CN219868119U - Air outlet structure for air conditioner and air conditioner - Google Patents

Abstract

The utility model relates to the technical field of air conditioners, and discloses an air outlet structure for an air conditioner. The air outlet structure comprises a vortex tongue assembly and an air deflector, the vortex tongue assembly comprises a vortex tongue plate, the vortex tongue plate is used for being rotatably arranged in the air duct, and the tail end of the vortex tongue plate extends to the air outlet side; the air deflector is rotatably arranged at the air outlet; under the condition of opening the air outlet, the vortex tongue plate is rotated, so that the tail end of the vortex tongue plate rotates towards the air deflector side, the air outlet area of the air outlet is reduced, and the air outlet speed of the air outlet is increased. Therefore, when the wind speed flowing through the air outlet is increased, the evaporation of the condensation on the air deflector can be increased, so that the generation and evaporation of the condensation are counteracted, and the condensation is prevented from being gathered and dripped. The utility model also discloses an air conditioner.

Description

Air outlet structure for air conditioner and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an air outlet structure for an air conditioner and the air conditioner.

Background

The air deflector is one of the main components of the air conditioner, and can change the air supply direction and angle under the drive of the driving mechanism, thereby realizing the function of air guiding. However, after the air conditioner is operated for a certain time in an environment with higher humidity, especially in summer, the temperature difference between the indoor temperature and the air outlet temperature is larger, and the air deflector is easier to form condensation.

In order to prevent condensation from forming on the air deflector, for example, related technology discloses an anti-condensation air deflector and an anti-condensation control method thereof, wherein the anti-condensation air deflector comprises an air deflector, a temperature measuring assembly and an electric heating assembly, the outer surface of the air deflector is respectively provided with an electric heating assembly groove and a temperature measuring assembly groove, a first threading hole is arranged in the electric heating assembly groove, and the temperature measuring assembly groove is horizontally arranged on the outer surface of the air deflector; the electric heating assembly is arranged in the electric heating assembly groove, the temperature measuring assembly is arranged in the temperature measuring assembly groove, and the surfaces of the electric heating assembly groove and the temperature measuring assembly groove are covered with resin filling layers. Therefore, condensation water generated on the air deflector can be effectively prevented from falling on the ground on the basis that noise is not generated after refrigeration is stopped, and user experience is further improved.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the structure of the air guide plate is improved in the related art, so that the formation time of condensed water is delayed to a certain extent, but the complexity of the structure of the air guide plate is increased, and the stability of the structure of the air guide plate and the test cost of the stability of the air guide plate can be possibly influenced.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the disclosure provides an air outlet structure for an air conditioner and the air conditioner, which can effectively prevent condensation on an air deflector without changing the air deflector structure.

In some embodiments, the air outlet structure for an air conditioner comprises an air duct and an air outlet, wherein the air outlet structure comprises a vortex tongue assembly and an air deflector, the vortex tongue assembly comprises a vortex tongue plate, the vortex tongue plate is used for being rotatably arranged in the air duct, and the tail end of the vortex tongue plate extends to the air outlet side; the air deflector is rotatably arranged at the air outlet; under the condition of opening the air outlet, the vortex tongue plate is rotated, so that the tail end of the vortex tongue plate rotates towards the air deflector side, the air outlet area of the air outlet is reduced, and the air outlet speed of the air outlet is increased.

In some embodiments, the volute tongue assembly further comprises: the side edge of the baffle is hinged to the volute tongue plate, and the baffle is used for being arranged between the volute tongue plate and the upper side wall of the air duct to block an air duct gap formed between the volute tongue plate and the upper side wall of the air duct.

In some embodiments, the height of the baffle is greater than the duct gap between the volute tongue plate and the upper sidewall of the duct; so that the baffle plate is always contacted with the upper side wall of the air duct in the process of rotating the tail end of the volute tongue plate towards the air deflector side.

In some embodiments, the upper side wall of the air duct is made of a magnetic metal material, and a portion of the baffle plate, which is in contact with the upper side wall of the air duct, has magnetism, so that the baffle plate is always in contact with the upper side wall of the air duct.

In some embodiments, the volute tongue plate is provided with a hinge seat, and a hinge shaft is formed on the side edge of the baffle plate and connected with the hinge seat.

In some embodiments, the volute tongue assembly further comprises: and the driving device is in transmission connection with the volute tongue plate so as to drive the volute tongue plate to rotate.

In some embodiments, the drive device includes a motor mount and a drive motor. The motor bracket is used for being fixedly arranged on the air conditioner; the driving motor is arranged on the motor bracket and is provided with a power part connected with the volute tongue plate.

In some embodiments, the volute tongue plate is positioned on the side of the driving device and is provided with a mounting plate, a connecting hole is formed in the mounting plate, and the power part is spliced on the connecting hole.

In some embodiments, the volute tongue plate includes a first guide plate and a second guide plate. Wherein, the first guide plate is far away from the air outlet; the second guide plate is positioned at the air outlet side and connected with the first guide plate, and the connecting included angle between the second guide plate and the first guide plate is an obtuse angle; the hinge seat is arranged on the second guide plate, and a mounting plate is formed at the connection included angle of the second guide plate and the first guide plate.

In some embodiments, the air conditioner comprises an air conditioner body, wherein the air conditioner body comprises an air duct and an air outlet, and further comprises the air outlet structure for the air conditioner as in the previous embodiments, wherein a volute tongue plate of the air outlet structure is rotatably arranged in the air duct, and the tail end of the volute tongue plate extends to the air outlet side; the air deflector of the air outlet structure is rotatably arranged at the air outlet.

The embodiment of the disclosure provides an air outlet structure for an air conditioner and the air conditioner, which can realize the following technical effects:

the air conditioner is characterized in that a vortex tongue assembly is arranged in an air duct of the air conditioner, and an air deflector is arranged at an air outlet of the air conditioner. The vortex tongue assembly comprises a vortex tongue plate, and the tail end of the vortex tongue plate extends to the air outlet side. Thus, when the air outlet is opened, the tail end of the volute tongue plate can rotate towards the air deflector side by rotating the volute tongue plate, and the air outlet area of the air outlet can be reduced. Because the air quantity set by the air conditioner is fixed, the air outlet speed of the air outlet is increased. When the wind speed flowing through the air outlet is accelerated, the evaporation of the condensation on the air deflector can be accelerated, so that the generation and evaporation of the condensation are counteracted, and the condensation is prevented from being gathered and dripping. In addition, the structure of the air guide plate does not need to be changed, so that the stability of the air guide plate structure and the test cost of the stability of the air guide plate are not affected.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the utility model.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which like reference numerals refer to similar elements, and in which:

fig. 1 is a schematic structural diagram of an air outlet structure for an air conditioner according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of an air outlet structure for an air conditioner according to an embodiment of the present disclosure;

FIG. 3 is a schematic illustration of a tongue assembly provided in accordance with an embodiment of the present disclosure;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

FIG. 5 is an enlarged schematic view at B in FIG. 3;

FIG. 6 is a side view of a volute tongue assembly provided by an embodiment of the present disclosure;

fig. 7 is a schematic structural view of an air conditioner according to an embodiment of the present disclosure.

Reference numerals:

10: a volute tongue assembly;

11: a whirlpool tongue plate; 111: a first guide plate; 112: a second guide plate; 113: a hinge base; 114: a mounting plate; 115: a connection hole;

12: a baffle; 121: a hinge shaft;

13: a driving device; 131: a motor bracket; 132: a driving motor; 133: a power section;

20: an air deflector;

100: an air conditioner body; 101: an air duct; 102: and an air outlet.

Detailed Description

So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present disclosure. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The term "plurality" means two or more, unless otherwise indicated.

In the embodiment of the present disclosure, the character "/" indicates that the front and rear objects are an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes an object, meaning that there may be three relationships. For example, a and/or B, represent: a or B, or, A and B.

The term "corresponding" may refer to an association or binding relationship, and the correspondence between a and B refers to an association or binding relationship between a and B.

As shown in fig. 1 and 2, the embodiment of the present disclosure provides an air outlet structure for an air conditioner, the air conditioner includes an air duct 101 and an air outlet 102, and the air outlet structure includes a volute tongue assembly 10 and an air deflector 20. The vortex tongue assembly 10 comprises a vortex tongue plate 11, wherein the vortex tongue plate 11 is used for being rotatably arranged in the air duct 101, and the tail end of the vortex tongue plate 11 extends to the air outlet 102 side; the air deflector 20 is rotatably disposed at the air outlet 102; when the air outlet 102 is opened, the whirlpool tongue plate 11 is rotated, and the end of the whirlpool tongue plate 11 is rotated toward the wind deflector 20, so that the air outlet area of the air outlet 102 is reduced, and the air outlet speed of the air outlet 102 is increased.

By adopting the air outlet structure for the air conditioner provided by the embodiment of the disclosure, the air deflector 20 is arranged at the air outlet 102 of the air conditioner by arranging the vortex tongue assembly 10 in the air duct 101 of the air conditioner. Wherein the volute tongue assembly 10 includes a volute tongue plate 11, and the tip of the volute tongue plate 11 extends to the air outlet 102 side. In this way, when the air outlet 102 is opened, the end of the whirling plate 11 can be rotated toward the air deflector 20 by rotating the whirling plate 11, and the air outlet area of the air outlet 102 can be reduced. Since the air volume set by the air conditioner is fixed, the air outlet speed of the air outlet 102 is increased. When the wind speed flowing through the air outlet 102 is increased, the evaporation of the condensation on the air deflector 20 can be increased, so that the generation and evaporation of the condensation are counteracted, and the condensation is prevented from being gathered and dripping. In addition, the structure of the air guide plate does not need to be changed, so that the stability of the air guide plate structure and the test cost of the stability of the air guide plate are not affected.

As shown in fig. 1, in the embodiment of the present disclosure, the air conditioner further includes an air inlet (not shown in the drawing), and the air duct 101 communicates the air inlet with the air outlet 13. Here, the air flow first passes through the air inlet of the air conditioner, enters the air duct 101, and is blown out from the air outlet 13 along the air duct 101. The volute tongue plate 11 of the volute tongue assembly 10 is rotatably arranged in the air duct 101, so that the airflow direction in the air duct 101 can be changed. The air deflector 20 is rotatably disposed at the air outlet 102, and the end of the volute tongue plate 11 extends to the air outlet 102, so that under the combined action of the volute tongue plate 11 and the air deflector 20 when the air outlet 102 is opened, the air outlet area of the air outlet 102 is reduced. At the same time, according to the following formula,

L＝VS；

l is the air outlet flow; v is the wind outlet speed; s is the air outlet area;

under the condition that the air outlet flow of the air conditioner is unchanged, the air outlet area is reduced, and the air outlet speed can be increased. In this way. As shown in fig. 2, the end of the whirlpool tongue plate 11 is rotated toward the wind deflector 20, and at this time, the air outlet area of the air outlet 102 can be reduced, so that the air outlet speed of the air outlet 102 is increased, the generation and evaporation of condensation are offset, and condensation aggregation and dripping are prevented.

In an embodiment of the disclosure, the air conditioner further includes a control device. The control device comprises a processor, and the operation of the air conditioner can be controlled by the processor.

Here, in order to further prevent condensation from being generated on the air guide plate, the rotation angle of the whirlpool tongue plate 11 may be dynamically controlled by the indoor temperature. The air outlet area of the air outlet 102 and the air outlet speed of the air outlet 102 are adjusted under different indoor temperatures. Wherein, be provided with the temperature and humidity sensor who is connected with the air conditioner in the room, temperature and humidity sensor detects indoor temperature and indoor humidity in real time.

In the embodiment of the disclosure, when the air conditioner is turned on, the temperature and humidity sensor acquires the indoor temperature and the indoor humidity. Controlling the rotation angle of the whirlpool tongue plate 11 according to the indoor temperature; or, the rotation angle of the whirlpool tongue plate 11 is controlled according to the indoor humidity.

Alternatively, controlling the rotation angle of the whirlpool tongue plate 11 according to the indoor temperature includes: in the case where the absolute value of the difference between the indoor temperature and the set temperature is greater than or equal to the first difference, the rotation angle of the whirlpool tongue plate 11 is controlled to the maximum. Here, the set temperature refers to a temperature set by a user himself or an optimal temperature set at the initial test of the air conditioner. If the indoor temperature is higher and the air outlet temperature is lower; or the indoor temperature is lower, the air outlet temperature is higher, at the moment, the temperature difference between the indoor temperature and the air outlet temperature is larger, and when the temperature difference is larger than the first difference value, condensation is easy to form on the air deflector. In order to prevent condensation from forming on the air deflector, the rotation angle of the volute tongue plate 11 is controlled to be maximum, so that the air outlet area of the air outlet 102 is minimized, and the air outlet speed of the air outlet 102 is increased, so that the generation and evaporation of the condensation are counteracted, and condensation aggregation and dripping are prevented.

Optionally, controlling the rotation angle of the whirlpool tongue plate 11 according to the indoor temperature further includes: in the case where the absolute value of the difference between the indoor temperature and the preset temperature is less than or equal to the second difference, the whirlpool tongue plate 11 is controlled to be reset. When the difference is less than or equal to the second difference, it means that condensation is not easily formed on the air deflector. At this time, the control volute tongue plate 11 is reset and operated at the initial wind speed.

Alternatively, controlling the rotation angle of the whirlpool tongue plate 11 according to the indoor humidity includes: in the case that the indoor humidity is higher than the set humidity, controlling the rotation of the whirlpool tongue plate 11; in the case where the indoor humidity is lower than the set humidity, the control of the whirlpool tongue plate 11 resets. Wherein the higher the indoor humidity, the larger the rotation angle of the whirlpool tongue plate 11.

In some embodiments, the volute tongue assembly 10 further comprises: the side edge of the baffle 12 is hinged to the volute tongue plate 11, and the baffle 12 is arranged between the volute tongue plate 11 and the upper side wall of the air duct 101 to block an air duct gap formed between the volute tongue plate 11 and the upper side wall of the air duct 101.

In the disclosed embodiment, during rotation of the volute tongue assembly 10, a tunnel gap is formed between the volute tongue plate 11 and the upper sidewall of the tunnel 101. The air in the air duct 101 may be sent out from the air duct gap, so that the air volume of the air outlet 102 is reduced. And the wind sent out by the air outlet 102 is not uniform, which affects the user experience. For this purpose, a baffle 12 is provided between the whirlpool tongue 11 and the upper side wall of the air duct 101, the baffle 12 being of the same length as the whirlpool tongue 11, and the side edges of the baffle 12 being hinged to the whirlpool tongue 11. In this way, the baffle 12 does not obstruct the rotation of the volute tongue plate 11 in the process of the rotation of the volute tongue plate 11, and can also block the air channel gap formed between the volute tongue plate 11 and the upper side wall of the air channel 101, so that the wind in the air channel 101 is ensured to be blown out from between the volute tongue plate 11 and the air deflector 20.

In some embodiments, the height of the baffle 12 is greater than the duct gap between the volute tongue plate 11 and the upper sidewall of the duct 101; so that the baffle 12 is always in contact with the upper side wall of the air duct 101 during the rotation of the tip end of the whirlpool tongue 11 toward the air deflector 20 side.

In the embodiment of the present disclosure, the baffle 12 is hinged to the louver 11 and moves along with the rotation of the air deflector 20 side at the end of the louver 11; during the movement, if the height of the baffle 12 is smaller than the maximum air duct gap between the whirl-tongue plate 11 and the upper side wall of the air duct 101, it may be difficult to block the air duct gap under the influence of the wind speed in the case where the whirl-tongue plate 11 rotates to the maximum angle. For this reason, the height of the baffle 12 is greater than the duct gap between the whirl plate 11 and the upper side wall of the duct 101, and the baffle 12 can still contact the upper side wall of the duct 101 in the case where the whirl plate 11 rotates by the maximum angle. Thus, one side of the baffle 12 contacts the whirl plate 11, and the other side of the baffle 12 contacts the upper side wall of the duct 101 to block the duct gap.

In some embodiments, the upper side wall of the air duct 101 is made of a magnetic metal material, and the portion of the baffle 12 contacting the upper side wall of the air duct 101 has magnetism, so that the baffle 12 always contacts the upper side wall of the air duct 101.

To further ensure that the baffle 12 is always in contact with the upper side wall of the air duct 101, the air duct gap is blocked. In the embodiment of the present disclosure, the upper sidewall of the air duct 101 is made of a magnetic metal, and optionally, the magnetic metal includes iron alloy or iron. And the portion of the baffle 12 contacting the upper side wall of the air duct 101 has magnetism, alternatively, the portion of the baffle 12 contacting the upper side wall of the air duct 101 is of a magnet structure, and can be adsorbed on the upper side wall of the air duct 101, so that the baffle 12 is prevented from being separated from the upper side wall of the air duct 101 in the process of rotating the tail end of the volute tongue plate 11 toward the air deflector 20.

As shown in fig. 3 and 4, in some embodiments, the tongue plate 11 is provided with a hinge seat 113, and a hinge shaft 121 is formed on a side of the baffle 12, and the hinge shaft 121 is connected to the hinge seat 113. Allowing the baffle 12 to rotate on the volute tongue plate 11. In the embodiment of the present disclosure, hinge seats 113 are provided at both ends of the tongue plate 11, outer end surfaces of the hinge seats 113 are disposed flush with outer end surfaces of the tongue plate 11, and hinge holes are provided in the hinge seats 113. Hinge shafts 121 are formed at both side edges of the barrier 12, and a rotation space adapted to the hinge seat 113 is also formed at an upper portion of the hinge shafts 121, and the hinge shafts 121 are inserted into the hinge holes so that the barrier 12 can rotate on the tongue plate 11.

As shown in connection with fig. 3, in some embodiments, the volute tongue assembly 10 further comprises: and the driving device 13 is in transmission connection with the volute tongue plate 11 so as to drive the volute tongue plate 11 to rotate.

In the embodiment of the present disclosure, the driving device 13 is used for driving the volute tongue plate 11 to rotate, wherein the processor is connected with the driving device 13, and controls the driving device 13, so as to control the rotation of the volute tongue plate 11. Here, the driving device 13 may be provided with one or two. Alternatively, in the case where the driving means 13 is provided with one, the driving means 13 is provided at one side of the whirlpool tongue 11, and the whirlpool tongue 11 is driven to rotate by one driving means 13. Alternatively, in the case where two driving devices 13 are provided, the driving devices 13 are provided on both sides of the whirlpool tongue plate 11, and the whirlpool tongue plate 11 is driven to rotate by the two driving devices 13.

As shown in connection with fig. 3 and 5, in some embodiments, the drive device 13 includes a motor bracket 131 and a drive motor 132. The motor bracket 131 is used for being fixedly arranged on the air conditioner body; the driving motor 132 is provided on the motor bracket 131, and the driving motor 132 has a power unit 133 connected to the whirlpool tongue plate 11.

In the embodiment of the present disclosure, the driving motor 132 is a power source of the volute tongue plate 11, for driving the volute tongue plate 11; the front end of the driving motor 132 has a power portion 133, and the volute tongue plate 11 is connected to the power portion 133 to drive the volute tongue plate 11 to rotate. Here, the driving motor 132 is fixedly arranged on the air conditioner body through the motor bracket 131, so that vibration of the driving motor 132 can be effectively prevented from being transmitted to the air conditioner body, noise and vibration generated by the driving motor 132 can be reduced to a certain extent, and discomfort of a user is further reduced.

As shown in fig. 6, in some embodiments, the volute tongue plate 11 is formed with a mounting plate 114 on the side of the driving device 13, a connection hole 115 is formed on the mounting plate 114, and the power portion 133 is inserted into the connection hole 115. To rotate the whirlpool tongue plate 11.

In the embodiment of the present disclosure, in order to facilitate connection of the whirlpool tongue plate 11 and the driving device 13, a mounting plate 114 is formed on the side of the whirlpool tongue plate 11 located on the driving device 13, and a connection hole 115 is formed on the mounting plate 114. When the power portion 133 is inserted into the connection hole 115, the power portion 133 does not appear in the connection hole 115, so that the power portion 133 is prevented from sliding in the connection hole 115, and the transmission effect is prevented from being affected. Alternatively, the connection hole 115 is a square hole, and the power portion 133 is a square cylinder.

In some embodiments, as shown in fig. 6, the whirl plate 11 includes a first guide plate 111 and a second guide plate 112. Wherein, the first guide plate 111 is far away from the air outlet 102; the second guide plate 112 is positioned at the air outlet 102 side and connected with the first guide plate 111, and the connection included angle between the second guide plate 112 and the first guide plate 111 is an obtuse angle; in this way, the air in the duct 101 is guided from the first guide plate 111 to the second guide plate 112, and the air outlet to the baffle plate 12 side is reduced, so that the pressure applied to the baffle plate 12 is reduced. In addition, the hinge seat 113 is arranged on the second guide plate 112, so that the baffle 12 is convenient to install; the connection included angle between the second guide plate 112 and the first guide plate 111 is formed with a mounting plate 114, so that the driving device 13 can be conveniently mounted, and in this position, the connection area between the mounting plate 114 and the volute tongue plate 11 is maximum and more stable.

As shown in fig. 1 and 7, the embodiment of the disclosure further provides an air conditioner, which includes an air conditioner body 100, the air conditioner body 100 includes an air duct 101 and an air outlet 102, and further includes an air outlet structure for the air conditioner as in the foregoing embodiment, a volute tongue plate 11 of the air outlet structure is rotatably disposed in the air duct 101, and a tail end of the volute tongue plate 11 extends to the air outlet 102 side; the wind deflector 20 of the wind outlet structure is rotatably disposed at the wind outlet 102.

In this embodiment, the specific structure of the air conditioner refers to the foregoing embodiment, and since the air conditioner in this embodiment adopts the technical solution of the foregoing embodiment, the air conditioner at least has the beneficial effects brought by the technical solution of the foregoing embodiment, which is not described in detail herein.

The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may include structural and other modifications. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. An air outlet structure for an air conditioner, the air conditioner comprising an air duct (101) and an air outlet (102), characterized in that the air outlet structure comprises:

the vortex tongue assembly (10) comprises a vortex tongue plate (11), wherein the vortex tongue plate (11) is used for being rotatably arranged in the air duct (101), and the tail end of the vortex tongue plate (11) extends to the air outlet (102) side;

the air deflector (20) is rotatably arranged at the air outlet (102);

under the condition that the air outlet (102) is opened, the volute tongue plate (11) is rotated, so that the tail end of the volute tongue plate (11) rotates towards the air deflector (20) to reduce the air outlet area of the air outlet (102) and increase the air outlet speed of the air outlet (102).

2. The air outlet structure for an air conditioner according to claim 1, wherein the volute tongue assembly (10) further comprises:

the side edges of the baffle plates (12) are hinged to the volute tongue plate (11), and the baffle plates (12) are used for being arranged between the volute tongue plate (11) and the upper side wall of the air duct (101) to block an air duct gap formed between the volute tongue plate (11) and the upper side wall of the air duct (101).

3. The air outlet structure for an air conditioner according to claim 2, wherein the height of the baffle (12) is greater than an air duct gap between the volute tongue plate (11) and an upper side wall of the air duct (101); so that the baffle plate (12) is always contacted with the upper side wall of the air duct (101) in the process of rotating the tail end of the volute tongue plate (11) to the air deflector (20).

4. An air outlet structure for an air conditioner according to claim 3, wherein an upper side wall of the air duct (101) is made of a magnetic metal material, and a portion of the baffle plate (12) contacting the upper side wall of the air duct (101) has magnetism so that the baffle plate (12) is always contacted with the upper side wall of the air duct (101).

5. The air outlet structure for an air conditioner according to claim 2, wherein a hinge seat (113) is provided on the whirlpool tongue plate (11), a hinge shaft (121) is formed on a side edge of the baffle plate (12), and the hinge shaft (121) is connected with the hinge seat (113).

6. The air outlet structure for an air conditioner according to claim 5, wherein the volute tongue assembly (10) further comprises:

and the driving device (13) is in transmission connection with the volute tongue plate (11) so as to drive the volute tongue plate (11) to rotate.

7. The air outlet structure for an air conditioner according to claim 6, wherein the driving means (13) includes:

the motor bracket (131) is used for being fixedly arranged on the air conditioner;

and a drive motor (132) provided on the motor bracket (131), wherein the drive motor (132) has a power unit (133) connected to the tongue plate (11).

8. The air outlet structure for an air conditioner according to claim 7, wherein the whirlpool tongue plate (11) is located at the side of the driving device (13) and is formed with a mounting plate (114), a connecting hole (115) is formed in the mounting plate (114), and the power part (133) is inserted into the connecting hole (115).

9. The air outlet structure for an air conditioner according to claim 8, wherein the whirlpool tongue plate (11) includes:

a first guide plate (111) remote from the air outlet (102);

the second guide plate (112) is positioned at the air outlet (102) side and is connected with the first guide plate (111), and the connecting included angle between the second guide plate (112) and the first guide plate (111) is an obtuse angle;

the hinge seat (113) is arranged on the second guide plate (112), and the mounting plate (114) is formed at the connection included angle of the second guide plate (112) and the first guide plate (111).

10. An air conditioner, characterized by comprising an air conditioner body (100), wherein the air conditioner body (100) comprises an air duct (101) and an air outlet (102), and further comprises the air outlet structure for the air conditioner according to any one of claims 1 to 9, wherein a volute tongue plate (11) of the air outlet structure is rotatably arranged in the air duct (101), and the tail end of the volute tongue plate (11) extends to the air outlet (102) side; the air deflector (20) of the air outlet structure is rotatably arranged at the air outlet (102).