CN111156596A - Air outlet structure and air conditioner indoor unit with same - Google Patents

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, an indoor unit 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 blocking component is arranged in the accommodating hole at least in part and is provided with a first position and a second position, and the wind blocking component is movably arranged between the first position and the second position so as to block the accommodating hole when the wind blocking component is located at the first position and separate from the accommodating hole when the wind blocking component moves to the second position, so that the indoor unit of the air conditioner can be used for exhausting air through a gap between the accommodating hole and the wind blocking component. The air outlet structure solves the problem of low production efficiency caused by complex structure of the air outlet structure in the prior art.

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 house closure is higher now, leads to the harmful chemical substance pollution indoor air that room dirt, building materials gived off, and the life produces the gas of live exhalation and can make the indoor air quality decline, feels "vexed" easily, if window ventilation, indoor outer noise, dust, PM2.5, inhalable particles, temperature can influence during the indoor air, seriously influence the comfort level that people lived. Therefore, the existing fresh air system is more commonly used.

However, most of the main bodies of the fresh air fans in the market are designed by mainly adopting metal plates and by using plastics or other materials as auxiliaries, so that the fresh air fans are complex in structure, complex in production process, heavy in body, inconvenient to carry and install, not beneficial to installation, disassembly and after-sale maintenance, and not attractive in appearance.

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 is low in production efficiency due to complex structure.

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 blocking component is arranged in the accommodating hole at least in part and is provided with a first position and a second position, and the wind blocking component is movably arranged between the first position and the second position so as to block the accommodating hole when the wind blocking component is located at the first position and separate from the accommodating hole when the wind blocking component moves to the second position, so that the indoor unit of the air conditioner can be used for exhausting air through a gap between the accommodating hole and the wind blocking component.

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 includes: the wind shielding part is adjustably arranged in the accommodating hole, and is blocked in the accommodating hole when the wind shielding part is at the first position; when the wind shielding component is in the second position, the wind shielding component is separated from the panel of the indoor unit.

Further, the wind blocking member includes: the shielding part is connected with the wind shielding part and is positioned on one side, far away from the air outlet, of the wind shielding part, and the shielding part covers the wind shielding part to shield the wind shielding part.

Further, the covering member has a position to be operated and a mounting position, and the covering member is detachably provided on the wind shielding member so as to be positioned with the wind shielding member when the covering member is located at the position to be operated and fixedly connected with the wind shielding member when the covering member is located at the mounting position.

Furthermore, one side that the covering is close to the piece that keeps out the wind is provided with first coupling assembling, and the piece that keeps out the wind is including the main part that keeps out the wind, and one side that the main part that keeps out the wind is close to the covering is provided with the second coupling assembling who matches with first coupling assembling, and first coupling assembling is connected with second coupling assembling to make the covering pass through first coupling assembling and second coupling assembling and keep out the wind the piece and be connected.

Furthermore, the second connecting assembly comprises a first mounting part, the first connecting assembly comprises a first clamping piece matched with the first mounting part, and when the covering part is located at the mounting position, the first clamping piece is clamped in the first mounting part; the first mounting portion is adjustably disposed on the wind shielding main body portion so that the wind shielding main body portion is clamped or disengaged from the first mounting portion by adjusting the first mounting portion.

Further, an adjusting gap is formed in the wind shielding main body portion, and the adjusting gap encloses an adjusting plate, so that the first mounting portion moves by pushing the adjusting plate, and the wind shielding main body portion is separated from the first mounting portion.

Further, the adjustment gap includes a plurality of dividing grooves extending from one end surface to the other end surface of the wind shielding main body portion.

Further, the plurality of dividing grooves comprise a first dividing groove, a second dividing groove and a third dividing groove, the first dividing groove is arranged in parallel with the second dividing groove, one end of the third dividing groove is communicated with one end of the first dividing groove, and the other end of the third dividing groove is communicated with one end of the second dividing groove, so that the adjusting plate is surrounded into a rectangular plate.

Further, first card is established the piece and is had first connecting portion and the pothook of being connected perpendicularly with first connecting portion, and first installation department includes first supporting portion and the first mounting panel of being connected with first supporting portion, and first supporting portion is connected with the regulating plate, and first mounting panel has first through hole to the pothook card is established in first through hole when covering the piece and being located the mounted position.

Further, the second coupling assembling includes a plurality of second installation departments, and a plurality of second installation departments set up around the middle part interval of the main part that keeps out the wind, and first coupling assembling includes that a plurality of second cards establish the piece, and a plurality of second cards establish the piece and set up with a plurality of second installation departments one-to-one, and each second card establishes the piece card and establishes in corresponding second installation department.

Furthermore, the second clamping piece is provided with a second connecting portion and a stopping portion vertically connected with the second connecting portion, the second mounting portion is provided with a second supporting portion and a second mounting plate connected with the second supporting portion, the second supporting portion is connected with the wind shielding piece, a second through hole is formed in the second mounting plate, and at least part of the stopping portion penetrates through the second through hole and is clamped on the second mounting portion.

Further, the air conditioning indoor unit includes: the air outlet channel shell is arranged on the inner side of the indoor unit panel and 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.

Further, the wind shielding piece comprises a wind shielding main body part and an accommodating part connected with the wind shielding main body part, and the accommodating part is positioned on one side of the wind shielding main body part close to the air outlet; the accommodating part is arranged below the air outlet channel, and the wind shielding main body part is arranged in front of the air outlet channel so that air outlet of the air conditioner is discharged from a gap between the accommodating hole and the wind shielding main body part through the air outlet channel when the wind shielding part is located at the second position.

Further, the accommodating part has a first accommodating space, and the air-conditioning indoor unit includes: the moving part is connected with the air outlet channel shell, at least part of the moving part is located in the first accommodating space, and the moving part is in transmission connection with the wind shielding part to drive the wind shielding part to move.

Further, the accommodation hole includes a tapered hole section, and an outer wall surface of the wind shielding member is fitted to an inner wall surface of the tapered hole section.

Furthermore, the covering part is of a disc structure, and the outer surface of the covering part is flush with the panel of the indoor unit.

Further, the wind shielding member and the covering member are made of a plastic material.

According to another aspect of the present invention, an indoor unit of an air conditioner is provided, which includes an indoor unit panel and an air outlet structure, where the air outlet structure is disposed in a receiving hole of the indoor unit panel, and the air outlet structure is the air outlet structure described above.

According to the air outlet structure, at least part of the wind shielding part is arranged in the accommodating hole of the panel of the indoor unit, and the wind shielding part is movably arranged between the first position and the second position, so that the accommodating hole can be blocked when the wind shielding part is positioned at the first position, and the wind shielding part is separated from the accommodating hole when the wind shielding part moves to the second position, so that air in the air-conditioning indoor unit is discharged through a gap between the accommodating hole and the wind shielding part. The air outlet structure can realize the plugging of the air outlet of the air conditioner and the air outlet of the air conditioner only through the wind shielding part, and has the advantages of simple structure, high production efficiency and convenience for after-sale maintenance.

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:

fig. 1 shows a schematic structural view of an embodiment of an air conditioning indoor unit according to the present invention;

fig. 2 shows a front view of an embodiment of an air conditioning indoor unit according to the present invention;

fig. 3 shows a side view of an embodiment of an air conditioning indoor unit according to the invention;

figure 4 shows an exploded view of an embodiment of an outlet construction according to the invention;

fig. 5 is a schematic view showing the structure of a wind shielding member of the outlet structure according to the present invention;

fig. 6 shows a front view of a wind shielding member of the outlet structure according to the present invention;

FIG. 7 illustrates an angled side view of a wind deflector of the air outlet structure according to the present invention;

FIG. 8 illustrates another angled side view of a wind deflector of the air egress structure according to the present invention;

fig. 9 is a schematic view showing the structure of a covering member of the outlet structure according to the present invention;

fig. 10 is a front view showing a covering member of the air outlet structure according to the present invention;

figure 11 shows an angled side view of a covering member of an outlet construction according to the invention;

figure 12 shows a side view of another angle of the covering member of the outlet structure according to the present invention;

fig. 13 is a schematic view showing the covering member of the outlet structure according to the present invention mounted on the wind shielding member; and

fig. 14 shows a schematic view of the removal of the covering member of the outlet structure according to the present invention from the wind shield.

Wherein the figures include the following reference numerals:

10. a wind shielding member; 11. a second connection assembly; 111. a first mounting portion; 1111. an adjusting plate; 1112. a first support section; 1113. a first mounting plate; 112. a second mounting portion; 1121. a second support portion; 1122. a second mounting plate; 12. a wind shielding main body portion; 13. an accommodating portion; 20. a covering member; 21. a first connection assembly; 211. a first clamping piece; 2111. a first connection portion; 2112. a hook; 212. a second clamping piece; 2121. a second connecting portion; 2122. a stopper portion; 30. a moving part; 50. an indoor unit panel; 53. an accommodation hole; 60. an air outlet channel shell; 61. an air outlet channel; 70. a wind shield member.

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 14, for connecting with an air outlet of an indoor unit of an air conditioner, an indoor unit panel 50 of the indoor unit of the air conditioner has a receiving hole 53, the receiving hole 53 is communicated with the air outlet, the air outlet structure includes: and the wind shielding part 70, at least part of the wind shielding part 70 is arranged in the accommodating hole 53, the wind shielding part 70 has a first position and a second position, and the wind shielding part 70 is movably arranged between the first position and the second position so as to seal the accommodating hole 53 when the wind shielding part 70 is at the first position and separate from the accommodating hole 53 when the wind shielding part 70 moves to the second position, so that the air-conditioning indoor unit can discharge air through a gap between the accommodating hole 53 and the wind shielding part 70. In addition, the periphery is fixed, the deformation is not easy, and the appearance is beautiful.

The air outlet structure of the present invention is configured such that at least a portion of the wind blocking member 70 is disposed in the receiving hole 53 of the indoor unit panel 50, and the wind blocking member 70 is movably disposed between the first position and the second position, so that the receiving hole 53 can be blocked when the wind blocking member 70 is at the first position, and the wind blocking member 70 is separated from the receiving hole 53 when the wind blocking member 70 moves to the second position, so that the air conditioner indoor unit can discharge air through a gap between the receiving hole 53 and the wind blocking member 70. The air outlet structure can realize the plugging of the air outlet of the air conditioner and the air outlet of the air conditioner only through the air blocking part 70, and has the advantages of simple structure, high production efficiency and convenience for after-sale maintenance.

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 53 and the wind shielding member 70 when the wind shielding member 70 moves to the second position.

In the present embodiment, as shown in fig. 3 and 4, the wind shielding member 70 includes the wind shielding member 10, the wind shielding member 10 is position-adjustably disposed in the accommodation hole 53, and when the wind shielding member 70 is in the first position, the wind shielding member 10 is blocked in the accommodation hole 53; when the wind blocking member 70 is in the second position, the wind blocking member 10 is separated from the indoor unit panel 50.

In the present embodiment, as shown in fig. 1 to 4, the wind shielding member 70 includes a covering member 20, the covering member 20 is connected to the wind shielding member 10 and is located on a side of the wind shielding member 10 away from the wind outlet, and the covering member 20 is disposed on the wind shielding member 10 to shield the wind shielding member 10. Therefore, the wind shielding part 10 and the covering part 20 form a sealed space, so that the movement mechanism in the space can be protected, dust and insect can be prevented, and the movement noise can be reduced; moreover, the arrangement can prevent children from contacting the moving parts, thereby improving the safety.

In specific implementation, the covering member 20 has a position to be operated and an installation position, and the covering member 20 is detachably disposed on the wind shielding member 10 to be positioned with the wind shielding member 10 when the covering member 20 is located at the position to be operated and fixedly connected with the wind shielding member 10 when the covering member 20 is located at the installation position. When the covering member 20 is installed, the covering member 20 is moved from the position to be operated to the installation position to complete the installation of the covering member 20; when the covering member 20 is removed, the covering member 20 is moved from the mounting position to the ready-to-operate position to complete the removal of the covering member 20.

In order to connect the wind deflector 10 and the screen member 20, as shown in fig. 5 and 9, a first connecting assembly 21 is disposed on a side of the screen member 20 close to the wind deflector 10, the wind deflector 10 includes a wind deflector body 12, a second connecting assembly 11 matched with the first connecting assembly 21 is disposed on a side of the wind deflector body 12 close to the screen member 20, and the first connecting assembly 21 is connected to the second connecting assembly 11, so that the screen member 20 is connected to the wind deflector 10 through the first connecting assembly 21 and the second connecting assembly 11. The assembly structure is smooth on the inner side and the outer side, is not easy to deform and is attractive in structure.

In specific implementation, as shown in fig. 5 and 6, the second connecting assembly 11 includes a first mounting portion 111, the first connecting assembly 21 includes a first engaging member 211 engaged with the first mounting portion 111, and when the covering member 20 is at the mounting position, the first engaging member 211 is engaged with the first mounting portion 111; the first mounting portion 111 is adjustably provided on the wind shielding main body portion 12 to enable the wind shielding main body portion 12 to be engaged with or disengaged from the first mounting portion 111 by adjusting the first mounting portion 111.

Preferably, the first mounting portion 111 is located at a lower side of the first receiving space.

In specific implementation, as shown in fig. 5 and 6, the main wind shielding body 12 is provided with an adjusting gap, which is enclosed by an adjusting plate 1111, so that the first mounting portion 111 is moved by pushing the adjusting plate 1111, so as to disengage the main wind shielding body 12 from the first mounting portion 111. Like this, adopt the mode of pressing regulating plate 1111 to dismantle, convenient simple, efficiency is higher.

As shown in fig. 13 and 14, in the process that the first locking member 211 is locked in the first mounting portion 111, the covering member 20 moves from the position to be operated to the mounting position, and when the first mounting portion 111 is pressed to move toward the covering member 20, the first mounting portion 111 is separated from the first locking member 211, so that the covering member 20 moves from the mounting position to the position to be operated.

In a specific embodiment, the adjustment gap includes a plurality of dividing grooves extending from one end surface to the other end surface of the wind shielding main body 12.

In a specific embodiment, the plurality of dividing grooves penetrate the wind shielding main body 12.

During specific implementation, the plurality of dividing grooves comprise a first dividing groove, a second dividing groove and a third dividing groove, the first dividing groove and the second dividing groove are arranged in parallel, one end of the third dividing groove is communicated with one end of the first dividing groove, and the other end of the third dividing groove is communicated with one end of the second dividing groove, so that the adjusting plate 1111 is surrounded into a rectangular plate.

In specific implementation, as shown in fig. 9, the first locking member 211 has a first connection portion 2111 and a locking hook 2112 vertically connected to the first connection portion 2111, the first mounting portion 111 includes a first support portion 1112 and a first mounting plate 1113 connected to the first support portion 1112, the first support portion 1112 is connected to the adjustment plate 1111, and the first mounting plate 1113 has a first through hole, so that the locking hook 2112 is locked in the first through hole when the covering member 20 is located at the mounting position.

When the covering member 20 is located at the position to be operated, the hook 2112 is located at one side of the first mounting plate 1113 close to the fresh air channel, and when the covering member 20 is located at the mounting position, the hook 2112 is blocked in the first through hole.

In this embodiment, as shown in fig. 5 and 6, the second connecting assembly 11 includes a plurality of second mounting portions 112, the plurality of second mounting portions 112 are disposed at intervals around the middle portion of the main body 12, the first connecting assembly 21 includes a plurality of second engaging members 212, the plurality of second engaging members 212 and the plurality of second mounting portions 112 are disposed in a one-to-one correspondence, and each second engaging member 212 is engaged with and disposed in the corresponding second mounting portion 112.

Preferably, there are three second mounting portions 112, wherein one second mounting portion 112 is located at the upper side of the first accommodating space and is disposed opposite to the first mounting portion 111, and two second mounting portions 112 are disposed opposite to the left and right sides of the first accommodating space.

Specifically, as shown in fig. 9, the second engaging member 212 includes a second connecting portion 2121 and a stopper portion 2122 vertically connected to the second connecting portion 2121, the second mounting portion 112 includes a second supporting portion 1121 and a second mounting plate 1122 connected to the second supporting portion 1121, the second supporting portion 1121 is connected to the wind shielding member 10, the second mounting plate 1122 is provided with a second through hole, and at least a portion of the stopper portion 2122 passes through the second through hole and is engaged with the second mounting portion 112. When the covering part 20 is installed, the assembly is carried out in a mode of pushing the covering part to slide downwards, and the production efficiency is high.

In this embodiment, as shown in fig. 4, the indoor unit of the air conditioner 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 53, so that the air outlet of the air conditioner enters the accommodating hole 53 through the air outlet channel 61.

In specific implementation, as shown in fig. 7 and 8, the wind shielding member 10 includes a main wind shielding body 12 and an accommodating portion 13 connected to the main wind shielding body 12, and the accommodating portion 13 is located on a side of the main wind shielding body 12 close to the wind outlet; the accommodating portion 13 is disposed below the air outlet channel 61, and the wind shielding main body 12 is disposed in front of the air outlet channel 61, so that when the wind shielding member 70 is located at the second position, the air-conditioning outlet air is discharged from the gap between the accommodating hole 53 and the wind shielding main body 12 through the air outlet channel 61.

In order to realize the movement of the wind blocking member 70, as shown in fig. 4, the accommodating portion 13 has a first accommodating space, the air conditioning indoor unit includes a moving member 30, the moving member 30 is connected to the outlet channel casing 60, at least a portion of the moving member 30 is located in the first accommodating space, and the moving member 30 is in transmission connection with the wind blocking member 70 to drive the wind blocking member 70 to move.

In specific implementation, the first accommodating space is provided with a moving component mounting plate, and at least part of the moving component 30 is fixedly arranged on the moving component mounting plate, so that the moving component 30 drives the wind shielding member 10 to move.

In specific implementation, one end of the air outlet channel 61 close to the wind blocking member 70 is a strip channel.

Preferably, the strip-shaped channel is arc-shaped, the strip-shaped channel has an arc-shaped curved surface, and the accommodating part 13 has an outer wall surface matched with the arc-shaped curved surface, so that the accommodating part 13 is located below the air outlet channel 61 when the wind blocking member 70 is located at the first position.

In a specific embodiment, the receiving hole 53 includes a tapered hole section, and the outer wall surface of the wind shielding member 10 is fitted to the inner wall surface of the tapered hole section.

In specific implementation, the covering member 20 is a disc structure, and the outer surface of the covering member 20 is flush with the indoor unit panel 50. The air outlet structure is more attractive due to the arrangement.

In particular, the windshield 10 and the covering 20 are made of a plastic material. Such an arrangement is relatively inexpensive.

The air outlet structure of the invention is composed of a covering part 20, a moving part 30, a wind shielding part 10 and an air outlet channel shell 60, wherein the wind shielding part 10 and the covering part 20 are installed through a buckle (a first connecting component 21 and a second connecting component 11), the moving part 30 penetrates through the wind shielding part 10 and is installed on the air outlet channel shell 60 and is fixed through a screw, and the covering part 20 and the wind shielding part 10 form an outer side structure which can be pushed out by the moving part 30.

The installation sequence is that, at first, the moving part 30 is pushed forward horizontally, and is installed on the air outlet channel shell 60, and is fixed by screws, then the wind shielding part 10 is installed on the moving part 30 forward horizontally, and finally the covering part 20 is pushed forward into the groove, and is pushed downward, that is, the installation is completed. The disassembly sequence is that, when the air outlet structure is pushed out, a finger presses the elastic buckle (the first installation part 111) inwards, namely, the elastic buckle is released from the hook (the first clamping piece 211) on the lower side, the covering piece 20 is pushed upwards, the upper side of the wind shielding piece 10 can be grasped from the upper side, and the disassembly can be realized by pulling outwards. Wherein, the piece 10 that keeps out the wind is tubaeform, and the leading features has the round assembly to detain (second coupling assembling 11) for the outside, and the centre has the first accommodation space of stepping down and leading for moving part 30, and cover 20 is the arc, and the leading features has 4 pothooks (first coupling assembling 21) for the rear side.

The installation mode adopts the mode of pushing in and sliding downwards for assembly, and the production efficiency is high. The elastic buckle is pressed for disassembly, so that the device is convenient and simple, and is convenient to maintain after sale; the shielding part 20 and the wind shielding part 10 are injection molded parts, so that the structure is simple, the fastening is realized, and the cost is lower. The covering part 20 and the wind shielding part 10 form a sealed space to protect the movement mechanism therein, prevent dust and insects, reduce the noise of movement and ensure the stable operation of the movement mechanism; the 20 arcs of the shielding part, the assembly structure is arranged at the inner side, the buckles are distributed around, the deformation caused by the temperature change of the air outlet is reduced, the outer side is smooth, and the structure is attractive.

The installation mode is stable and reliable, screws are not needed, the structure of the pressing elastic buckle is large, the locking force is strong, the dismounting structure is arranged on the inner side, the situation of mistaken dismounting can not occur to a user, a child can not contact the moving part, and the safety is high.

The air outlet structure has the following beneficial effects:

1. the buckle is adopted, and the assembly is carried out in a mode of pushing the buckle downwards, so that the production efficiency is high, and the cost is lower;

2. the injection molding piece is adopted, so that the structure is simple, the buckle is used for fixing, and the cost is lower;

3. the pressing elastic buckle mode is adopted for disassembly, so that the disassembly is convenient and simple, and the efficiency is higher;

4. the covering part 20 and the wind shielding part 10 form a relatively sealed space to protect the movement mechanism therein, prevent dust and insects and reduce the noise of movement;

5. the covering part 20 is arc-shaped, the assembly structure is smooth at the inner side and the outer side, the periphery is fixed, the deformation is not easy, and the structure is more attractive;

6. the installation is stable, reliable, and the child can't contact motion part, and the security is higher.

The invention also provides an air-conditioning indoor unit, which comprises an indoor unit panel 50 and an air outlet structure, wherein the air outlet structure is arranged in the accommodating hole 53 of the indoor unit panel 50, and 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:

the air outlet structure of the present invention is configured such that at least a portion of the wind blocking member 70 is disposed in the receiving hole 53 of the indoor unit panel 50, and the wind blocking member 70 is movably disposed between the first position and the second position, so that the receiving hole 53 can be blocked when the wind blocking member 70 is at the first position, and the wind blocking member 70 is separated from the receiving hole 53 when the wind blocking member 70 moves to the second position, so that the air conditioner indoor unit can discharge air through a gap between the receiving hole 53 and the wind blocking member 70. The air outlet structure can realize the plugging of the air outlet of the air conditioner and the air outlet of the air conditioner only through the air blocking part 70, and has the advantages of simple structure, high production efficiency and convenience for after-sale maintenance.

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 (20)

1. An air outlet structure for being connected with an air outlet located in an air-conditioning indoor unit, characterized in that, an indoor unit panel (50) of the air-conditioning indoor unit has a receiving hole (53), the receiving hole (53) is communicated with the air outlet, the air outlet structure includes:

the air conditioner indoor unit comprises a wind shielding component (70), at least part of the wind shielding component (70) is arranged in the accommodating hole (53), the wind shielding component (70) is provided with a first position and a second position, the wind shielding component (70) is movably arranged between the first position and the second position so as to seal the accommodating hole (53) when the wind shielding component (70) is located at the first position, and the wind shielding component (70) is separated from the accommodating hole (53) when moving to the second position, so that the air conditioner indoor unit can output air through a gap between the accommodating hole (53) 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 (53) 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, wherein said wind-blocking member (70) comprises:

a wind deflector (10), wherein the wind deflector (10) is arranged in the accommodating hole (53) in a position-adjustable manner, and when the wind deflector (70) is in the first position, the wind deflector (10) is blocked in the accommodating hole (53); when the wind shielding component (70) is in the second position, the wind shielding part (10) is separated from the indoor unit panel (50).

4. An air outlet structure according to claim 3, wherein the wind-blocking member (70) comprises:

the wind shield comprises a cover (20), wherein the cover (20) is connected with the wind shield (10) and is located on one side, away from the air outlet, of the wind shield (10), and the cover (20) covers the wind shield (10) to shield the wind shield (10).

5. The outlet structure according to claim 4, wherein the covering member (20) has an operation waiting position and an installation position, and the covering member (20) is detachably provided to the wind shielding member (10) to be positioned with the wind shielding member (10) when the covering member (20) is in the operation waiting position and to be fixedly connected with the wind shielding member (10) when the covering member (20) is in the installation position.

6. The air outlet structure according to claim 5, wherein a first connecting component (21) is arranged on one side of the covering member (20) close to the wind shielding member (10), the wind shielding member (10) comprises a wind shielding main body portion (12), a second connecting component (11) matched with the first connecting component (21) is arranged on one side of the wind shielding main body portion (12) close to the covering member (20), and the first connecting component (21) is connected with the second connecting component (11), so that the covering member (20) is connected with the wind shielding member (10) through the first connecting component (21) and the second connecting component (11).

7. The air outlet structure according to claim 6, wherein the second connecting component (11) comprises a first mounting portion (111), the first connecting component (21) comprises a first engaging member (211) engaged with the first mounting portion (111), and when the covering member (20) is in the mounting position, the first engaging member (211) is engaged in the first mounting portion (111); the first installation part (111) is adjustably arranged on the wind shielding main body part (12), so that the wind shielding main body part (12) is clamped or separated from the first installation part (111) through adjustment of the first installation part (111).

8. An outlet structure according to claim 7, characterised in that the main wind-shielding part (12) is provided with an adjustment gap enclosing an adjustment plate (1111) for moving the first mounting part (111) by pushing the adjustment plate (1111) to disengage the main wind-shielding part (12) from the first mounting part (111).

9. The outlet structure according to claim 8, wherein the adjustment gap includes a plurality of dividing grooves extending from one end surface to the other end surface of the wind shielding main body portion (12).

10. The air outlet structure according to claim 9, wherein the plurality of dividing grooves include a first dividing groove, a second dividing groove, and a third dividing groove, the first dividing groove is disposed in parallel with the second dividing groove, one end of the third dividing groove communicates with one end of the first dividing groove, and the other end of the third dividing groove communicates with one end of the second dividing groove to enclose the regulating plate (1111) into a rectangular plate.

11. The air outlet structure according to claim 8, wherein the first locking member (211) has a first connection portion (2111) and a hook (2112) perpendicularly connected to the first connection portion (2111), the first mounting portion (111) includes a first support portion (1112) and a first mounting plate (1113) connected to the first support portion (1112), the first support portion (1112) is connected to the adjustment plate (1111), and the first mounting plate (1113) has a first passing hole so that the hook (2112) is locked in the first passing hole when the cover (20) is in the mounting position.

12. The air outlet structure according to claim 6, wherein the second connecting assembly (11) includes a plurality of second installation portions (112), the second installation portions (112) are arranged around the middle portion of the main body portion (12) for shielding the wind at intervals, the first connecting assembly (21) includes a plurality of second clamping pieces (212), the second clamping pieces (212) are arranged in one-to-one correspondence with the second installation portions (112), and each of the second clamping pieces (212) is clamped in the corresponding second installation portion (112).

13. The air outlet structure according to claim 12, wherein the second engaging member (212) has a second connecting portion (2121) and a stopper portion (2122) vertically connected to the second connecting portion (2121), the second mounting portion (112) has a second supporting portion (1121) and a second mounting plate (1122) connected to the second supporting portion (1121), the second supporting portion (1121) is connected to the wind shielding member (10), a second through hole is provided in the second mounting plate (1122), and at least a portion of the stopper portion (2122) passes through the second through hole and is engaged with the second mounting portion (112).

14. The outlet structure of claim 3, wherein the indoor unit of an air conditioner comprises:

air-out passageway casing (60), air-out passageway casing (60) set up the inboard at indoor set panel (50), air-out passageway casing (60) have air-out passageway (61), the one end of air-out passageway (61) with the air outlet intercommunication, the other end of air-out passageway (61) with accommodation hole (53) intercommunication, so that the air conditioner air-out passes through air-out passageway (61) gets into in accommodation hole (53).

15. The outlet structure according to claim 14, wherein the wind shielding member (10) includes a wind shielding main body portion (12) and a receiving portion (13) connected to the wind shielding main body portion (12), the receiving portion (13) being located on a side of the wind shielding main body portion (12) near the outlet; the accommodating part (13) is arranged below the air outlet channel (61), the wind shielding main body part (12) is arranged in front of the air outlet channel (61), so that when the wind shielding part (70) is located at the second position, air outlet of the air conditioner is discharged from a gap between the accommodating hole (53) and the wind shielding main body part (12) through the air outlet channel (61).

16. The outlet structure according to claim 15, wherein the housing portion (13) has a first housing space, and the air conditioning indoor unit comprises:

the moving component (30), the moving component (30) is connected with the air outlet channel shell (60), at least part of the moving component (30) is located in the first accommodating space, and the moving component (30) is in transmission connection with the wind shielding component (70) so as to drive the wind shielding component (70) to move.

17. The outlet structure according to claim 3, wherein the receiving hole (53) includes a tapered hole section, and an outer wall surface of the wind shielding member (10) is fitted to an inner wall surface of the tapered hole section.

18. The outlet structure according to claim 4, characterized in that said covering member (20) is a disk structure, and the outer surface of said covering member (20) is flush with said indoor unit panel (50).

19. An air outlet structure according to claim 4, wherein the wind deflector (10) and the cover (20) are made of a plastic material.

20. An air-conditioning indoor unit comprising an indoor unit panel (50) and an outlet structure disposed in a receiving hole (53) of the indoor unit panel (50), wherein the outlet structure is the outlet structure according to any one of claims 1 to 19.

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