CN213273149U - Air guide device for air conditioner and air conditioner - Google Patents

Abstract

The utility model discloses an air ducting and air conditioner for air conditioner is equipped with the air-out wind channel in the air conditioner, and the one end in air-out wind channel forms to the air outlet, and air ducting includes: the first air guide part and the second air guide part are arranged along the width direction, and the air outlet is closed by the first air guide part and the second air guide part at a first position; in the second position, the air outlet is opened by the first air guide part and the second air guide part, a first air flow channel is defined between the first air guide part and the air outlet channel, a second air flow channel is defined between the second air guide part and the air outlet channel, and the first air flow channel and the second air flow channel respectively extend towards two opposite sides of the air outlet in the air flow direction. According to the utility model discloses an air ducting for air conditioner can avoid being located the air current and blow the user directly, and then promotes the travelling comfort that the user used.

Description

Air guide device for air conditioner and air conditioner

Technical Field

The utility model belongs to the technical field of air conditioning technology and specifically relates to an air ducting and air conditioner for air conditioner is related to.

Background

In the air conditioner field, the air-out intensity of the air outlet of air conditioner has certain impact force, is for a long time by air conditioner cold wind or hot-blast directly-blown to healthy certain harm, when the user is directly blown to the air-out in addition, user experience feels relatively poor, influences the travelling comfort that the user used.

SUMMERY OF THE UTILITY MODEL

The utility model provides an air ducting for air conditioner, an air ducting for air conditioner can promote the travelling comfort that the user used.

The utility model also provides an air conditioner, the air conditioner includes the above-mentioned air ducting that is used for the air conditioner.

According to the utility model discloses an air ducting for air conditioner, be equipped with the air-out wind channel in the air conditioner, the one end in air-out wind channel forms the air outlet, air ducting is suitable for and closes the first position of air outlet and open the second position of air outlet moves, air ducting includes first wind-guiding portion and the second wind-guiding portion that sets up along the width direction, the one end of second wind-guiding portion with the one end of first wind-guiding portion is connected, in the first position, first wind-guiding portion and the second wind-guiding portion close the air outlet; at the second position, the first air guide part and the second air guide part open the air outlet, a first air flow channel is defined between the first air guide part and the air outlet channel, a second air flow channel is defined between the second air guide part and the air outlet channel, and the first air flow channel and the second air flow channel respectively extend towards two opposite sides of the air outlet in the air flow direction.

According to the utility model discloses an air ducting for air conditioner, through setting up first wind-guiding portion and second wind-guiding portion, when air ducting removed to the second position, the air current that blows out from the air outlet can be shunted to first airflow channel and second airflow channel, because in the direction that the air current flows, first airflow channel and second airflow channel extend towards the relative both sides of air outlet respectively to can avoid being located the air current and directly blow the user, and then promote the travelling comfort that the user used.

In some embodiments of the present invention, an included angle exists between the first wind-guiding portion and the second wind-guiding portion.

In some embodiments of the present invention, a junction of the first wind-guiding portion and the second wind-guiding portion is in smooth transition.

In some embodiments of the present invention, a wall surface of the first air guiding portion adjacent to the air outlet is formed as a curved surface.

In some embodiments of the present invention, the wall surface of the first wind guiding portion adjacent to the air outlet is formed as a concave surface, the wind guiding device is adapted to rotate between a first position and a third position, in the third position, the first wind guiding portion is located at the lower end of the air outlet, and the wall surface of the air outlet adjacent to the first wind guiding portion is tangent to the lower wall surface of the air outlet duct.

In some embodiments of the present invention, a wall surface of the second air guiding portion adjacent to the air outlet is formed as a curved surface.

In some embodiments of the present invention, the wall surface of the second wind guiding portion adjacent to the air outlet is formed as a concave surface, the wind guiding device is adapted to rotate between a first position and a fourth position, the fourth position is located at the upper end of the air outlet, and the wall surface of the air outlet is tangent to the upper wall surface of the air outlet duct.

In some embodiments of the present invention, the air guiding device is adapted to rotate between a first position and a fifth position, and in the fifth position, the air guiding device is located on a side of the lower wall surface of the air outlet duct away from the air outlet; or, in the fifth position, the air guide device is located on one side, away from the air outlet, of the upper wall surface of the air outlet duct.

In some embodiments of the present invention, an end of the first wind guiding portion departing from the second wind guiding portion is an end a, an end of the second wind guiding portion departing from the first wind guiding portion is an end B, an end of the first wind guiding portion connected to the second wind guiding portion is an end C, a connecting line of the end a to the end B is a reference line, and the end C is located at a side of the reference line adjacent to the air outlet.

In some embodiments of the present invention, the distance between the C terminal and the reference line is L1, and satisfies: l1 is more than or equal to 10 mm.

In some embodiments of the present invention, the connection line of the a end, the B end and the C end is formed as a triangle, and satisfies: the angle CBA is less than or equal to 5 degrees and less than or equal to 45 degrees, the angle CAB is less than or equal to 5 degrees and less than or equal to 45 degrees, and the angle ACB is less than or equal to 90 degrees and less than or equal to 175 degrees.

In some embodiments of the present invention, the thickness of the first wind guiding portion and the second wind guiding portion is H, and satisfies: h is more than or equal to 1.5mm and less than or equal to 10 mm.

According to the utility model discloses air conditioner, include: the air duct piece defines an air outlet duct, and one end of the air outlet duct is formed into an air outlet; the air guide device for the air conditioner is connected with the air duct piece and is suitable for moving between a first position for closing the air outlet and a second position for opening the air outlet.

According to the utility model discloses air conditioner, through setting up first wind-guiding portion and second wind-guiding portion, when air ducting removed to the second position, the air current that blows out from the air outlet can be shunted to first air current channel and second air current passageway, because in the direction that the air current flows, first air current channel and second air current passageway extend towards the relative both sides of air outlet respectively to can avoid being located the air current and directly blow the user, and then promote the travelling comfort that the user used.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

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

fig. 2 is a partial structural schematic view of an air conditioner according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an air conditioner according to an embodiment of the present invention, wherein the air guiding device is located at a second position;

fig. 4 is a schematic structural view of an air conditioner according to an embodiment of the present invention, wherein the air guiding device is located at a third position;

fig. 5 is a schematic structural view of an air conditioner according to an embodiment of the present invention, wherein the air guiding device is located at a fourth position;

fig. 6 is a schematic structural view of an air conditioner according to an embodiment of the present invention, wherein the air guiding device is located at a fifth position;

fig. 7 is a histogram of the air outlet volume of the air conditioner according to the embodiment of the present invention and the air conditioner in the related art.

Reference numerals:

the air conditioner 100, the air guide device 1,

the first air guiding part 11, the first air flow channel 111,

a second air guiding part 12, a second air flow channel 121,

air duct 2, air outlet duct 21, air outlet 22.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

An air guide device 1 for an air conditioner 100 according to an embodiment of the present invention is described below with reference to the drawings. Wherein, an air outlet duct 21 is arranged in the air conditioner 100, one end of the air outlet duct 21 is formed as an air outlet 22, the air guide device 1 is suitable for moving between a first position for closing the air outlet 22 and a second position for opening the air outlet 22,

as shown in fig. 1 and 3, the air guiding device 1 for the air conditioner 100 according to the embodiment of the present invention includes a first air guiding portion 11 and a second air guiding portion 12 (see fig. 2) arranged along the width direction, one end of the second air guiding portion 12 is connected to one end of the first air guiding portion 11, and in the first position, the first air guiding portion 11 and the second air guiding portion 12 close the air outlet 22. It can be understood that, when the air guiding device 1 is located at the first position, the first air guiding portion 11 and the second air guiding portion 12 can close the air outlet 22, so that when the air conditioner 100 is not in use, the air outlet duct 21 and the external space can be separated by the first air guiding portion 11 and the second air guiding portion 12, thereby preventing dust or foreign matters from entering the air outlet duct 21.

As shown in fig. 1 and 3, in the second position, the first air guiding portion 11 and the second air guiding portion 12 open the air outlet 22, a first air flow channel 111 is defined between the first air guiding portion 11 and the air outlet duct 21, a second air flow channel 121 is defined between the second air guiding portion 12 and the air outlet duct 21, and in the direction of air flow, the first air flow channel 111 and the second air flow channel 121 extend toward two opposite sides of the air outlet 22, respectively.

It can be understood that, when the air guiding device 1 is located at the second position, the air flow blown out from the air outlet 22 can be divided into the first air flow channel 111 and the second air flow channel 121, and since the first air flow channel 111 and the second air flow channel 121 extend towards two opposite sides of the air outlet 22 respectively in the flowing direction of the air flow, the air flow can be prevented from blowing directly to the user, and the comfort of the user can be further improved. In addition, the two air flows can be blown in opposite directions, so that surrounding air in two directions can be realized, the air flow in the chamber can be stirred in a larger range, and the effect of large circulation of the air flow is realized.

For example, in an example of the present invention, in the direction in which the air current flows, a directional extension toward the upper side of the central axis of the air outlet 22 is defined between the first wind guiding portion 11 and the air outlet duct 21, and a directional extension toward the lower side of the central axis of the air outlet 22 is defined between the second wind guiding portion 12 and the air outlet duct 21, so that two air currents can be deflected toward the upper side and the lower side of the central axis of the air outlet 22, respectively, and thus the air current can be prevented from blowing directly to the user.

In an example of the present invention, the first air guiding portion 11 and the second air guiding portion 12 are integrally formed. From this, integrated into one piece's structure not only can guarantee first wind-guiding portion 11 and second wind-guiding portion 12 structure, the stability of performance, and convenient shaping, manufacturing is simple, and unnecessary assembly part and connection process have been saved, the assembly efficiency of first wind-guiding portion 11 and second wind-guiding portion 12 has been improved greatly, guarantee the reliability of first wind-guiding portion 11 and second wind-guiding portion 12 connection, moreover, integrated into one piece's structure's bulk strength and stability are higher, it is more convenient to assemble, the life-span is longer.

According to the utility model discloses an air ducting 1 for air conditioner 100, through setting up first wind-guiding portion 11 and second wind-guiding portion 12, when air ducting 1 moved to the second position, the air current that blows out from air outlet 22 can be shunted to first airflow channel 111 and second airflow channel 121, because in the direction that the air current flows, first airflow channel 111 and second airflow channel 121 extend towards the relative both sides of air outlet 22 respectively, thereby can avoid being located the air current and directly blow the user, and then promote the travelling comfort that the user used.

In some embodiments of the present invention, as shown in fig. 2 and 3, an included angle exists between the first wind guiding portion 11 and the second wind guiding portion 12. It can be understood that the extending direction of the first air guiding portion 11 and the extending direction of the second air guiding portion 12 are not collinear, and the angle between the air flow directions of the first air flow channel 111 and the second air flow channel 121 can be defined by the preset included angle between the first air guiding portion 11 and the second air guiding portion 12, so as to better meet the needs of users.

In some embodiments of the present invention, as shown in fig. 2 and 3, the junction of the first wind guiding portion 11 and the second wind guiding portion 12 is smoothly transited. Therefore, when the airflow flows through the joint of the first air guiding part 11 and the second air guiding part 12, the collision loss of the airflow and the joint of the first air guiding part 11 and the second air guiding part 12 is relatively small, and the smooth transition joint has a guiding effect on the airflow, so that the smoothness of the airflow flowing can be improved. For example, in one example of the present invention, the junction of the first wind guiding portion 11 and the second wind guiding portion 12 is rounded.

In some embodiments of the present invention, as shown in fig. 2 and 4, the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is formed into a curved surface. It can be understood that, the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is a curved surface, the curved surface has a guiding effect on the flowing direction of the air flow, and when the flowing direction of the air flow deflects, the collision loss between the air flow and the curved surface is relatively small, so that the loss of the air flow energy can be reduced, and meanwhile, the smoothness of the air flow can be improved. For example, in some examples of the present invention, the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is formed to be concave. In other examples of the present invention, a wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is formed to be convex.

Of course, the present invention is not limited thereto, and in other embodiments of the present invention, the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is formed as a plane.

In some embodiments of the present invention, as shown in fig. 2 and 4, the wall surface of the first wind guiding portion 11 adjacent to the wind outlet 22 is formed as a concave surface, the wind guiding device 1 is adapted to rotate between the first position and the third position, in the third position, the first wind guiding portion 11 is located at the lower end of the wind outlet 22, and the wall surface of the first wind guiding portion 11 adjacent to the wind outlet 22 is tangent to the lower wall surface of the wind outlet duct 21. It can be understood that, when the air guiding device 1 rotates to the third position, the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is tangent to the lower wall surface of the air outlet duct 21, and at this time, the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 plays a role of extending the lower wall surface of the air outlet duct 21, so that under the guiding effect of the concave surface of the first air guiding portion 11 adjacent to the air outlet 22, the airflow blown out from the air outlet 22 can be blown toward the upper side of the air outlet 22, thereby preventing the airflow from blowing out directly to the user while not blocking the airflow.

In some embodiments of the present invention, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is formed as a curved surface. It can be understood that, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is a curved surface, the curved surface has a guiding effect on the flowing direction of the air flow, and when the flowing direction of the air flow is deflected, the collision loss between the air flow and the curved surface is relatively small, so that the loss of the air flow energy can be reduced, and meanwhile, the smoothness of the air flow can be improved. For example, in some examples of the present invention, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is formed to be concave. In other examples of the present invention, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is formed to be convex.

Note that, since the wall surface of the first air guiding portion 11 adjacent to the outlet 22 may be formed to be concave or convex, the wall surface of the second air guiding portion 12 adjacent to the outlet 22 may also be formed to be concave or convex. Therefore, a plurality of embodiments can be combined, for example, in the first embodiment, the wall surface of the first air guiding part 11 adjacent to the air outlet 22 is formed to be concave, and the wall surface of the second air guiding part 12 adjacent to the air outlet 22 is also formed to be concave; in the second embodiment, the wall surface of the first air guiding part 11 adjacent to the air outlet 22 is formed as a concave surface, and the wall surface of the second air guiding part 12 adjacent to the air outlet 22 is formed as a convex surface; in the third embodiment, the wall surface of the first air guiding part 11 adjacent to the air outlet 22 is formed into a convex surface, and the wall surface of the second air guiding part 12 adjacent to the air outlet 22 is also formed into a convex surface; in the fourth embodiment, the wall surface of the first air guiding portion 11 adjacent to the outlet 22 is formed as a convex surface, and the wall surface of the second air guiding portion 12 adjacent to the outlet 22 is formed as a concave surface.

In addition, when the wall surface of the first air guiding portion 11 adjacent to the outlet 22 is also formed as a plane, there are two embodiments of the first air guiding portion 11 and the second air guiding portion 12. For example, in the fifth embodiment, the wall surface of the first air guiding part 11 adjacent to the air outlet 22 is formed as a plane, and the wall surface of the second air guiding part 12 adjacent to the air outlet 22 is formed as a concave surface; in the sixth embodiment, the wall surface of the first air guiding portion 11 adjacent to the outlet 22 is formed as a plane, and the wall surface of the second air guiding portion 12 adjacent to the outlet 22 is formed as a convex surface.

Of course, the present invention is not limited thereto, and in other embodiments of the present invention, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 may also be formed as a plane. Thus, a plurality of different embodiments may also be combined. For example, in the seventh embodiment, the wall surface of the first air guiding part 11 adjacent to the outlet 22 is formed as a plane, and the wall surface of the second air guiding part 12 adjacent to the outlet 22 is also formed as a plane; in the eighth embodiment, the wall surface of the first air guiding part 11 adjacent to the air outlet 22 is formed as a concave surface, and the wall surface of the second air guiding part 12 adjacent to the air outlet 22 is formed as a flat surface; in the ninth embodiment, a wall surface of the first air guiding portion 11 adjacent to the outlet 22 is formed as a convex surface, and a wall surface of the second air guiding portion 12 adjacent to the outlet 22 is formed as a flat surface. Thus, in the present application, there are at least nine embodiments.

In some embodiments of the present invention, as shown in fig. 2 and 5, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is formed as a concave surface, the air guiding device 1 is adapted to rotate between the first position and the fourth position, in the fourth position, the second air guiding portion 12 is located at the upper end of the air outlet 22, and the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is tangent to the upper wall surface of the air outlet duct 21.

It can be understood that, when the air guiding device 1 rotates to the fourth position, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 is tangent to the upper wall surface of the air outlet duct 21, at this time, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 plays a role in extending the upper wall surface of the air outlet duct 21, and meanwhile, the wall surface of the second air guiding portion 12 adjacent to the air outlet 22 has a downward guiding function on the air flow, so that the air flow can flow downward, and therefore, in the heating mode, the hot air flow can be blown to the bottom surface, thereby improving the heating effect.

In some embodiments of the present invention, as shown in fig. 2 and 6, the air guiding device 1 is adapted to rotate between a first position and a fifth position, in which the air guiding device 1 is located on a side of the lower wall surface of the air outlet duct 21 away from the air outlet 22; or, in the fifth position, the air guiding device 1 is located on the side of the upper wall surface of the air outlet duct 21 away from the air outlet 22.

It can be understood that, when the air guiding device 1 is located at the fifth position, the air guiding device 1 may be located on a side of the lower wall surface of the air outlet duct 21, which is away from the air outlet 22; or, when the air guiding device 1 is located at the fifth position, the air guiding device 1 is located on a side of the upper wall surface of the air outlet duct 21, which is away from the air outlet 22. It can be understood that the air guiding device 1 does not block the air flow blown out from the air outlet 22, so that the indoor space can be rapidly cooled or heated.

For example, in an example of the present invention, a wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is formed as a concave surface, the air guiding device 1 is adapted to rotate between the first position and the third position, in the third position, the first air guiding portion 11 is located at the lower end of the air outlet 22, and the wall surface of the first air guiding portion 11 adjacent to the air outlet 22 is tangent to the lower wall surface of the air outlet duct 21. In addition, the air guiding device 1 can also rotate between the first position and the fifth position, and in the fifth position, the air guiding device 1 is located on the side, away from the air outlet 22, of the lower wall surface of the air outlet duct 21.

As shown in fig. 7, reference numeral M1 is the maximum air outlet volume of the air conditioner in the related art; reference M2 denotes the maximum outlet air volume of the air conditioner 100 in the present application; the reference number N1 is the air outlet volume of the air conditioner in the related art when preventing direct blowing; reference numeral N2 denotes an air outlet volume of the air conditioner 100 in the present application when the air conditioner is configured to prevent direct blowing.

Experimental research shows that in the related art, the air deflector has an upward inclined angle in a direct blowing prevention mode of the air conditioner, the effective air outlet area is reduced, the wind shielding is serious, and the air volume is sharply attenuated. When the air guide device 1 in the present application rotates to the third position, the effective air outlet area is unchanged, the air flow is blown out along the extension section formed by the first air guide part 11 and the lower wall surface of the air outlet duct 21 and changes the direction, the active area can be effectively avoided, the air outlet is not blocked, and the air volume is almost not attenuated. Moreover, through simulation comparison, the air volume of the air conditioner in the related art is reduced by about 34.1% in the anti-direct blowing mode compared with the air volume at the maximum air outlet angle, and the air volume reduction in the application is only 5.6%. Therefore, the air conditioner not only can effectively enable cold air to avoid the active area, but also can not cause air volume loss, and therefore the refrigeration effect and the comfort can be improved.

In some embodiments of the present invention, as shown in fig. 1 and 2, an end (a shown in fig. 2) of the first wind guiding portion 11 departing from the second wind guiding portion 12 is an a end, an end (B shown in fig. 2) of the second wind guiding portion 12 departing from the first wind guiding portion 11 is a B end, an end (C shown in fig. 2) of the first wind guiding portion 11 connected to the second wind guiding portion 12 is a C end, a connection line between the a end and the B end is a reference line, and the C end is located on a side of the reference line adjacent to the air outlet 22. It can be understood that, in the flowing direction of the airflow, the airflow in the air outlet duct 21 at the position opposite to the end C may first flow through the end C, and under the guiding action of the end C, the airflow may be dredged from the center to the two sides, so that the airflow may be prevented from gathering at the connection between the first air guiding portion 11 and the second air guiding portion 12, and the flowing smoothness of the airflow may be improved.

In some embodiments of the present invention, as shown in fig. 1 and 2, the distance between the C-end and the reference line is L1, and satisfies: l1 is more than or equal to 10 mm. The connecting line of the A end, the B end and the C end is formed into a triangle, and the following requirements are met: the angle CBA is less than or equal to 5 degrees and less than or equal to 45 degrees, the angle CAB is less than or equal to 5 degrees and less than or equal to 45 degrees, and the angle ACB is less than or equal to 90 degrees and less than or equal to 175 degrees. Therefore, the shunting effect and the guiding effect of the C end can be improved. Specifically, in some examples of the present invention, the C-end is spaced 10mm, 12mm, 14mm, or 16mm from the reference line. Angle CBA may be 25 °, angle CAB may be 25 °, and angle ACB is 130 °.

In some embodiments of the present invention, as shown in fig. 1 and 2, the thickness of the first wind guiding portion 11 and the second wind guiding portion 12 is H, and satisfies: h is more than or equal to 1.5mm and less than or equal to 10 mm. This can not only ensure the structural strength of the first air guide part 11 and the second air guide part 12, but also reduce the weight and manufacturing cost of the air guide device 1. For example, in one example of the present invention, the thickness of the first and second wind guiding portions 11 and 12 may be 2mm, 3mm, 5mm, 7mm, or 9 mm. Specifically, the thicknesses of the first and second wind guide parts 11 and 12 may be selectively set according to the model and size of the air conditioner 100 and the environment of the application.

An air conditioner 100 according to an embodiment of the present invention is described below with reference to the accompanying drawings.

According to the utility model discloses air conditioner 100, include: air duct 2 and air ducting 1, air duct 2 defines air-out wind channel 21, and the one end in air-out wind channel 21 forms air outlet 22, and air ducting 1 is connected with air duct 2, and air ducting 1 is suitable for and moves between the first position of closing air outlet 22 and the second position of opening air outlet 22.

According to the utility model discloses air conditioner 100, through setting up first wind-guiding portion 11 and second wind-guiding portion 12, when air ducting 1 removed to the second position, the air current that blows out from air outlet 22 can be shunted to first airflow channel 111 and second airflow channel 121, because in the direction that the air current flows, first airflow channel 111 and second airflow channel 121 extend towards the relative both sides of air outlet 22 respectively to can avoid being located the air current and blow directly the user, and then promote the travelling comfort that the user used.

In some embodiments of the present invention, the air conditioner 100 further includes a driving mechanism, one end of the driving mechanism is connected to the air duct member 2, the other end of the driving mechanism is connected to the air guiding device 1, the driving mechanism can be used to translate the air guiding device 1 along the central axis of the air outlet 22, and the driving mechanism can also be used to rotate the air outlet 22 up and down.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (13)

1. An air guide device for an air conditioner, wherein an air outlet duct is arranged in the air conditioner, an air outlet is formed at one end of the air outlet duct, the air guide device is suitable for moving between a first position for closing the air outlet and a second position for opening the air outlet, and is characterized in that,

the air guiding device comprises a first air guiding part and a second air guiding part which are arranged along the width direction, one end of the second air guiding part is connected with one end of the first air guiding part, and the first air guiding part and the second air guiding part close the air outlet at the first position; at the second position, the first air guide part and the second air guide part open the air outlet, a first air flow channel is defined between the first air guide part and the air outlet channel, a second air flow channel is defined between the second air guide part and the air outlet channel, and the first air flow channel and the second air flow channel respectively extend towards two opposite sides of the air outlet in the air flow direction.

2. The air guide device for the air conditioner as claimed in claim 1, wherein an included angle exists between the first air guide part and the second air guide part.

3. The air guide device for the air conditioner as claimed in claim 2, wherein a junction between the first air guide part and the second air guide part is in smooth transition.

4. The air guide device for an air conditioner according to claim 1, wherein a wall surface of the first air guiding portion adjacent to the air outlet is formed into a curved surface.

5. The air guide device for an air conditioner according to claim 4, wherein a wall surface of the first air guide portion adjacent to the air outlet is formed as a concave surface, the air guide device is adapted to rotate between a first position and a third position, in the third position, the first air guide portion is located at a lower end of the air outlet, and the wall surface of the first air guide portion adjacent to the air outlet is tangential to a lower wall surface of the air outlet duct.

6. The air guide device for an air conditioner according to claim 4, wherein a wall surface of the second air guiding portion adjacent to the air outlet is formed into a curved surface.

7. The air guide device for an air conditioner according to claim 6, wherein a wall surface of the second air guide portion adjacent to the air outlet is formed as a concave surface, the air guide device is adapted to rotate between a first position and a fourth position, in the fourth position, the second air guide portion is located at an upper end of the air outlet, and the wall surface of the second air guide portion adjacent to the air outlet is tangential to an upper wall surface of the air outlet duct.

8. The air guide device for the air conditioner as claimed in claim 1, wherein the air guide device is adapted to rotate between a first position and a fifth position, and in the fifth position, the air guide device is located on a side of the lower wall surface of the air outlet duct, which side faces away from the air outlet; or, in the fifth position, the air guide device is located on one side, away from the air outlet, of the upper wall surface of the air outlet duct.

9. The air guide device for the air conditioner as claimed in claim 1, wherein an end of the first air guide portion, which is away from the second air guide portion, is an end a, an end of the second air guide portion, which is away from the first air guide portion, is an end B, an end of the first air guide portion, which is connected with the second air guide portion, is an end C, a connecting line between the end a and the end B is a reference line, and the end C is located on a side of the reference line, which is adjacent to the air outlet.

10. The air guide device for the air conditioner as claimed in claim 9, wherein the distance between the C end and the reference line is L1, and satisfies the following conditions: l1 is more than or equal to 10 mm.

11. The air guide device for an air conditioner as claimed in claim 10, wherein a line connecting the a end, the B end and the C end is formed in a triangular shape and satisfies: the angle CBA is less than or equal to 5 degrees and less than or equal to 45 degrees, the angle CAB is less than or equal to 5 degrees and less than or equal to 45 degrees, and the angle ACB is less than or equal to 90 degrees and less than or equal to 175 degrees.

12. The air guide device for the air conditioner as claimed in claim 1, wherein the first air guide part and the second air guide part have a thickness H and satisfy: h is more than or equal to 1.5mm and less than or equal to 10 mm.

13. An air conditioner, comprising:

the air duct piece defines an air outlet duct, and one end of the air outlet duct is formed into an air outlet;

the air guide device for an air conditioner according to any one of claims 1 to 12, being connected to the air duct, and being adapted to move between a first position closing the air outlet and a second position opening the air outlet.

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