support member; 311. a first chute; 312. a rolling section; 313. a first stop block; 314. a second chute; 315. a second stop block; 32. a transmission assembly; 321. a transmission gear; 322. a drive rack; 323. a push rod; 324. a retainer ring; 325. a first screw; 326. a gasket; 33. a moving member; 331. a third accommodating space; 333. a first sliding section; 3331. a first sliding column; 334. a fourth accommodating space; 335. a rolling groove; 336. a first moving block; 34. a drive motor; 50. an indoor unit panel; 60. an air outlet channel shell; 61. an air outlet channel; 70. a wind blocking member; 72. a second mounting portion; 721. mounting a rod; 722. a support plate; 723. a second sliding section; 724. a second moving block.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The present invention provides an air outlet structure, please refer to fig. 1 to 9, for connecting with an air outlet located in an indoor unit of an air conditioner, an indoor unit panel 50 of the indoor unit of the air conditioner has a receiving hole, the receiving hole is communicated with the air outlet, the air outlet structure includes: a wind shielding member 70, at least part of the wind shielding member 70 is arranged in the accommodating hole of the indoor unit panel 50, the wind shielding member 70 has a first position and a second position; and at least part of the moving part 30 is connected with the wind shielding part 70 and moves along the extending direction of the accommodating hole to drive the wind shielding part 70 to move between the first position and the second position, so that the accommodating hole is blocked when the wind shielding part 70 moves to the first position, and the wind shielding part 70 is separated from the accommodating hole when the wind shielding part 70 moves to the second position, so that the air conditioner indoor unit can discharge air through the gap between the accommodating hole and the wind shielding part 70.

According to the air outlet structure, the wind shielding part 70 and the moving part 30 are arranged, the moving part 30 moves along the extension direction of the accommodating hole to drive the wind shielding part 70 to stretch, the moving part 30 of the air outlet structure conveniently and quickly drives the wind shielding part 70 to stretch, the structure is simple, the operation is stable and reliable, the assembly efficiency is higher, and meanwhile, the cost is saved. By adopting the moving component 30, the wind-shielding component 70 can be extended outwards when the air-conditioning indoor unit is used, and the wind-shielding component 70 can be retracted into the indoor unit panel 50 to be flush with the appearance when the air-conditioning indoor unit is closed, so that the appearance is beautified.

In addition, through setting up the part 70 that keeps out the wind to make the air conditioner air-out discharge through the clearance between accommodation hole and the part 70 that keeps out the wind, solved the direct air-out of air outlet structure and leaded to wind directly to blow people's problem.

In one embodiment, the air outlet is a fresh air outlet of a fresh air device, the fresh air device is located inside the indoor unit panel 50, and the air outlet structure is connected to the fresh air device so that fresh air in the fresh air device is discharged through a gap between the accommodating hole and the wind shielding member 70 when the wind shielding member 70 moves to the second position.

In particular embodiments, the wind blocking member 70 has a receiving cavity in which at least a portion of the moving member 30 is located.

In this embodiment, the air outlet structure includes an air outlet channel casing 60, the air outlet channel casing 60 is disposed inside the indoor unit panel 50, the air outlet channel casing 60 has an air outlet channel 61, one end of the air outlet channel 61 is communicated with the air outlet, and the other end of the air outlet channel 61 is communicated with the accommodating hole, so that the outlet air of the air conditioner enters the accommodating hole through the air outlet channel 61; the moving member 30 is connected to the air outlet channel casing 60 and is located on one side of the air outlet channel casing 60 close to the wind shielding member 70.

In the present embodiment, the moving member 30 includes: the support member 31, the support member 31 and the outlet channel casing 60 are connected, and the wind blocking member 70 is movably disposed relative to the support member 31 and slidably connected with the support member 31 to support the wind blocking member 70.

In order to achieve the extension and retraction of the wind shielding member 70, the moving member 30 further includes a transmission assembly 32, and the transmission assembly 32 is in transmission connection with the wind shielding member 70 to move the wind shielding member 70.

In one embodiment, the driving assembly 32 includes a driving gear 321 and a driving rack 322 engaged with the driving gear 321, the driving gear 321 is in driving connection with the driving rack 322, and the wind shielding member 70 is connected with the driving rack 322, so that the wind shielding member 70 moves under the action of the driving gear 321 and the driving rack 322. The device is simple in structure, stable and reliable in operation, convenient to install and cost-saving.

In the present embodiment, as shown in fig. 3, the moving member 30 further includes: the support 31, the wind shielding component 70 is connected with the support 31 in a sliding way; the moving member 33, the moving member 33 and the supporting member 31 are slidably connected and located above the supporting member 31, the transmission rack 322 is disposed on the moving member 33, and the wind-blocking member 70 is fixedly connected with the moving member 33, so that the wind-blocking member 70 moves under the driving of the moving member 33.

In specific implementation, the moving member 33 has a third accommodating space 331, the transmission gear 321 is located in the third accommodating space 331, and the transmission rack 322 is disposed on an inner wall of the third accommodating space 331.

In order to drive the transmission gear 321 to rotate, as shown in fig. 3, the moving part 30 further includes a driving motor 34, the driving motor 34 is fixedly connected with the support 31, and the driving motor 34 is in driving connection with the transmission gear 321, so that the transmission gear 321 is driven to rotate by the driving motor 34.

In specific implementation, the driving motor 34 is disposed on a side of the supporting member 31 away from the moving member 33, and the supporting member 31 has a through hole, so that a driving shaft of the driving motor 34 passes through the through hole to be connected with the transmission gear 321.

In specific implementation, the motor mounting part of the driving motor 34 is wrapped by a rubber gasket and is fixed on the supporting part 31 through a screw, so that the noise caused by the vibration of the driving motor 34 is effectively reduced; wherein, the motor installation part is an installation angle bracket.

In specific implementation, the driving shaft is matched with the transmission gear 321 in an edge cutting mode and locked by the retainer ring 324, so that the transmission gear 321 is prevented from falling off.

In the present embodiment, the supporting member 31 has a first sliding slot 311, the moving member 33 has a first sliding part 333 matched with the first sliding slot 311, and at least a portion of the first sliding part 333 is slidably disposed in the first sliding slot 311. The first sliding groove 311 is provided to guide the movement of the moving member 33 and to restrict the moving member 33 from moving up and down.

In a specific implementation, as shown in fig. 4, the moving member 33 includes a moving member main body, the first sliding portion 333 is connected to the moving member main body, the moving member main body has a first end and a second end which are oppositely arranged, the number of the first sliding portions 333 is two, one first sliding portion 333 is arranged at the first end of the moving member main body, and the other first sliding portion 333 is arranged at the second end of the moving member main body; the number of the first sliding grooves 311 is two, the two first sliding portions 333 are provided in one-to-one correspondence with the two first sliding grooves 311, and each of the first sliding portions 333 is slidably provided in the corresponding first sliding groove 311.

In a specific implementation, as shown in fig. 5, the first sliding portion 333 has a plurality of first sliding columns 3331, the plurality of first sliding columns 3331 are disposed at intervals along the extending direction of the first sliding portion 333, each first sliding column 3331 extends along the width direction of the first sliding portion 333, and each first sliding column 3331 protrudes from the end surface of the first sliding portion 333 away from the moving member main body portion, so that the first sliding portion 333 contacts the groove bottom of the first sliding groove 311 through the first sliding column 3331.

In a specific implementation, at least a part of the outer surface of the first sliding column 3331 protruding from the end surface of the first sliding part 333 away from the moving part main body part is a spherical crown surface. Such an arrangement can reduce the frictional resistance between the moving member 33 and the first sliding groove 311.

In a specific implementation, at least a portion of the first sliding column 3331 protruding from the end surface of the first sliding part 333 away from the moving part main body is at least a portion of a spherical structure.

Preferably, at least a portion of the first sliding column 3331 protruding from the end surface of the first sliding part 333 away from the moving part main body is hemispherical.

In a specific implementation, the first sliding column 3331 protrudes from two side walls of the first sliding part 333, so that the two side walls of the first sliding part 333 are both in contact with the groove wall of the first sliding groove 311 through the first sliding column 3331. Such an arrangement can reduce the frictional resistance between the moving member 33 and the first sliding groove 311.

In the present embodiment, one groove wall of the first sliding groove 311 is located above the first sliding portion 333 to stop the first sliding portion 333, so as to prevent the first sliding portion 333 from bouncing up and down.

In the present embodiment, as shown in fig. 3, the support member 31 is provided with a rolling part 312, the moving member 33 has a fourth accommodating space 334, and the rolling part 312 is disposed in the fourth accommodating space 334; the inner wall of the fourth accommodating space 334 is provided with a rolling groove 335 fitted with the rolling part 312, and the rolling part 312 is rollably disposed in the rolling groove 335. The rolling portion 312 is provided to assist the movement of the moving member 33 and also to restrict the displacement of the moving member 33 in the direction perpendicular to the moving direction.

Preferably, the rolling part 312 is a roller.

In a specific implementation, there are two rolling grooves 335, and the two rolling grooves 335 are oppositely disposed on two sides of the rolling portion 312. The rolling groove 335 is used to cooperate with the rolling portion 312 to limit the displacement of the moving member 33 along the direction perpendicular to the moving direction, and meanwhile, when the moving member 33 moves forward and backward, the rolling portion 312 is in rolling contact with the moving member 33, thereby effectively reducing the friction resistance during the moving process of the moving member 33.

In one embodiment, a post protrudes from the support member 31 for mounting the rolling member 312, and the rolling member 312 is mounted on the post by a first screw 325.

In specific implementation, a gasket 326 is disposed between the first screw 325 and the rolling portion 312, so that the rolling portion 312 rolls smoothly.

In order to limit the position of the moving member 33 at the time of final push-out, as shown in fig. 6, the moving member 33 has a first moving block 336, a first stopper 313 is provided on the support member 31, and the first stopper 313 is provided at an end of the support member 31 near the wind blocking member 70 to stop the first moving block 336.

In another embodiment, as shown in fig. 7, the driving assembly 32 includes a push rod 323, at least a portion of the push rod 323 moves along the extension direction of the receiving hole, and one end of the push rod 323 is connected to the wind blocking member 70, so that the wind blocking member 70 moves under the action of the push rod 323.

Preferably, the push rod 323 is an electric push rod. The electric push rod is an electric telescopic machine, one end of the electric push rod is mounted on the air outlet channel casing 60 through a screw, the telescopic rod at the other end of the electric push rod is driven by electric power to be telescopic, and the telescopic rod is connected with the mounting rod 721 of the wind blocking component 70 in a hinge manner, so that the wind blocking component 70 can be driven to move.

In particular, as shown in fig. 8, the moving part 30 comprises a support 31; the wind blocking member 70 has a second mounting portion 72, the second mounting portion 72 includes a mounting rod 721 and two support plates 722, one end of the mounting rod 721 is connected to one of the support plates 722, the other end of the mounting rod 721 is connected to the other support plate 722, the push rod 323 is connected to the mounting rod 721, and the wind blocking member 70 is slidably connected to the support 31 through the two support plates 722.

In practical implementation, as shown in fig. 9, the supporting member 31 has two second sliding grooves 314, each supporting plate 722 has two second sliding portions 723 matching with the second sliding grooves 314, the two second sliding portions 723 are disposed in one-to-one correspondence with the two second sliding grooves 314, and at least a portion of each second sliding portion 723 is slidably disposed in the corresponding second sliding groove 314. The second runner 314 serves as a guide.

In the embodiment, one groove wall of the second sliding chute 314 is located above the second sliding portion 723 to stop the second sliding portion 723, so as to prevent the second sliding portion 723 from bouncing up and down.

In order to limit the position of the wind shield 70 when finally pushed out, a second moving block 724 is disposed on at least one supporting plate 722, a second stop block 315 is disposed on the supporting member 31, and the second stop block 315 is disposed at one end of the supporting member 31 close to the wind shield 70 to stop the second moving block 724.

In this embodiment, electric putter is telescopic machanism, and relative rack and pinion push mechanism, the structure is simpler, assembly efficiency is higher.

The air outlet structure of the invention is designed to be telescopic, when the fresh air is started, the wind shielding component 70 is in a push-out state, the fresh air is guided by the wind shielding component 70 to be blown upwards, thereby preventing cold air from blowing people and improving the comfort; when the fresh air is closed, the wind-shielding component 70 is in a retracted state, the whole appearance is level, and the appearance is beautified.

The technical problem solved by the air outlet structure of the invention is as follows:

1. the problem that the air outlet structure of the existing air conditioner indoor unit directly discharges air to cause direct blowing and unattractive appearance is solved;

2. the problems of complex structure, inconvenient disassembly and assembly and high cost of the existing moving part are solved.

The air outlet of the invention has the beneficial effects that:

the moving part 30 adopted by the invention can conveniently and quickly push the air outlet structure of the indoor unit of the air conditioner out, and when the air conditioner is started, the air outlet structure extends out and guides the air upwards, thereby preventing cold air from directly blowing people; when the air outlet structure is closed, the air outlet structure is retracted into the indoor unit panel 50 and is flush with the appearance, so that the appearance is beautified. Compared with the existing rotary push-out mechanism, the moving part 30 is simple in structure, stable in operation, higher in assembly efficiency and cost-saving.

The invention also provides an air conditioner indoor unit, which comprises an air outlet structure, wherein the air outlet structure is the air outlet structure of the embodiment.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

In addition, through setting up wind-blocking part 70 to make the new trend discharge through the clearance between accommodation hole and the wind-blocking part 70, solved the direct air-out of air outlet structure and lead to the problem that wind directly blows the people.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an air outlet structure for be connected with the air outlet that is located machine in the air conditioning, its characterized in that, machine in the air conditioning panel (50) have the accommodation hole, the accommodation hole with the air outlet intercommunication, air outlet structure includes:

a wind shielding member (70), at least part of the wind shielding member (70) is arranged in the accommodating hole of the indoor unit panel (50), and the wind shielding member (70) has a first position and a second position;

the air conditioner indoor unit comprises a moving component (30), wherein at least part of the moving component (30) is connected with the wind shielding component (70) and moves along the extending direction of the accommodating hole so as to drive the wind shielding component (70) to move between the first position and the second position, so that the accommodating hole is blocked when the wind shielding component (70) moves to the first position, and the wind shielding component (70) is separated from the accommodating hole when the wind shielding component (70) moves to the second position, so that the air conditioner indoor unit can output air through a gap between the accommodating hole and the wind shielding component (70).

2. The air outlet structure according to claim 1, wherein the air outlet is a fresh air outlet of a fresh air device, the fresh air device is located inside the indoor unit panel (50), and the air outlet structure is connected to the fresh air device so that fresh air in the fresh air device is discharged through a gap between the accommodating hole and the wind blocking member (70) when the wind blocking member (70) moves to the second position.

3. The air outlet structure according to claim 1, characterized in that said wind-break member (70) has a housing cavity in which at least part of said moving member (30) is located.

4. The outlet structure of claim 1, wherein the outlet structure comprises:

the air outlet channel shell (60) is arranged on the inner side of the indoor unit panel (50), the air outlet channel shell (60) is provided with an air outlet channel (61), one end of the air outlet channel (61) is communicated with the air outlet, and the other end of the air outlet channel (61) is communicated with the accommodating hole, so that air outlet of an air conditioner enters the accommodating hole through the air outlet channel (61);

the moving part (30) is connected with the air outlet channel shell (60) and is positioned on one side, close to the wind shielding part (70), of the air outlet channel shell (60).

5. An air outlet structure according to claim 4, characterized in that said moving part (30) comprises:

the support piece (31), the support piece (31) is connected with the air outlet channel shell (60), and the wind shielding part (70) is movably arranged relative to the support piece (31) and is connected with the support piece (31) in a sliding mode so as to support the wind shielding part (70).

6. An air outlet structure according to claim 1, wherein the moving part (30) further comprises:

the transmission assembly (32) is in transmission connection with the wind shielding component (70) so as to drive the wind shielding component (70) to move.

7. The air outlet structure according to claim 6, wherein the transmission assembly (32) comprises a transmission gear (321) and a transmission rack (322) engaged with the transmission gear (321), the transmission gear (321) is in transmission connection with the transmission rack (322), and the wind shielding member (70) is connected with the transmission rack (322) so that the wind shielding member (70) moves under the action of the transmission gear (321) and the transmission rack (322).

8. The outlet structure according to claim 7, characterized in that said moving part (30) further comprises:

a support (31), the wind-blocking member (70) being connected to the support (31);

the movable piece (33) is connected with the supporting piece (31) in a sliding mode and located above the supporting piece (31), the transmission rack (322) is arranged on the movable piece (33), and the wind shielding component (70) is fixedly connected with the movable piece (33) so that the wind shielding component (70) can move under the driving of the movable piece (33).

9. Air outlet structure according to claim 8, characterized in that said wind-deflector member (70) is slidingly associated with said support (31).

10. The air outlet structure according to claim 8, wherein the moving member (33) has a third accommodating space (331), the transmission gear (321) is located in the third accommodating space (331), and the transmission rack (322) is disposed on an inner wall of the third accommodating space (331).

11. The outlet structure according to claim 10, characterized in that said moving part (30) further comprises:

the driving motor (34), the driving motor (34) with support piece (31) fixed connection, driving motor (34) with drive gear (321) drive connection to make drive gear (321) rotate under the effect of driving motor (34).

12. The air outlet structure according to claim 11, characterized in that the driving motor (34) is arranged on a side of the supporting member (31) far away from the moving member (33), and the supporting member (31) has a through hole, so that a driving shaft of the driving motor (34) is connected with the transmission gear (321) through the through hole.

13. The air outlet structure according to claim 8, wherein the support member (31) has a first chute (311), the moving member (33) has a first sliding portion (333) fitted with the first chute (311), and at least a part of the first sliding portion (333) is slidably disposed in the first chute (311).

14. The air outlet structure according to claim 13, wherein the moving member (33) comprises a moving member main body part, the first sliding part (333) is connected with the moving member main body part, the moving member main body part has a first end and a second end which are oppositely arranged, the number of the first sliding parts (333) is two, one first sliding part (333) is arranged at the first end of the moving member main body part, and the other first sliding part (333) is arranged at the second end of the moving member main body part; the number of the first sliding grooves (311) is two, the two first sliding portions (333) are arranged in one-to-one correspondence with the two first sliding grooves (311), and each first sliding portion (333) is slidably arranged in the corresponding first sliding groove (311).

15. The outlet structure according to claim 14, wherein the first sliding portion (333) has a plurality of first sliding columns (3331), the plurality of first sliding columns (3331) are spaced apart from each other along an extending direction of the first sliding portion (333), each of the first sliding columns (3331) extends along a width direction of the first sliding portion (333), and each of the first sliding columns (3331) protrudes from an end surface of the first sliding portion (333) away from the moving member main body portion, so that the first sliding portion (333) contacts a groove bottom of the first sliding groove (311) through the first sliding column (3331).

16. The outlet structure according to claim 15, wherein an outer surface of at least a portion of the first sliding column (3331) protruding from the end surface of the first sliding portion (333) away from the main body of the moving member is a spherical crown surface.

17. The outlet structure according to claim 16, wherein the first sliding post (3331) protrudes from two side walls of the first sliding part (333), so that the two side walls of the first sliding part (333) are in contact with the groove wall of the first chute (311) through the first sliding post (3331).

18. The air outlet structure according to claim 8, characterized in that a rolling part (312) is provided on the support member (31), the moving member (33) has a fourth accommodating space (334), and the rolling part (312) is provided in the fourth accommodating space (334); a rolling groove (335) matched with the rolling part (312) is arranged on the inner wall of the fourth accommodating space (334), and the rolling part (312) can be arranged in the rolling groove (335) in a rolling way.

19. The air outlet structure according to claim 18, wherein there are two rolling grooves (335), and the two rolling grooves (335) are oppositely disposed on two sides of the rolling portion (312).

20. The air outlet structure according to claim 8, characterized in that the moving member (33) has a first moving block (336), a first stop block (313) is arranged on the support member (31), and the first stop block (313) is arranged at one end of the support member (31) close to the wind-blocking member (70) to stop the first moving block (336).

21. The air outlet structure according to claim 6, characterized in that the transmission assembly (32) comprises a push rod (323), at least part of the push rod (323) moves along the extension direction of the accommodating hole, and one end of the push rod (323) is connected with the wind shielding part (70) so that the wind shielding part (70) moves under the action of the push rod (323).

22. Outlet structure according to claim 21, characterized in that said moving part (30) comprises a support (31);

the wind-blocking component (70) is provided with a second mounting part (72), the second mounting part (72) comprises a mounting rod (721) and two supporting plates (722), one end of the mounting rod (721) is connected with one of the supporting plates (722), the other end of the mounting rod (721) is connected with the other supporting plate (722), the push rod (323) is connected with the mounting rod (721), and the wind-blocking component (70) is connected with the supporting piece (31) through the two supporting plates (722).

23. The air outlet structure according to claim 22, wherein the supporting member (31) has second sliding grooves (314), each supporting plate (722) has a second sliding portion (723) matched with the second sliding groove (314), the number of the second sliding grooves (314) is two, the two second sliding portions (723) are arranged in one-to-one correspondence with the two second sliding grooves (314), and at least a portion of each second sliding portion (723) is slidably arranged in the corresponding second sliding groove (314).

24. The air outlet structure according to claim 23, wherein a second moving block (724) is arranged on at least one supporting plate (722), a second stop block (315) is arranged on the supporting member (31), and the second stop block (315) is arranged at one end of the supporting member (31) close to the wind blocking member (70) to stop the second moving block (724).

25. An indoor unit of an air conditioner, comprising an air outlet structure, wherein the air outlet structure is as claimed in any one of claims 1 to 24.