CN216308169U - Air outlet structure and air conditioning system - Google Patents

Abstract

The utility model relates to the technical field of air conditioners and discloses an air outlet structure and an air conditioning system, wherein the air outlet structure comprises an air outlet and an air guide assembly arranged at the air outlet, the air guide assembly comprises a horizontal swing blade and a vertical swing blade, the horizontal swing blade comprises an air guide plate and a flow guide part arranged on the air guide plate, the flow guide part is used for guiding the air outlet flow passing through the air guide plate to two sides for blowing out, and the horizontal swing blade is arranged on the outer side of the vertical swing blade. According to the air outlet structure and the air conditioning system, the air guide plate of the horizontal swing blade is provided with the flow guide piece, so that the outlet air is guided to be blown out from the two side parts of the horizontal swing blade, the amount of air blown to the right front by the air outlet is reduced, the effect of preventing direct blowing is achieved, the blowing comfort is improved, and the user experience is improved; and the horizontal swing blade is arranged at the outer side of the vertical swing blade, so that the outlet air flows out after being guided and regulated by the horizontal swing blade, and the effect of preventing direct blowing is achieved.

Description

Air outlet structure and air conditioning system

Technical Field

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

Background

With the rapid development of economy, the living standard of people is higher and higher, and the requirements on indoor temperature and humidity are higher and higher. At present, the air conditioner becomes an essential household appliance in the life of people. The air outlet of the air conditioning system is usually provided with a wind direction control device, the wind direction control device mainly comprises a plurality of rows of transversely arranged horizontal swing blades and a plurality of rows of longitudinally arranged longitudinal swing blades, each horizontal swing blade is connected together through a first connecting rod, each longitudinal swing blade is connected together through a second connecting rod, the horizontal swing blades are driven by a motor to swing up and down, and the longitudinal swing blades are driven by the motor to swing left and right.

In the prior art, a wind direction adjusting device at an air inlet of an air conditioning system generally blows air conditioning wind directly, so that the problem of uncomfortable experience of a user is caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides an air outlet structure and an air conditioning system, which are used for solving the problem that the air direction adjusting device at the air outlet of the air conditioning system in the prior art usually blows air conditioning air directly, so that the user experience is uncomfortable.

The utility model provides an air outlet structure which comprises an air outlet and an air guide assembly arranged at the air outlet, wherein the air guide assembly comprises a horizontal swing blade and a vertical swing blade, the horizontal swing blade comprises an air guide plate and a guide piece arranged on the air guide plate, the guide piece is used for guiding the air outlet flow passing through the air guide plate to two sides for blowing out, and the horizontal swing blade is arranged on the outer side of the vertical swing blade.

According to the air outlet structure provided by the utility model, the plurality of the yaw blades are arranged at the air outlet in parallel along the vertical direction, the plurality of the yaw blades are divided into a first group of yaw blades and a second group of yaw blades from top to bottom, the first group of the yaw blades are connected to the first driving structure, and the second group of the yaw blades are connected to the second driving structure.

According to the air outlet structure provided by the utility model, the number of the first group of the horizontal swinging blades is less than that of the second group of the horizontal swinging blades.

According to the air outlet structure provided by the utility model, the vertical swing blade is of a grid structure; at least one group of vertical swinging blades is arranged along the vertical direction.

According to the air outlet structure provided by the utility model, the air outlet is vertically divided into an upper air outlet and a lower air outlet, the first group of the horizontal swinging blades are arranged at the upper air outlet, and the second group of the horizontal swinging blades are arranged at the lower air outlet.

According to the air outlet structure provided by the utility model, the width of the horizontal swinging blade is matched with the width of the air outlet, the air guide plate comprises a first air guide plate and a second air guide plate which are arranged oppositely, the air guide piece comprises two opposite guide surfaces, the two guide surfaces are respectively connected between the first air guide plate and the second air guide plate, and the distance between the inner ends of the two guide surfaces is smaller than the distance between the outer ends of the two guide surfaces.

According to the air outlet structure provided by the utility model, the two side walls of the flow guide part are two flow guide surfaces, and the two side walls of the flow guide part are respectively provided with a through flow guide hole.

According to the air outlet structure provided by the utility model, the flow guide piece is of a hollow closed structure, and each side wall of the flow guide piece is provided with a plurality of flow guide holes.

According to the air outlet structure provided by the utility model, the first air deflector is positioned above the second air deflector, and one side of the first air deflector close to the inner part correspondingly extends out of one side of the second air deflector close to the inner part.

The utility model also provides an air conditioning system which comprises the air outlet structure, wherein the air conditioning system comprises an indoor unit, and the air outlet structure is arranged on the shell of the indoor unit.

According to the air outlet structure and the air conditioning system, the air guide plate of the horizontal swing blade is provided with the flow guide piece, so that the outlet air is guided to be blown out from the two side parts of the horizontal swing blade, the amount of air blown to the right front by the air outlet is reduced, the effect of preventing direct blowing is achieved, the blowing comfort is improved, and the user experience is improved; and will yaw the leaf and establish in the outside of erecting the swing leaf, make the air-out flow backward through this yaw leaf water conservancy diversion regulation, reach the effect of preventing directly blowing, and the position installation space that is close to the outside of air outlet is great, is favorable to increasing the area of yaw leaf to the increase flows through the wind volume that prevents that the wind direction of directly blowing is adjusted to the yaw leaf, better realization prevents the effect of directly blowing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic view of the overall arrangement of the air outlet structure provided by the present invention;

fig. 2 is a schematic diagram of relative positions of a horizontal swinging blade and a vertical swinging blade in the air guide assembly provided by the utility model;

FIG. 3 is a schematic view of the connection of the yaw blade and the drive structure provided by the present invention;

FIG. 4 is a schematic view of the connection of the yaw blade and the motor provided by the present invention;

FIG. 5 is a schematic view of a first operating state of the yaw blade provided by the present invention;

FIG. 6 is a schematic view of a second operating state of the yaw blade provided by the present invention;

FIG. 7 is a schematic structural view of a vertical swing blade provided by the present invention;

FIG. 8 is a first side view overall schematic view of the yaw blade provided by the present invention;

FIG. 9 is a second side view overall schematic view of the yaw blade provided by the present invention;

FIG. 10 is an overall schematic view of a baffle provided by the present invention;

FIG. 11 is a top view overall schematic of the yaw blade provided by the present invention;

fig. 12 is a bottom view overall schematic diagram of the horizontal swing blade provided by the present invention.

Reference numerals:

1: a housing; 21: an upper air outlet; 22: a lower air outlet; 3: transversely swinging the leaves; 3 a: a first set of yaw blades; 3 b: a second set of yaw blades; 31: a first air deflector; 32: a second air deflector; 33: a flow guide member; 331: a flow guide surface; 332: a flow guide hole; 34: a connecting plate; 35: a connecting member; 4: vertically swinging the leaves; 5: a connecting rod; 6: an electric motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar 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 illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

The following disclosure provides many different embodiments, or examples, for implementing different features of the utility model. 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 invention 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.

The air outlet structure and the air conditioning system of the present invention will be described with reference to fig. 1 to 12.

Referring to fig. 1, the present embodiment provides an air outlet structure, which includes an air outlet and an air guiding assembly disposed at the air outlet, where the air guiding assembly includes a horizontal swinging blade 3 and a vertical swinging blade 4. The air guide component is arranged at the air outlet and used for playing a role in guiding air outlet. The rotation directions of the horizontal swinging blades 3 and the vertical swinging blades 4 are vertical, and the horizontal swinging blades and the vertical swinging blades are used for realizing the respective wind direction adjustment in two vertical directions. For example, the yaw blade 3 can rotate around the horizontal direction for realizing up-and-down wind guiding; the vertical swing blade 4 can rotate around the vertical direction and is used for realizing left and right air guiding.

Further, the yaw blade 3 includes an air deflector and a flow guide member 33 disposed on the air deflector, and the flow guide member 33 is used for guiding the flow of the air flowing through the air deflector to two sides for blowing out. The air outlet at the air outlet is blown out after flowing through the air deflector, and the air deflector is provided with a flow guide piece 33 for guiding and adjusting the direction of the air outlet flowing through the air deflector. Specifically, the air guide member 33 is provided to guide the outlet air to be blown out to both sides. The air-out of current air outlet department directly blows out forward after flowing through the aviation baffle promptly, and the water conservancy diversion piece 33 that sets up in this embodiment makes the air-out blow off from the both sides position of yawing leaf 3 forward behind water conservancy diversion piece 33 to be favorable to reducing the air outlet and blow to the amount of wind in dead ahead, reach the effect of preventing directly blowing, be favorable to improving the comfort level of blowing, promote user experience.

Further, referring to fig. 2, the horizontal swing blade 3 is disposed outside the vertical swing blade 4. Namely, the horizontal swing blade 3 is arranged on one side of the vertical swing blade 4 facing the outer side of the air outlet, the vertical swing blade 4 is arranged on one side of the horizontal swing blade 3 facing the inner side of the air outlet, and the air outlet of the air outlet firstly flows through the vertical swing blade 4 and then flows through the horizontal swing blade 3 and is blown out. Thereby the yaw leaf 3 can carry out the water conservancy diversion in the end in air-out route and transfer to, make the air-out flow after this yaw leaf 3 water conservancy diversion transfers to, reach the effect of preventing directly blowing. And the horizontal swing blade 3 is arranged at the outer side part of the air outlet, the installation space is large, and the area of the horizontal swing blade 3 is increased, so that the air outlet quantity of the direct blowing wind direction adjustment is prevented by increasing the flowing through horizontal swing blade 3, and the direct blowing effect is prevented by better realization.

According to the air outlet structure provided by the embodiment, the air guide plate of the horizontal swing blade 3 is provided with the air guide piece 33, so that the air outlet guide is blown out from the two side parts of the horizontal swing blade 3, the air quantity blown to the right front by the air outlet is reduced, the direct blowing prevention effect is achieved, the air blowing comfort is improved, and the user experience is improved; and will yaw leaf 3 and establish in the outside of erecting pendulum leaf 4, make the air-out through should yaw leaf 3 water conservancy diversion and adjust backward outflow, reach the effect of preventing directly blowing, and the position installation space that is close to the outside of air outlet is great, is favorable to increasing the area of yaw leaf 3 to the increase flows through the air-out amount of wind that yaw leaf 3 carried out preventing directly blowing wind direction and adjusts, better realization prevents the effect of directly blowing.

On the basis of the above embodiment, further, referring to fig. 3, the air outlet is provided with a plurality of the horizontal swinging blades 3 in parallel along the vertical direction, the horizontal swinging blades 3 are divided into a first group of horizontal swinging blades 3a and a second group of horizontal swinging blades 3b from top to bottom, the first group of horizontal swinging blades 3a are connected to the first driving structure, and the second group of horizontal swinging blades 3b are connected to the second driving structure. Namely, the driving swing structures of the first group of the swinging blades 3a and the second group of the swinging blades 3b are independent; the transverse swinging blades 3 in the first group of transverse swinging blades 3a are in transmission connection and integrally swing up and down under the driving of the first driving structure; the second group of the transverse swinging blades 3b are in transmission connection with each other and integrally swing up and down under the driving of the second driving structure.

Specifically, the first group of yaw blades 3a may be connected to a connecting rod 5, and are in transmission connection with the connecting rod 5; referring to fig. 4, the first driving structure may be a motor 6, the motor 6 may be in transmission connection with one of the yaw blades 3, and the motor 6 drives the yaw blade 3 to rotate, so as to drive the first set of yaw blades 3a to rotate integrally. Furthermore, the specific connection position of the connecting rod 5 and the yaw blade 3 is not limited, so as to realize the transmission connection and the integral swinging of the yaw blade 3. The first driving structure can also be connected with the connecting rod 5, the connecting rod 5 is driven to move up and down to drive the transverse swinging blades 3 to swing up and down, the specific form and connection of the first driving structure are not limited, and the purpose of driving the whole swinging of the first group of transverse swinging blades 3a is achieved.

Further, the driving connection structure of the second set of yaw blades 3b and the second driving structure may be similar to the arrangement of the first set of yaw blades 3a, and referring to fig. 3, the yaw blades 3 of the second set of yaw blades 3b may each be connected to another link 5, and be drivingly connected through the link 5. The second driving structure can also be a motor 6, and the motor 6 can be connected with the horizontal swinging blade 3; the second driving structure can also be connected with the connecting rod 5, and is not limited in particular.

Swing mutual independence through setting up two sets of yaw leaf 3 for the air outlet control of air outlet department is nimble more various, changes current single air-out direction, and the accessible realizes different air-out effects to two sets of yaw leaf 3's swing control. Specifically, referring to fig. 5, the first set of yaw blades 3a can be driven to rotate downwards, and the second set of yaw blades 3b can rotate upwards, so that the upward wind and the downward wind can form confluence at the middle position, the confluence directly influences that the wind blowing distance is longer than that of a single flow, and long-distance wind blowing is realized; referring to fig. 6, the first set of yaw blades 3a and the second set of yaw blades 3b can also be driven to rotate upwards to guide wind upwards, so that the wind is not directly blown. The specific swing direction of the first group of the transverse swing blades 3a and the second group of the transverse swing blades 3b is not limited, and the first group of the transverse swing blades and the second group of the transverse swing blades can be flexibly controlled according to actual needs.

On the basis of the above embodiment, further, the number of the first set of the yaw blades 3a is smaller than the number of the second set of the yaw blades 3 b. Referring to fig. 1 and 2, the present embodiment proposes that the number of the first set of yaw blades 3a located above is smaller than the number of the second set of yaw blades 3b located below, the setting is adapted to the proportional distribution of the head and body of the human body, and the control of the swinging of the yaw blades 3 is made more human-felt by the setting, which is beneficial to improving the flexibility and the blowing comfort.

To the human experience of blowing, blow directly blow to the head and compare and blow to the health position, the uncomfortable that causes experiences are different, based on this difference, can control the swing of first group of yaw leaf 3a and second group of yaw leaf 3b respectively to the demand of blowing of the different positions of adaptation human body. For example, the first set of the horizontal swinging blades 3a can be controlled to rotate upwards to avoid the direct blowing of the head, and the second set of the horizontal swinging blades 3b can be controlled to blow air forwards to blow the air to the body part of the human body so as to quickly reduce or increase the sensible temperature of the human body.

On the basis of the above embodiment, further, referring to fig. 7, the vertical swing vanes 4 are in a grid structure; the left and right swinging wind can be realized by rotating around the vertical direction. At least one group of vertical swinging blades 4 is arranged along the vertical direction. Referring to fig. 1 and 2, in this embodiment, two sets of vertical swing blades 4 may be disposed along the vertical direction, and the two sets of vertical swing blades 4 may be independently driven, so as to improve flexibility and diversity of adjustment of the air outlet direction of the air outlet. In other embodiments, the number of the vertical swing blades 4 may be other, and is not limited specifically.

On the basis of the above embodiment, further, referring to fig. 1, in this embodiment, the air outlet is divided into an upper air outlet 21 and a lower air outlet 22 along a vertical direction, the first set of horizontal swing blades 3 is disposed at the upper air outlet 21, and the second set of horizontal swing blades 3 is disposed at the lower air outlet 22. The air outlet structure further comprises a shell 1, the air outlet is formed in the shell 1, and the air guide assembly is connected to the position, corresponding to the air outlet, of the shell 1. Be equipped with separated last air outlet 21 and lower air outlet 22 on casing 1 in this embodiment for correspond and set up first group's yaw leaf 3a and second group's yaw leaf 3b, in order to form two independent air outlets, improve the variety and the flexibility of air-out control.

On the basis of the above embodiment, further, referring to fig. 1, the width of the horizontal swing blade 3 matches the width of the air outlet; namely, the horizontal swinging blade 3 can be arranged at the air outlet, and the two sides of the horizontal swinging blade 3 along the width direction are correspondingly connected with the two sides of the air outlet one by one; the width of the horizontal swinging blades 3 can be determined according to the width of the air outlet, so that the area of the horizontal swinging blades 3 is increased, and the flow guiding air quantity is improved.

Further, referring to fig. 8 and 9, the air guiding plate includes a first air guiding plate 31 and a second air guiding plate 32 which are oppositely disposed, the air guiding member 33 includes two opposite air guiding surfaces 331, the two air guiding surfaces 331 are respectively connected between the first air guiding plate 31 and the second air guiding plate 32, and a distance between inner ends of the two air guiding surfaces 331 is smaller than a distance between outer ends of the two air guiding surfaces 331. The first air guiding plate 31 and the second air guiding plate 32 are respectively of a plate-shaped structure. The first air deflector 31 and the second air deflector 32 are arranged oppositely, that is, the first air deflector 31 and the second air deflector 32 do not intersect, so that a through space is formed between the first air deflector 31 and the second air deflector 32, and air-conditioning outlet air can be blown out from the space between the first air deflector 31 and the second air deflector 32, as shown in fig. 8.

A flow guide member 33 is disposed between the first air guiding plate 31 and the second air guiding plate 32, and is used for guiding and adjusting the direction of the outlet air. Specifically, the flow guiding element 33 includes two flow guiding surfaces 331 disposed between the first air guiding plate 31 and the second air guiding plate 32. The two flow guide surfaces 331 are disposed oppositely, that is, two ends of the two flow guide surfaces 331 are respectively flush with each other, that is, an end portion of one flow guide surface 331 close to the inside is flush with an end portion of the other flow guide surface 331 close to the inside, and an end portion of one flow guide surface 331 close to the outside is flush with an end portion of the other flow guide surface 331 close to the outside. The outlet air blown out from the inner side of the swing vane structure flows through the two guide surfaces 331 at the same time, rather than sequentially flowing through the two guide surfaces 331, as shown in fig. 8 and 9.

Specifically, referring to fig. 10, the distance between the inner ends of the two flow guiding surfaces 331 is smaller than the distance between the outer ends; that is, the distance between the two guiding surfaces 331 is smaller at the inner end than at the outer end, so that the two guiding surfaces 331 are diffused in the direction from the inside to the outside. The air conditioner air outlet is blown to the outside from the inner side of the air deflector and then blown out.

The horizontal swing leaf 3 that this embodiment provided, establish to bilayer structure and make the air-out blow off from between first aviation baffle 31 and the second aviation baffle 32, and guide the regulation to the air-out wind direction through setting up water conservancy diversion piece 33 between first aviation baffle 31 and the second aviation baffle 32, specifically the interval setting through two water conservancy diversion faces 331, make when the air-out flows through water conservancy diversion face 331, under the guide of water conservancy diversion face 331, the air-out direction can be to both sides skew, thereby be favorable to reducing the air volume that the air-out directly blew off, reach the effect of preventing directly blowing, be favorable to improving the comfort level of blowing, promote user experience.

Further, referring to fig. 10, the two flow guiding surfaces 331 are connected at an inner end. That is, the end portions of the two flow guide surfaces 331 near the inside are in an intersecting state, and the two flow guide surfaces 331 gradually diffuse from the intersection to the two sides along the direction from the inside to the outside, so that the outlet air is directly guided by the two flow guide surfaces 331 to be blown out from the two sides when flowing to the flow guide surfaces 331, which is beneficial to avoiding direct blowing and improving the comfort level of users.

Further, referring to fig. 10, the flow guide member 33 is disposed on an outer side between the first wind guide plate 31 and the second wind guide plate 32. Specifically, the outer side of the air guiding element 33, the outer side of the first air guiding plate 31 and the outer side of the second air guiding plate 32 may be flush with each other, as shown in fig. 9 and 10. Establish water conservancy diversion piece 33 in one side that leans on the outside, the terminal route that flows through the yaw leaf 3 at the air-out promptly carries out the water conservancy diversion to the air-out and transfers to, flows through water conservancy diversion piece 33 when the air-out is about to flow out the yaw leaf 3 promptly for water conservancy diversion piece 33 can effectively guide the regulation to the air-out wind direction, forms the experience of blowing of different wind directions.

Further, the two flow guiding surfaces 331 are disposed at the middle portion between the first air guiding plate 31 and the second air guiding plate 32. The air outlet wind direction of the middle part of the swing blade structure can be adjusted, the air outlet of the middle part is deviated to two sides, and the effect of preventing direct blowing can be better achieved.

On the basis of the above embodiment, further, the two flow guide surfaces 331 are respectively of a curved surface structure. The flow guide surface 331 is designed to be a curved surface structure, which is beneficial to reducing the flow resistance when the outlet air flows through the flow guide surface 331, and ensuring smooth outlet air to ensure the outlet air volume.

On the basis of the above embodiment, referring to fig. 10, the two diversion surfaces 331 are respectively concave structures, and the concave surfaces of the two diversion surfaces 331 are opposite to each other. That is, any one of the guide surfaces 331 is recessed toward the other guide surface 331 to form a concave structure; thereby two water conservancy diversion surfaces 331 are back of the other side in the flow direction of outer one end state for the air-out that flows through two water conservancy diversion surfaces 331 is back of the other side state when flowing out the yaw leaf 3, and two water conservancy diversion surfaces 331 can effectively divide the air current to both sides, realize preventing the effect of directly blowing.

On the basis of the above embodiment, further, two side walls of the flow guide member 33 are two flow guide surfaces 331, and the two side walls of the flow guide member 33 are respectively provided with a flow guide hole 332 therethrough. That is, the flow guide surface 331 is formed by two side walls of the flow guide 33, and the two side walls of the flow guide 33 are the base bodies of the two flow guide surfaces 331. Further, the flow guiding member 33 is a hollow structure, i.e. the two flow guiding surfaces 331 form a hollow space between the two base bodies.

The scheme of this embodiment is that set up the water conservancy diversion hole 332 that runs through the base member on the formation base member of two water conservancy diversion surfaces 331 respectively for the air-out can flow through water conservancy diversion hole 332, thereby can make the middle part of pendulum leaf structure also have certain air-out amount of wind and this air-out amount of wind can not be too big, is favorable to improving the air-out degree of consistency under the condition of guaranteeing the comfort level of blowing.

On the basis of the above embodiment, further, the flow guiding element 33 is a hollow closed structure, that is, the flow guiding element 33 is a hollow closed structure between the first air guiding plate 31 and the second air guiding plate 32, and the flow guiding element 33 has side walls all around along the circumferential direction to form a closed structure. When the inner ends of the two diversion surfaces 331 intersect, the diversion member 33 specifically includes a first sidewall and a second sidewall that form the two diversion surfaces 331, and a third sidewall that connects the outer ends between the first sidewall and the second sidewall. Referring to fig. 8 and 9, the first and second sidewalls are used to form two flow guide surfaces 331; the third side wall is a side wall flush with the outer sides of the first and second air deflectors 31 and 32.

And each side wall of the flow guide member 33 is provided with a plurality of flow guide holes 332. A guide hole 332 is formed in each sidewall of the guide member 33, so that the outlet air can flow into the guide member 33 and also flow out of the guide member 33. When the outlet air flows through the two flow guide surfaces 331, part of the air volume can flow into the flow guide member 33 through the flow guide holes 332, and then can be blown out forward from the flow guide holes 332 on the outer side wall of the flow guide member 33, so that the position of the traverse blade 3 where the flow guide member 33 is arranged also has a certain outlet air volume, and the air flow flowing into the flow guide member 33 from the flow guide surface 331 can also generate impact mixed flow inside the flow guide member 33 to weaken the outlet air speed, so that the air speed blown out forward through the outer side wall of the flow guide member 33 is softer, namely, the directly blown outlet air is softer, the comfort level of the outlet air can be improved, and the user experience is improved.

Furthermore, a plurality of diversion holes 332 can be formed in each side wall of the diversion member 33 to ensure smooth flow of outlet air and ensure the quantity of outlet air; the specific arrangement number and positions of the diversion holes 332 on each side wall of the diversion member 33 are not limited, and the diversion holes can be flexibly arranged.

In addition to the above embodiment, the first air guiding plate 31 is located above the second air guiding plate 32, and the inner side of the first air guiding plate 31 correspondingly extends out of the inner side of the second air guiding plate 32. Referring to fig. 12, in the present embodiment, the width of the first air guiding plate 31 in the direction from inside to outside is greater than the width of the second air guiding plate 32; the outer side of the first air guiding plate 31 is flush with the outer side of the second air guiding plate 32, so that the inner side of the first air guiding plate 31 correspondingly extends out of the inner side of the second air guiding plate 32. The inner side of the first air deflector 31 positioned above is extended out of the inner side of the second air deflector 32, so that the air outlet is limited and guided between the first air deflector 31 and the second air deflector 32, and the air outlet smoothly enters between the first air deflector 31 and the second air deflector 32 for diversion and direction adjustment.

Further, the specific size of the inner side of the first air guiding plate 31 extending out of the inner side of the second air guiding plate 32 can be flexibly set according to the actual situation, and is not limited.

On the basis of the above embodiment, further referring to fig. 11 and 12, the inner side of the first air guiding plate 31 is in an inward convex structure; that is, the inner side of the first wind deflector 31 protrudes toward the inner side. The inner side of the second air deflector 32 is of an inward concave edge structure; that is, the inner side of the second air guiding plate 32 is a concave structure, and the concave is toward the inner side. The side edge of the first air guiding plate 31 close to the inner part is a convex edge, and the side edge of the second air guiding plate 32 close to the inner part is a concave edge, so that the air outlet is guided to flow between the two air guiding plates for guiding and adjusting the direction, and the effect of preventing the air outlet from directly blowing is ensured.

On the basis of the above embodiment, further referring to fig. 8 and 9, the first air guiding plate 31 and the second air guiding plate 32 are respectively connected with a connecting plate 34 at two sides, and the connecting plate 34 is provided with a connecting piece 35. The first air deflector 31 and the second air deflector 32 are connected into a whole through a connecting plate 34; the connection 35 on the connection plate 34 can be used for the mounting of the yaw blade 3 or for the connection of an accessory.

Specifically, the connecting member 35 in this embodiment includes a connecting seat and a connecting shaft, the connecting seat and the connecting shaft are correspondingly disposed on the connecting plates 34 on two sides, the connecting seat is used for connecting the motor 6, and the connecting shaft is used for rotatably mounting the swing blade structure. That is, in this embodiment, the connecting seat may be disposed on the connecting plate 34 on one side, and the connecting shaft may be disposed on the connecting plate 34 on the other side. One side of the horizontal swinging blade 3 can be connected with a motor 6 through a connecting seat, and the motor 6 is used for driving the horizontal swinging blade 3 to rotate; the other side of the swing blade structure can be rotatably installed and fixed through the connecting shaft, the connecting shaft can be rotatably installed on the air conditioner shell 1, and the swing blade structure can be fixedly installed and can be rotated. Further, the connecting seat can be connected with the rotating shaft of the motor 6 through a key structure so as to realize integral rotation, and the connecting seat is not limited specifically.

In another embodiment, the connecting plate 34 may further be provided with other connecting members 35, for example, a connecting rod connecting member may be provided, and the plurality of the swinging blades 3 may be connected to one connecting rod 5 through the connecting rod connecting member, so that the plurality of the swinging blades 3 may be in transmission connection through the connecting rod 5, and the synchronous rotation of the plurality of the swinging blade structures is realized.

In other embodiments, the types and the number of the connecting members 35 on the connecting plate 34 may be other, and are not limited. The connecting member 35 shown in fig. 8 to 12 is only used to show the connection relationship between the connecting member 35 and the connecting plate 34, and the specific structure, number and arrangement position of the connecting member 35 are not limited. The yaw blades 3 and the vertical blades 4 shown in fig. 1 to 7 are only used to show the relevant arrangement structure in the corresponding embodiment, and the specific arrangement number of the yaw blades 3 and the vertical blades 4 is not limited.

On the basis of the foregoing embodiments, further, the present embodiment provides an air conditioning system, which includes the air outlet structure described in any of the foregoing embodiments, where the air conditioning system includes an indoor unit, and the air outlet structure is disposed on a casing 1 of the indoor unit.

Further, the air conditioning system can be a vertical air conditioner which comprises an indoor unit, and the air outlet structure is arranged on a shell 1 of the indoor unit; in another embodiment, the air conditioning system may also be a central air conditioner, and the central air conditioner has an air outlet provided indoors, and the air outlet can be configured as the air outlet structure provided in the above embodiments.

In addition to the above embodiments, the present embodiment further provides a vertical air-conditioning outlet, in which the air-conditioning outlet is directed to each direction by the horizontal swing blades 3 and the vertical swing blades 4, the horizontal swing blades 3 rotate up and down, the air is directed to the up and down direction, the vertical swing blades 4 rotate left and right, and the air is directed to the left and right direction. In the embodiment, the transverse swing blades 3 are arranged in front of the vertical swing blades 4, namely, are positioned at the outer side part of the air outlet, the mounting space is large, the design is large, the transverse swing blades 3 comprise 18-22 double-layer transverse swing blades 3, the transverse swing blades 3 can rotate upwards for 62-68 degrees and downwards for 42-48 degrees, cold air can be effectively guided upwards, hot air can be guided downwards, and the purpose of preventing direct blowing is achieved; the vertical swing blade 4 is designed at the rear position of the horizontal swing blade 3, and guides wind to two sides according to the wind outlet direction of the air duct to prevent direct blowing.

The air-conditioning air outlet can be divided into an upper air outlet 21 and a lower air outlet 22, the rotating direction of the traditional air-conditioning air outlet is consistent, the air blowing distance is controlled by the air volume of a fan, the scheme controls different groups of the transverse swinging blades 3 to rotate up and down by 2 motors 6, when the first group of the transverse swinging blades 3a on the upper side blow directly, and the second group of the transverse swinging blades 3b on the lower side blow upwards, the upper air and the lower air can form confluence at the middle position, the confluence directly influences the air blowing distance to be far away than the influence distance of a single flow, and the farthest distance is far away than that of the traditional air-conditioning.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred 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" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. An air outlet structure comprises an air outlet and an air guide assembly arranged at the air outlet, and is characterized in that the air guide assembly comprises a horizontal swing blade and a vertical swing blade, the horizontal swing blade comprises an air guide plate and a guide piece arranged on the air guide plate, the guide piece is used for guiding the air outlet flowing through the air guide plate to two sides to be blown out, and the horizontal swing blade is arranged on the outer side of the vertical swing blade.

2. The air outlet structure of claim 1, wherein the air outlet is provided with a plurality of the horizontal swing blades in parallel along a vertical direction, the horizontal swing blades are divided into a first group of horizontal swing blades and a second group of horizontal swing blades from top to bottom, the first group of horizontal swing blades is connected to the first driving structure, and the second group of horizontal swing blades is connected to the second driving structure.

3. The outlet structure of claim 2, wherein the number of the first set of flaps is less than the number of the second set of flaps.

4. The air outlet structure of claim 1, wherein the flaps are of a grille structure; at least one group of vertical swinging blades is arranged along the vertical direction.

5. The air outlet structure according to claim 2 or 3, wherein the air outlet is vertically divided into an upper air outlet and a lower air outlet, the first set of horizontal swinging blades is arranged at the upper air outlet, and the second set of horizontal swinging blades is arranged at the lower air outlet.

6. The air outlet structure according to any one of claims 1 to 4, wherein the width of the horizontal swing blade is matched with the width of the air outlet, the air guiding plate comprises a first air guiding plate and a second air guiding plate which are arranged oppositely, the air guiding member comprises two opposite air guiding surfaces, the two air guiding surfaces are respectively connected between the first air guiding plate and the second air guiding plate, and the distance between the inner ends of the two air guiding surfaces is smaller than the distance between the outer ends of the two air guiding surfaces.

7. The air outlet structure according to claim 6, wherein the two side walls of the air guiding member are two air guiding surfaces, and the two side walls of the air guiding member are respectively provided with a through air guiding hole.

8. The air outlet structure of claim 7, wherein the air guiding member is a hollow closed structure, and each side wall of the air guiding member is provided with a plurality of air guiding holes.

9. The air outlet structure of claim 6, wherein the first air guiding plate is located above the second air guiding plate, and an inner side of the first air guiding plate correspondingly extends out of an inner side of the second air guiding plate.

10. An air conditioning system, characterized in that it comprises an air outlet structure according to any one of claims 1 to 9, said air conditioning system comprising an indoor unit, said air outlet structure being provided on a casing of said indoor unit.

Images