CN214891524U - Air outlet structure for air conditioner and air conditioner - Google Patents

Abstract

The utility model relates to an intelligence electrical apparatus technical field, concretely relates to an air outlet structure and air conditioner for air conditioner. The utility model discloses the air supply direction that aims at solving current air conditioner is single, is difficult to reach the problem that is close to the air current of natural wind. For this purpose, the air outlet structure of the utility model comprises a panel frame, an air guide component and a driving component, wherein the panel frame is provided with an air outlet; the air guide assembly comprises a first air guide panel and a second air guide panel; the driving assembly comprises a driving motor and a transmission component which are arranged on a panel frame, the driving motor is connected with a first air guide panel, the first air guide panel is in transmission connection with a second air guide panel through the transmission component, the transmission component is arranged to drive the second air guide panel to rotate asynchronously relative to the first air guide panel when the first air guide panel rotates, so that rotation angle difference exists between the first air guide panel and the second air guide panel, the air outlet direction can be adjusted along different directions, and air flow close to natural wind is formed.

Description

Air outlet structure for air conditioner and air conditioner

Technical Field

The utility model relates to an intelligence electrical apparatus technical field, concretely relates to an air outlet structure and air conditioner for air conditioner.

Background

As air conditioners are widely used in thousands of households, users have higher and higher requirements on the use performance of the air conditioners. Taking the ducted air conditioner as an example, the air outlet of the volute in the ducted air conditioner is opposite to the air outlet of the ducted air conditioner, so that the blowing direction of the ducted air conditioner is single, and the ducted air conditioner can only blow straight ahead, and the air outlet cannot be upward or downward, and the air outlet direction cannot be effectively adjusted.

In order to solve the problems, in the prior art, the ducted air conditioner is provided with an air outlet structure for guiding air, the air outlet structure comprises an air outlet frame, a decoration panel and an air guide panel, the decoration panel is located on the outer side wall of the air outlet frame, an air outlet is arranged on the decoration panel, the air guide panel is rotatably arranged at the air outlet, and the air outlet direction of the ducted air conditioner is adjusted through the air guide panel. However, the natural wind flows at different phase angles by the airflow generated by the plurality of air sources, the phase is constantly changed, the airflow is guided by the integrated air guide panel, the air supply direction is single, the airflow close to the natural wind is difficult to achieve, and the use experience of a user is influenced.

Accordingly, there is a need in the art for a new outlet structure for an air conditioner and an air conditioner to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned problem in the prior art, namely solve the air supply direction singleness of the existing air conditioner, it is difficult to reach the air current close to the natural wind, the user experiences the relatively poor problem of experience, the utility model provides an air outlet structure for air conditioner, the air outlet structure includes the panel frame, wind-guiding assembly and drive assembly, the said panel frame is equipped with the air outlet; the air guide assembly comprises a first air guide panel and a second air guide panel in transmission connection with the first air guide panel, the first air guide panel and the second air guide panel are both rotatably arranged at the air outlet, and the first air guide panel and the second air guide panel are arranged at intervals along the length direction of the air outlet; the driving assembly comprises a driving motor and a transmission component which are arranged on the panel frame, the driving motor is connected with the first air guide panel, the first air guide panel is in transmission connection with the second air guide panel through the transmission component, the driving motor is arranged to drive the first air guide panel to rotate, and the transmission component is arranged to drive the second air guide panel to rotate asynchronously relative to the first air guide panel when the first air guide panel rotates.

In a preferred technical scheme of the air outlet structure, a first connecting plate is further arranged at the air outlet, a first through hole is formed in the first connecting plate, a first rotating shaft is arranged at a first end of the first air guide panel, the first rotating shaft extends out of the first through hole and is in transmission connection with a first end of the transmission member, and a second end of the first air guide panel is in transmission connection with an output end of the driving motor; a second connecting plate is further arranged at the air outlet, and a second through hole is formed in the second connecting plate; two ends of the second air guide panel are respectively provided with a second rotating shaft, and the second rotating shaft close to one side of the second connecting plate extends out of the second through hole and is in transmission connection with the second end of the transmission component; the inner side wall of the first side of the air outlet is provided with a connecting hole, and the second rotating shaft close to the first side of the air outlet is connected with the second side of the air outlet in a rotating mode through the connecting hole.

In a preferred technical solution of the above air outlet structure, the driving motor is fixedly connected to an outer side wall of the second side of the air outlet; the outer side wall of the second side of the air outlet is provided with a third through hole, the second end of the first air guide panel is provided with a connecting component, and the output end of the driving motor extends out of the third through hole and is in transmission connection with the first air guide panel through the connecting component.

In a preferred technical solution of the above air outlet structure, the air outlet structure further includes a first connecting frame disposed in the panel frame, and the first connecting frame is provided with a first axle hole; the inner side surface of the first air guide panel is provided with a third rotating shaft, and the third rotating shaft is rotatably connected with the first connecting frame through the first shaft hole.

In a preferred technical solution of the above air outlet structure, the air outlet structure further includes a second connecting frame disposed in the panel frame, and the second connecting frame is provided with a second shaft hole; and a fourth rotating shaft is arranged on the inner side surface of the second air guide panel and is rotatably connected with the second connecting frame through the second shaft hole.

In a preferred technical solution of the above air outlet structure, the panel frame includes an air outlet frame and an air outlet panel connected to each other or integrally formed; the air outlet is arranged on the air outlet panel; the first connecting frame and the second connecting frame are arranged in the air outlet frame at intervals along the length direction of the air outlet frame.

In a preferred technical solution of the above air outlet structure, the air outlet structure further includes a reset member disposed on a second side of the air outlet, and the reset member is connected to the second air guide panel and is configured to reset the second air guide panel to an initial position.

In a preferred technical scheme of the air outlet structure, the transmission member is a torsion spring; and/or the return member is a torsion spring.

In a preferred technical solution of the air outlet structure, the number of the first air guide panels is plural, and the plural first air guide panels are sequentially arranged along a height direction of the air outlet; and/or the number of the second air guide panels is multiple, and the second air guide panels are sequentially arranged along the height direction of the air outlet.

Furthermore, the utility model also provides an air conditioner, this air conditioner include any one of above-mentioned preferred technical scheme the air outlet structure.

In the preferred technical scheme of the utility model, the air outlet structure comprises a panel frame, an air guide component and a driving component, and an air outlet is arranged on the panel frame; the air guide assembly comprises a first air guide panel and a second air guide panel in transmission connection with the first air guide panel, the first air guide panel and the second air guide panel are both rotatably arranged at the air outlet, and the first air guide panel and the second air guide panel are arranged at intervals along the length direction of the air outlet; the driving assembly comprises a driving motor and a transmission component which are arranged on the panel frame, the driving motor is connected with the first air guide panel, the first air guide panel is in transmission connection with the second air guide panel through the transmission component, the driving motor is arranged to drive the first air guide panel to rotate, and the transmission component is arranged to drive the second air guide panel to rotate asynchronously relative to the first air guide panel when the first air guide panel rotates.

For leading by an integrative wind-guiding panel among the prior art, the single technical scheme of air supply direction, the utility model discloses a first wind-guiding panel passes through drive component and is connected with the transmission of second wind-guiding panel, drive component sets to and can drive second wind-guiding panel when first wind-guiding panel rotates for first wind-guiding panel asynchronous rotation, make at same time quantum, there is the rotation angle difference between first wind-guiding panel and the second wind-guiding panel, make first wind-guiding panel and second wind-guiding panel can follow different directions and adjust the air-out direction, make the wind flow of flowing through the air outlet to different spaces, promote the wind and carry out the flash mixed, thereby form the air current that is close to the natural wind, use comfort has been improved, and then user's use experience has been improved. Moreover, the first air guide panel and the second air guide panel which are independent of each other are arranged, so that the length and the width of the air guide panel can be effectively reduced relative to one air guide panel, the rigidity of the air guide panel is improved, the structural strength of the air guide panel is improved, and the probability of deformation of the air guide panel is reduced.

Furthermore, the driving motor drives the first air guide panel to rotate, and when the first air guide panel rotates, the transmission component drives the second air guide panel to rotate asynchronously relative to the first air guide panel. Compared with the technical scheme that the first air guide panel and the second air guide panel are respectively driven to rotate by the two driving mechanisms, the technical scheme that one driving mechanism is matched with the transmission member is adopted, the number of the driving mechanisms is reduced, so that the production cost is reduced, the space requirement on the air outlet structure is reduced, and the air conditioner can be suitable for more application scenes.

Further, the air outlet structure is including setting up the reset component at the second side of air outlet, and the reset component is connected with second wind guide panel, and when needs closed second wind guide panel, make second wind guide panel can reset to the initial position smoothly through the reset component for second wind guide panel can accurately move to in the air outlet, makes the more pleasing to the eye of air outlet structure's outward appearance, has improved user's visual effect.

Drawings

The air outlet structure for an air conditioner and the air conditioner of the present invention will be described with reference to the accompanying drawings. In the drawings:

fig. 1 is a schematic view of a first state of the air outlet structure of the present invention;

fig. 2 is a schematic view of the air outlet structure according to the present invention in a second state;

FIG. 3 is an enlarged view of a portion of FIG. 2 at I;

fig. 4 is an exploded view of the air outlet structure of the present invention;

fig. 5 is a first position schematic view of the air guide assembly of the present invention;

FIG. 6 is a cross-sectional view taken along A-A of FIG. 5;

fig. 7 is a second position schematic view of the air guide assembly of the present invention;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 7;

fig. 9 is a third position schematic view of the air guide assembly of the present invention;

FIG. 10 is a cross-sectional view taken along the line C-C of FIG. 9;

fig. 11 is a fourth position schematic view of the air guide assembly of the present invention;

fig. 12 is a sectional view taken along the direction D-D in fig. 11.

List of reference numerals

1. A panel frame; 11. an air outlet; 111. a third through hole; 112. connecting holes; 113. a first air outlet; 114. a second air outlet; 12. an air outlet frame; 13. an air outlet panel;

2. an air guide assembly; 21. a first air guide panel; 211. a connecting member; 2111. a connecting through hole; 212. a first rotating shaft; 213. a first connecting member; 214. a third rotating shaft; 215. a third connecting member; 22. a second air guide panel; 221. a second rotating shaft; 222. a second connecting member; 223. a fourth rotating shaft; 224. a fourth connecting member;

3. a drive assembly; 31. a transmission member;

4. a first connecting plate; 41. a first through hole;

5. a second connecting plate; 51. a second through hole;

6. a third connecting plate;

7. a first connecting frame; 71. a first shaft hole;

8. a second link frame; 81. a second shaft bore.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. For example, although the drive motor is shown as being disposed on the first side of the panel frame, this arrangement is not a constant one and can be adjusted as desired by one skilled in the art to suit the particular application. Such as the drive motor may be provided at the second side of the panel frame, etc.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "inner", "outer", "upper", "lower", "left", "right", etc. are based on the direction or positional relationship shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," "fourth," "fifth," "sixth," "seventh," and "eighth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Based on the technical problem that proposes in the background art, the utility model provides an air outlet structure for air conditioner, this air outlet structure's first wind-guiding panel passes through drive component and is connected with the transmission of second wind-guiding panel, drive component sets up to drive the asynchronous rotation of second wind-guiding panel for first wind-guiding panel when first wind-guiding panel rotates, make in same time quantum, there is the rotation angle difference between first wind-guiding panel and the second wind-guiding panel, make first wind-guiding panel and second wind-guiding panel can adjust the air-out direction along different directions, make the wind flow through the air outlet to different spaces, promote wind to mix fast, thereby form the air current that is close to the natural wind, use comfort is improved, and then user experience is improved; moreover, the first air guide panel and the second air guide panel which are independent of each other are arranged, so that the length and the width of the air guide panel can be effectively reduced relative to one air guide panel, the rigidity of the air guide panel is improved, the structural strength of the air guide panel is improved, and the probability of deformation of the air guide panel is reduced. Furthermore, the first air guide panel is driven to rotate by the driving motor, when the first air guide panel rotates, the second air guide panel is driven to rotate asynchronously relative to the first air guide panel by the transmission component, and compared with the technical scheme that the first air guide panel and the second air guide panel are respectively driven to rotate by the two driving mechanisms, the number of the driving mechanisms is reduced, so that the production cost is reduced, the space requirement on an air outlet structure is reduced, and the air conditioner can be suitable for more application scenes.

First, referring to fig. 1 and 2, the air outlet structure for an air conditioner according to the present invention will be described. Wherein, fig. 1 is a schematic view of a first state of the air outlet structure of the present invention; fig. 2 is a schematic view of a second state of the air outlet structure of the present invention.

As shown in fig. 1 and 2, the air outlet structure for an air conditioner of the present invention includes a panel frame 1, an air guiding assembly 2 and a driving assembly 3, wherein the panel frame 1 is provided with an air outlet 11; the air guide assembly 2 comprises a first air guide panel 21 and a second air guide panel 22 in transmission connection with the first air guide panel 21, the first air guide panel 21 and the second air guide panel 22 are both rotatably arranged at the air outlet 11, and the first air guide panel 21 and the second air guide panel 22 are arranged at intervals along the length direction of the air outlet 11 (i.e. the direction from left to right in fig. 1); the driving assembly 3 includes a driving motor (not shown in the figure) and a transmission member 31 which are arranged on the panel frame 1, the driving motor is connected with the first wind guide panel 21, the first wind guide panel 21 is in transmission connection with the second wind guide panel 22 through the transmission member 31, the driving motor is arranged to drive the first wind guide panel 21 to rotate, the transmission member 31 is arranged to drive the second wind guide panel 22 to rotate asynchronously relative to the first wind guide panel 21 when the first wind guide panel 21 rotates, that is, in the same time period, the rotation angles of the first wind guide panel 21 and the second wind guide panel 22 are different from each other, and there is a rotation angle difference between the two.

Wherein, the quantity of first wind-guiding panel 21 can be one, two, three or a plurality of, no matter how the quantity of adjusting and setting first wind-guiding panel 21, with a plurality of first wind-guiding panels 21 along the direction of height (from lower supreme direction in fig. 1) of air outlet 11 set gradually can, the utility model discloses do not do any restriction to the quantity of first wind-guiding panel 21.

Wherein, the quantity of second wind guide panel 22 can be one, two, three or a plurality of, no matter how to adjust and set up the quantity of second wind guide panel 22, with a plurality of second wind guide panel 22 along the direction of height of air outlet 11 set gradually can, the utility model discloses do not any restriction to the quantity of second wind guide panel 22.

The driving assembly of the present invention will be described below with reference to fig. 2 to 4, taking two first wind guide panels and two second wind guide panels as examples. Wherein fig. 3 is a partial enlarged view at I in fig. 2; fig. 4 is an exploded view of the air outlet structure of the present invention.

As shown in fig. 2 to 4, a first connecting plate 4 is further disposed at the air outlet 11, a first through hole 41 is disposed on the first connecting plate 4, a first rotating shaft 212 is disposed at a first end (i.e., an end on the right side of the paper surface in fig. 2) of the first air guiding panel 21, the first rotating shaft 212 extends out of the first through hole 41 and is in transmission connection with a first end (i.e., an end on the left side of the paper surface in fig. 2) of the transmission member 31, and a second end (i.e., an end on the left side of the paper surface in fig. 2) of the first air guiding panel 21 is in transmission connection with an output end of the driving motor.

Further, a second connecting plate 5 is further disposed at the air outlet 11, the second connecting plate 5 is located on the right side of the first connecting plate 4 (i.e., the right side of the paper surface in fig. 2), and a second through hole 51 is disposed on the second connecting plate 5; two ends of the second air guiding panel 22 are respectively provided with a second rotating shaft 221, and the second rotating shaft 221 (i.e. the second rotating shaft on the right side of the paper surface in fig. 4) close to one side of the second connecting plate 5 extends out of the second through hole 51 and is in transmission connection with the second end of the transmission member 31; be equipped with connecting hole 112 on the inside wall of the first side of air outlet 11, the second pivot 221 (being the left second pivot of paper in fig. 4) that is close to the first side of air outlet 11 is connected through connecting hole 112 and the second side rotation of air outlet 11, second wind guide panel 22 is connected with driving motor indirectly, second wind guide panel 22 is asynchronous rotation relative to first wind guide panel 21 under drive component 31's drive, make there is the rotation angle difference between first wind guide panel 21 and the second wind guide panel 22, make first wind guide panel 21 and second wind guide panel 22 can adjust the air-out direction along different directions, make the wind flow direction different spaces of air outlet 11 that flow through, promote the wind and carry out the flash mixed, thereby form the air current that is close to natural wind, use comfort has been improved, and then user's use experience has been improved.

Preferably, the first rotating shaft 212 may be connected to the second end of the first air guide panel 21 through a first connecting member 213, wherein the first connecting member 213 may be a connecting plate, a connecting block, a rib, or the like.

Preferably, the second rotating shaft 221 may be connected to both ends of the second air guide panel 22 through a second connector 222, wherein the second connector 222 may be a connecting plate, a connecting block, a rib, or other connecting structures.

Preferably, the transmission member 31 is a first torsion spring; alternatively, the transmission member 31 may be an elastic member such as rubber that can be deformed to rotate the first wind guide panel 21 and the second wind guide panel 22 asynchronously.

Preferably, a first preset resistance f is arranged between the second wind guide panel 22 and the second connecting plate 5₁The first wind guide panel 21 and the second wind guide panel 22 are in transmission connection through a first torsion spring, and when the first wind guide panel 21 rotates to a preset angle (for example, 10 °), the power of the first torsion spring is accumulated to a preset power F₁And preset power F₁Greater than a first predetermined resistance f₁Capable of overcoming a first predetermined resistance f₁Thereby, the second wind guide panel 22 can be driven to rotate and can swing along with the first wind guide panel 21, and force delay exists between the first wind guide panel 21 and the second wind guide panel 22, so that the second wind guide panel 22 can swing along with the first wind guide panel 21The difference in rotation angle between the first air guide panel 21 and the second air guide panel 22 is obtained, so that the first air guide panel 21 and the second air guide panel 22 can adjust the air outlet direction in different directions.

It should be noted that the preset angle listed above is only an example, and not a limitation, and those skilled in the art can flexibly adjust and set the preset angle according to the actual use requirement in the practical application, and the present invention is not limited to this.

With reference to fig. 2 to 4, the driving motor is fixedly connected to the outer sidewall of the second side of the air outlet 11 (i.e. the left side of the paper surface in fig. 2), and a third through hole 111 is disposed on the outer sidewall of the second side of the air outlet 11; the second end of the first air guide panel 21 is provided with a connecting member 211, the output end of the driving motor extends out of the third through hole 111 and is in transmission connection with the first air guide panel 21 through the connecting member 211, the first air guide panel 21 is directly connected with the driving motor, and the first air guide panel 21 can continuously act (for example, open, close, rotate and the like) under the driving of the driving motor, so that various set actions and air supply ranges can be realized.

Of course, the installation position of the driving motor is not limited to the above-mentioned positions, and the driving motor may be installed on the outer sidewall of the first side (i.e., the right side of the paper surface in fig. 2) of the outlet 11, the driving motor may be directly connected to the second wind guide panel 22, and the second wind guide panel 22 may be connected to the first wind guide panel 21 through the transmission member 31 in a transmission manner.

Preferably, the driving motor is fixedly connected to the outer side wall of the first side of the air outlet 11 through threads, welding and the like, so that the connection stability of the driving motor is improved.

Preferably, the driving motor may be a stepping motor, and the rotation angle of the first air guide panel 21 may be precisely controlled by controlling the number of output steps of the stepping motor. Of course, the driving motor may be a servo motor or other motors.

Preferably, the connection member 211 may be a connection structure such as a connection plate. Taking the connection board as an example, the connection board is connected with a through hole 2111, and the output end of the driving motor extends out of the third through hole 111 and is in transmission connection with the first air guide panel 21 through the connection through hole 2111.

Referring to fig. 2 to 4 again, the air outlet structure further includes a third connecting plate 6, the third connecting plate 6 is disposed in the air outlet 11, and divides the air outlet 11 into a first air outlet 113 and a second air outlet 114, the two first air guide panels 21 are rotatably disposed at the first air outlet 113, and the two second air guide panels 22 are rotatably disposed at the second air outlet 114; a first end (i.e., an end on the inner side of the paper surface in fig. 3) of the first connecting plate 4 is connected to a first end (i.e., an end on the left side of the paper surface in fig. 3) of the third connecting plate 6, a second end (i.e., an end on the right side of the paper surface in fig. 3) of the third connecting plate 6 is connected to a first end (i.e., an end on the inner side of the paper surface in fig. 3) of the second connecting plate 5, the first connecting plate 4 and the second connecting plate 5 are both located on the inner side (i.e., the side shown in fig. 3) of the third connecting plate 6, the first connecting plate 4 and the third connecting plate 6 are perpendicular to each other, and the second connecting plate 5 and the third connecting plate 6 are perpendicular to each other. When first wind guide panel 21 and second wind guide panel 22 are in the closed state, first wind guide panel 21, second wind guide panel 22 and third connecting plate 6 can seal whole air outlet 11, do not have the clearance for the outward appearance of air outlet structure is more pleasing to the eye, has improved user's visual effect.

Referring next to fig. 2 and 4, the air outlet structure of the present invention will be further described.

As shown in fig. 2 and 4, the air outlet structure further includes a first connecting frame 7 and a second connecting frame 8 disposed in the panel frame 1, the first connecting frame 7 is provided with a first axle hole 71, and the second connecting frame 8 is provided with a second axle hole 81; a third rotating shaft 214 is arranged on the inner side surface (i.e. the side shown in fig. 2) of the first air guide panel 21, and the third rotating shaft 214 is rotatably connected with the first connecting frame 7 through the first shaft hole 71; the inner side surface (i.e., the side shown in fig. 2) of the second air guide panel 22 is provided with a fourth rotating shaft 223, and the fourth rotating shaft 223 is rotatably connected to the second connecting frame 8 through the second shaft hole 81. Of course, it can be understood by those skilled in the art that the first connecting frame 7 may be provided only in the panel frame 1, and the first wind guide panel 21 may be rotatably connected to the first connecting frame 7; alternatively, only the second connecting frame 8 may be provided in the panel frame 1, and the second wind guide panel 22 may be rotatably connected to the second connecting frame 8.

Preferably, the third rotating shaft 214 may be connected to the inner side surface of the first air guide panel 21 through a third connecting member 215, wherein the third connecting member 215 may be a connecting plate, a connecting block, a rib, or other connecting structures.

Preferably, the fourth rotating shaft 223 can be connected to the inner side surface of the second air guide panel 22 through a fourth connector 224, wherein the fourth connector 224 can be a connecting plate, a connecting block, a rib, or the like.

With continuing reference to fig. 4 and with reference to fig. 2, the panel frame 1 includes an air outlet frame 12 and an air outlet panel 13 connected to each other; the air outlet panel 13 is provided with openings, the air outlet 11 is formed by enclosing the openings of the air outlet frame 12 and the air outlet panel 13 together, the first connecting plate 4, the second connecting plate 5 and the third connecting plate 6 are all arranged on the air outlet panel 13, the first connecting frame 7 and the second connecting frame 8 are arranged in the air outlet frame 12 at intervals along the length direction of the air outlet frame 12 (i.e., the direction from left to right in fig. 4), the first connecting frame 7 is located in an area opposite to the first air outlet 113, and the second connecting frame 8 is located in an area opposite to the second air outlet 114. Of course, the first connecting plate 4, the second connecting plate 5 and the third connecting plate 6 may also be disposed on the air outlet frame 12, and those skilled in the art may flexibly adjust and set the disposition positions of the first connecting plate 4, the second connecting plate 5 and the third connecting plate 6 in practical applications. In addition, the air outlet frame 12 and the air outlet panel 13 can also be integrally formed, and the integrally formed structure is convenient for processing and manufacturing the grinding tool.

Although not shown in the figure, the air outlet structure further includes a reset component disposed on the second side of the air outlet 11, the reset component is connected to the second air guide panel 22, when the second air guide panel 22 needs to be closed, the second air guide panel 22 can be reset to the initial position smoothly through the reset component, that is, the second air guide panel 22 is located at the position inside the air outlet 11, so that the second air guide panel 22 can be accurately moved into the air outlet 11, the appearance of the air outlet structure is more attractive, and the visual effect of a user is improved.

Preferably, the restoring member is a second torsion spring, a first end of the second torsion spring is connected to an inner sidewall of the second side of the air outlet 11, and a second end of the second torsion spring is connected to an end of the second wind guide panel 22 close to the second side of the air outlet 11. Alternatively, the second torsion spring may be sleeved on the second rotating shaft 221 near the second side of the air outlet 11, and a first end of the second torsion spring is connected to the inner sidewall of the second side of the air outlet 11, and a second end of the second torsion spring is connected to an end of the second wind guide panel 22 near the second side of the air outlet 11.

Further, the second torsion spring has a preset pressure F₂Second preset resistance f of second air guide panel 22₂Capable of overcoming a second predetermined resistance f₂Thereby ensuring that the second air guide panel 22 can be smoothly returned to the initial position.

Further, during the rotation of the first wind guide panel 21 and the second wind guide panel 22, the power of the first torsion spring is greater than the preset pressure F of the second torsion spring₂With a first predetermined resistance f₁In addition, the second air guide panel 22 can be surely rotated.

Of course, the structure of the return member is not limited to the torsion spring described above, and may be an elastic member such as rubber that can be deformed to smoothly return the second wind guide panel 22 to the initial position.

It should be noted that the initial positions listed above are only exemplary, but not limiting, and those skilled in the art can flexibly adjust and set the initial positions according to actual use requirements in practical applications, and the present invention does not limit this.

With reference to fig. 5 to 12, four working positions of the first wind guide plate and the second wind guide plate of the present invention will be described by taking two first wind guide plates and two second wind guide plates as examples. Fig. 5 is a schematic view of a first position of the air guide assembly according to the present invention; FIG. 6 is a cross-sectional view taken along A-A of FIG. 5; fig. 7 is a second position schematic view of the air guide assembly of the present invention; FIG. 8 is a cross-sectional view taken along line B-B of FIG. 7; fig. 9 is a third position schematic view of the air guide assembly of the present invention; FIG. 10 is a cross-sectional view taken along the line C-C of FIG. 9; fig. 11 is a fourth position schematic view of the air guide assembly of the present invention; fig. 12 is a sectional view taken along the direction D-D in fig. 11.

The first working position, i.e. a position in which the person is not directly blowing.

As shown in fig. 5 and 6, the first air guide panel 21 and the second air guide panel 22 located below the paper surface are controlled to close, the driving motor is controlled to drive the first air guide panel 21 located above the paper surface to rotate, and the second air guide panel 22 located above the paper surface is driven by the transmission member 31 to rotate asynchronously with respect to the rotating first air guide panel 21, the first air guide panel 21 located above the paper surface and the first connecting frame (not shown in the figure) form a first limit structure, the second air guide panel 22 located above the paper surface and the second connecting frame 8 form a second limit structure, so that the rotation angles of the first air guide panel 21 and the second air guide panel 22 are limited, a first included angle between the first air guide panel 21 and the horizontal direction is ensured to be 10 to 20 ° (as shown in fig. 6), a second included angle between the second air guide panel 22 and the horizontal direction is ensured to be 10 to 20 ° (as shown in fig. 6), and the first included angle and the second included angle are different from each other, so that air can be discharged upwards in an inclined mode, the air is blown out towards the ceiling, the air blown out from the air outlet 11 of the air conditioner is mixed with indoor ambient air and then touches the skin of a human body, and energy impact on the human body is reduced.

The second operating position, the horizontal position.

As shown in fig. 7 and 8, the driving motor is controlled to drive the two first air guide panels 21 to rotate, and the transmission member 31 drives the second air guide panel 22 to rotate asynchronously with respect to the first air guide panel 21, respectively, the first air guide panel 21 rotates to a third angle with the horizontal direction of 0 ° (the angle shown in fig. 8), and the second air guide panel 22 rotates to a fourth angle with the horizontal direction of 10 ° (the angle shown in fig. 8), so that the air can be discharged obliquely upwards, the air is blown out basically horizontally, the air blowing distance is farthest, and the air blowing effect is the best.

The third operating position is a cooling position for a cooling mode.

As shown in fig. 9 and 10, the driving motor is controlled to drive the two first air guide panels 21 to rotate, and the transmission member 31 is used to drive the second air guide panel 22 to rotate asynchronously with respect to the first air guide panel 21, the first air guide panel 21 rotates to a fifth angle with the horizontal direction which is 45 degrees obliquely downward (as shown in fig. 10), the second air guide panel 22 rotates to a sixth angle with the horizontal direction which is 35 degrees obliquely downward (as shown in fig. 10), different air outlet angles form an obliquely downward air curtain, and the obliquely downward air curtain blows out from 35 degrees to 45 degrees, so that the blown air can be rapidly and uniformly mixed with the indoor ambient air, and the refrigeration is uniform.

And a fourth operating position, namely a heating position of the heating mode.

As shown in fig. 11 and 12, the driving motor is controlled to drive the two first air guide panels 21 to rotate, and the transmission member 31 is used to drive the second air guide panel 22 to rotate asynchronously with respect to the first air guide panel 21, the seventh included angle between the first air guide panel 21 and the horizontal direction is 60 degrees obliquely downward (as shown in fig. 12), the eighth included angle between the second air guide panel 22 and the horizontal direction is 50 degrees obliquely downward (as shown in fig. 12), and different air outlet angles form an obliquely downward air curtain which is blown out obliquely downward from 50 degrees to 60 degrees, so that the blown air can be rapidly and uniformly mixed with the indoor ambient air, and the heating is uniform.

It should be noted that, the angles listed in the four working positions are only exemplary, but not limiting, and those skilled in the art can flexibly adjust and set the angles according to actual use requirements in practical applications, and the present invention is not limited to this.

Furthermore, the utility model also provides an air conditioner, this air conditioner includes the air outlet structure of any one of above-mentioned embodiment.

It will be appreciated by those of skill in the art that although some embodiments described herein include some but not other features included in other embodiments, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims of the present invention, any of the claimed embodiments may be used in any combination.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. An air outlet structure for an air conditioner is characterized by comprising a panel frame, an air guide assembly and a driving assembly, wherein an air outlet is formed in the panel frame; wherein the content of the first and second substances,

the air guide assembly comprises a first air guide panel and a second air guide panel in transmission connection with the first air guide panel, the first air guide panel and the second air guide panel are both rotatably arranged at the air outlet, and the first air guide panel and the second air guide panel are arranged at intervals along the length direction of the air outlet;

the driving assembly comprises a driving motor and a transmission component which are arranged on the panel frame, the driving motor is connected with the first air guide panel, the first air guide panel is in transmission connection with the second air guide panel through the transmission component, the driving motor is arranged to drive the first air guide panel to rotate, and the transmission component is arranged to drive the second air guide panel to rotate asynchronously relative to the first air guide panel when the first air guide panel rotates.

2. The air outlet structure of claim 1, wherein a first connecting plate is further disposed at the air outlet, a first through hole is disposed on the first connecting plate, a first rotating shaft is disposed at a first end of the first air guiding panel, the first rotating shaft extends out of the first through hole and is in transmission connection with a first end of the transmission member, and a second end of the first air guiding panel is in transmission connection with an output end of the driving motor;

a second connecting plate is further arranged at the air outlet, a second through hole is formed in the second connecting plate, a second rotating shaft is arranged at each of two ends of the second air guide panel, and the second rotating shaft close to one side of the second connecting plate extends out of the second through hole and is in transmission connection with a second end of the transmission member;

the inner side wall of the first side of the air outlet is provided with a connecting hole, and the second rotating shaft close to the first side of the air outlet is connected with the second side of the air outlet in a rotating mode through the connecting hole.

3. The air outlet structure of claim 2, wherein the driving motor is fixedly connected to an outer sidewall of the second side of the air outlet;

the outer side wall of the second side of the air outlet is provided with a third through hole, the second end of the first air guide panel is provided with a connecting component, and the output end of the driving motor extends out of the third through hole and is in transmission connection with the first air guide panel through the connecting component.

4. The air outlet structure of claim 2 or 3, further comprising a first connecting frame disposed in the panel frame, wherein the first connecting frame is provided with a first axle hole;

the inner side surface of the first air guide panel is provided with a third rotating shaft, and the third rotating shaft is rotatably connected with the first connecting frame through the first shaft hole.

5. The air outlet structure of claim 4, further comprising a second connecting frame disposed in the panel frame, wherein the second connecting frame is provided with a second shaft hole;

and a fourth rotating shaft is arranged on the inner side surface of the second air guide panel and is rotatably connected with the second connecting frame through the second shaft hole.

6. The air outlet structure of claim 5, wherein the panel frame comprises an outlet frame and an outlet panel connected to or integrally formed with each other; wherein the content of the first and second substances,

the air outlet is arranged on the air outlet panel;

the first connecting frame and the second connecting frame are arranged in the air outlet frame at intervals along the length direction of the air outlet frame.

7. The air outlet structure of claim 1, further comprising a resetting member disposed at a second side of the air outlet, wherein the resetting member is connected to the second air guiding panel and is configured to reset the second air guiding panel to an initial position.

8. The air outlet structure of claim 7, wherein the transmission member is a torsion spring; and/or

The reset member is a torsion spring.

9. The air outlet structure according to any one of claims 1 to 3, wherein the number of the first air guide panels is plural, and the plural first air guide panels are sequentially arranged in a height direction of the air outlet; and/or

The quantity of second wind guide panel is a plurality of, a plurality of second wind guide panel follow the direction of height of air outlet sets gradually.

10. An air conditioner characterized in that it comprises an air outlet structure according to any one of claims 1 to 9.

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