CN216011223U - Air guide device and air conditioner - Google Patents

Abstract

The utility model relates to an air conditioning field, the utility model provides an air ducting and air conditioner, air ducting includes the panel, first air guide component and a plurality of second air guide component, the panel is formed with indoor gas outlet, first air guide component and second air guide component all are located indoor gas outlet department, first air guide component includes first connecting rod and first aviation baffle, first connecting rod drives each first aviation baffle synchronous oscillation, second air guide component includes second connecting rod and a plurality of second aviation baffle, the second connecting rod drives each second aviation baffle synchronous oscillation. The first air deflector and the second air deflector can respectively and independently swing to adjust the flowing direction of air flow from the indoor air outlet in multiple directions, and the air flow can be guided to multiple different areas to realize large-scale air supply.

Description

Air guide device and air conditioner

Technical Field

The application relates to the technical field of air conditioning, in particular to an air guide device and an air conditioner.

Background

The bathroom has a small space and poor ventilation conditions, and the air conditioner is arranged in the bathroom and used for heating or cooling the bathroom so as to adjust the temperature in the bathroom. Generally, the air conditioner directly blows air into the bathroom, and the air outlet direction is single.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide an air guiding device and an air conditioner capable of guiding air in multiple directions.

An embodiment of the present application provides an air guiding device, includes:

a panel formed with an indoor air outlet;

the first air guide assembly is positioned at the indoor air outlet and comprises a first connecting rod and a plurality of first air guide plates, the first connecting rod is arranged along a first direction, the plurality of first air guide plates are arranged on the first connecting rod at intervals along the first direction, and the first connecting rod drives the first air guide plates to synchronously swing;

the second air guide assembly is positioned at the indoor air outlet and comprises a second connecting rod and a plurality of second air guide plates, the second connecting rod is arranged along a second direction, the second air guide plates are arranged on the second connecting rod at intervals along the second direction, the second connecting rod drives the second air guide plates to synchronously swing, the second air guide plates and the first air guide plates are arranged at intervals along the vertical direction, and the first direction, the second direction and the vertical direction are perpendicular to each other.

In some embodiments, the air guide device is configured to be mounted to a ceiling space, a ceiling panel of the ceiling space forms an avoidance area, and the panel covers the avoidance area.

In some embodiments, the first air deflector can rotate clockwise and/or counterclockwise along the first swing center line, wherein the maximum swing angle of the first air deflector rotating along any direction of the first swing center line is between 50 ° and 80 °; and/or the presence of a gas in the gas,

the second air deflector can rotate clockwise and/or anticlockwise along a second swinging central line of the second air deflector, wherein the maximum swinging angle of the second air deflector rotating along any direction of the second swinging central line is between 50 and 80 degrees.

In some embodiments, the panel is formed with an indoor air intake, and the air guide device includes an air intake grill covering the indoor air intake.

In some embodiments, the first air guiding plate includes a plate body and a connecting arm, the connecting arm is disposed on a surface of the plate body close to the first connecting rod, the connecting arm has a first rotating portion and a second rotating portion, the first rotating portion is rotatably connected to the panel, the second rotating portion is rotatably connected to the first connecting rod, and the first rotating portion is located between the second rotating portion and the plate body.

In some embodiments, the first air deflector is located below the second air deflector, and the plurality of plate bodies can jointly seal the indoor air outlet in a state that a swing angle of the first air deflector is 0 °.

In some embodiments, one of the first link and the second rotating portion is formed with an open groove, and the other of the first link and the second rotating portion is formed with a rotating shaft which recoverably expands the opening of the open groove to enter or exit the open groove.

In some embodiments, the air guiding device includes a first driving member, the first driving member is connected to the first rotating portion of any one of the first air deflectors, and the first driving member is configured to drive the first air deflector to rotate and drive the other first air deflectors to synchronously swing through the first connecting rod.

In some embodiments, the air guiding device includes a reinforcing rib located between two ends of the first air guiding plate, two ends of the reinforcing rib are respectively connected to two side walls of the indoor air outlet along the first direction, and the first air guiding plate is rotatably connected to the reinforcing rib.

In some embodiments, the air guiding device includes a second driving member, and the second driving member drives any one of the second air guiding plates to rotate and drives the other second air guiding plates to swing synchronously through the second connecting rod.

In some embodiments, the second air guiding plate has a third rotating portion and a fourth rotating portion, the third rotating portion is rotatably connected to the panel, the fourth rotating portion is rotatably connected to the second connecting rod, and the third rotating portion is located on a side of the fourth rotating portion close to the first air guiding plate.

An embodiment of the present application further provides an air conditioner, including:

the air guide device according to any one of the above;

the host computer, the host computer includes the casing, the casing is formed with indoor air outlet, indoor air outlet with indoor gas outlet intercommunication.

According to the air guide device provided by the embodiment of the application, the first air guide plate and the second air guide plate can respectively and independently swing to adjust the flowing direction of air flow from an indoor air outlet in multiple directions, the air flow can be guided to multiple different areas, large-scale air supply is achieved, and user experience is improved.

Drawings

Fig. 1 is a schematic structural view of an air guiding device in an embodiment of the present application;

FIG. 2 is a schematic view of the structure shown in FIG. 1 from another perspective;

FIG. 3 is a schematic diagram of the structure shown in FIG. 1 from a further perspective;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged view of FIG. 4 at B;

fig. 6 is an assembly view of an air guiding device according to an embodiment of the present application, which is assembled to a keel;

fig. 7 is a schematic structural view of an air guiding device in an embodiment of the present application;

fig. 8 is a schematic diagram showing the result of another viewing angle of the structure shown in fig. 7.

Description of the reference numerals

A panel 100; an indoor air outlet 100 a; an indoor air inlet 100 b; a first air guide assembly 200; a first link 210; an open groove 210 a; a main rod 211; a strut 212; a first air deflector 220; a plate body 221; a connecting arm 222; the first rotating portion 2221; the second rotating portion 2222; a second air guide assembly 300; a second link 310; a second air deflection plate 320; the third rotating portion 321; a fourth rotating portion 322; an intake grill 400; a reinforcing rib 500; a first driving member 600; a second driving member 700; an air outlet pipe joint 800; an air inlet pipe joint 900;

a keel 1;

Detailed Description

It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.

In the description of the embodiments of the present application, the terms "up", "down", "first direction", "second direction" orientation or positional relationship refer to the orientation or positional relationship when the wind guiding device is in normal use, such as the orientation or positional relationship in fig. 2 and 4, it should be understood that these orientation terms are only used for convenience of description and simplification of the description, and 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 therefore should not be construed as limiting the present application.

Referring to fig. 1 to 4, an air guiding device according to an embodiment of the present application includes a panel 100, a first air guiding assembly 200, and a second air guiding assembly 300, where the panel 100 is formed with an indoor air outlet 100a, and the first air guiding assembly 200 and the second air guiding assembly 300 are both located at the indoor air outlet 100 a.

The first wind guiding assembly 200 includes a first connecting rod 210 and a plurality of first wind guiding plates 220, the first connecting rod 210 is disposed along a first direction, the plurality of first wind guiding plates 220 are arranged on the first connecting rod 210 at intervals along the first direction, and the first connecting rod 210 drives each of the first wind guiding plates 220 to swing synchronously. That is, the first air deflection plate 220 rotates clockwise and/or counterclockwise about the first swing center to change the flow direction of the air current from the indoor air outlet 100 a. Therefore, the air flow direction can be adjusted in multiple directions, so that the air supply area is changed, and the air supply range is enlarged. The first connecting rods 210 drive the first air deflectors 220 to synchronously swing, so that the structure is simple, and the reliability is good.

The second air guiding assembly 300 includes a second connecting rod 310 and a plurality of second air deflectors 320, the second connecting rod 310 is disposed along a second direction, the plurality of second air deflectors 320 are arranged on the second connecting rod 310 at intervals along the second direction, the second connecting rod 310 drives each second air deflector 320 to swing synchronously, the second air deflectors 320 and the first air deflectors 220 are arranged at intervals along an up-down direction, and the first direction, the second direction and the up-down direction are perpendicular to each other. The second air guiding plate 320 and the first air guiding plate 220 are arranged at intervals along the vertical direction, so as to avoid interference between the two. The second air deflection plate 320 rotates clockwise and/or counterclockwise about the second swing center to change the flow direction of the air current from the indoor air outlet 100 a. Therefore, the air flow direction can be adjusted in multiple directions, so that the air supply area is changed, and the air supply range is enlarged. The second connecting rod 310 drives the second air deflectors 320 to synchronously swing, so that the structure is simple and the reliability is good.

In the air guide device provided by the embodiment of the application, the first air guide plate 220 and the second air guide plate 320 can respectively and independently swing to adjust the flowing direction of the air flow from the indoor air outlet 100a in multiple directions, so that the air flow can be guided to multiple different areas, large-range air supply is realized, and the user experience is improved.

For example, the first direction may be a left-right direction, the second direction may be a front-back direction, the first wind guide plate 220 swings around the first swing center in the left-right direction, and the second wind guide plate 320 swings around the second swing center in the front-back direction, so that wind can be guided in four directions, i.e., the front direction, the back direction, the left direction and the right direction, and the blowing range is wide.

In the present embodiment, the number of the plurality of the fingers is two or more.

Take the air ducting that this application embodiment provided to be applied to the air conditioner as an example, the air conditioner includes air ducting and the host computer in this application any embodiment, and the host computer includes the casing, and the casing is formed with indoor air outlet, and indoor air outlet communicates with indoor air outlet 100 a. That is, the air flow from the indoor outlet can be guided to the indoor air outlet 100a and then enter the indoor space through the indoor air outlet 100 a.

In one embodiment, the air guiding device is configured to be mounted in a ceiling space, a ceiling plate of the ceiling space is formed with an avoidance area, and the panel 100 covers the avoidance area. That is, the air guide device is used for an air conditioner for a bathroom. On the one hand, the panel 100 covers the avoidance area, and the panel 100 can be used as a part of a ceiling board to play a role in decoration, so that the attractiveness is improved. On the other hand, the user can adjust the first air deflector 220 and the second air deflector 320 to guide the air flow to each region of the indoor space according to the requirement, thereby realizing multi-directional air supply.

In one embodiment, the ceiling board can divide the indoor space into partial spaces, namely the ceiling space. Indoor spaces include, but are not limited to, bathrooms, toilets or kitchens, etc. Above-mentioned indoor space is comparatively narrow and small usually, and the furred ceiling board separates indoor space for furred ceiling space and living space, and the user can wash one's face and rinse one's mouth in living space daily activity. In this way, the ceiling space may be used to mount hosts and other structural members.

The specific structure of the air conditioner is not limited, and in an exemplary embodiment, the main unit includes a first fan, a second fan, a first heat exchanger and a second heat exchanger, the casing is formed with an indoor air inlet, an outdoor air outlet, an indoor air duct and an outdoor air duct, the indoor air inlet and the indoor air outlet are both communicated with the indoor air duct, the outdoor air inlet and the outdoor air outlet are both communicated with the outdoor air duct, the first heat exchanger and the first fan are both located in the indoor air duct, and the second heat exchanger and the second fan are both located in the outdoor air duct. That is to say, indoor wind channel and outdoor wind channel mutually independent, indoor wind channel and outdoor wind channel not only are used for holding first heat exchanger, first fan, second heat exchanger and second fan isotructure, still play the effect in wind channel.

In a refrigerating or heating mode, the first fan drives airflow to enter the indoor air duct from the indoor through the indoor air inlet, and the airflow is blown back to the indoor through the indoor air outlet after heat exchange of the first heat exchanger so as to form an internal circulation air path. Meanwhile, the second fan drives airflow to enter the outdoor air channel from the outdoor through the outdoor air inlet, and the airflow is discharged to the outdoor through the outdoor air outlet after being subjected to heat exchange by the second heat exchanger so as to form an external circulation air path. The heat exchange between the indoor airflow and the outdoor airflow is realized through the first heat exchanger and the second heat exchanger, so that the heating or cooling of the indoor airflow is realized, and the purpose of refrigeration or heating is achieved.

The air conditioner has a compact structure, can save installation space, and can adjust the temperature in the living space by guiding the airflow at the indoor air outlet to the living space through the first air deflector 220 and the second air deflector 320. The user can adjust the first air deflector 220 and the second air deflector 320 to guide air around the indoor air outlet 100a in a large range according to the requirement, and the user experience is good.

In one embodiment, the air conditioner comprises a compressor and a throttling device, the compressor, the throttling device, the first heat exchanger and the second heat exchanger jointly form a heat exchange system, and a refrigerant can flow in the heat exchange system. When the main machine is in a refrigerating or heating mode and the first heat exchanger and the second heat exchanger work, one of the first heat exchanger and the second heat exchanger is an evaporator, the other one of the first heat exchanger and the second heat exchanger is a condenser, a refrigerant can be converted from gaseous heat release into liquid in the condenser, and heat absorption is carried out in the evaporator and is converted from liquid to gaseous. The refrigerant is compressed into high-pressure high-temperature gas by the compressor after heat exchange through the evaporator, the high-pressure high-temperature gas is conveyed to the condenser through the pipeline to release heat and become medium-temperature high-pressure liquid, the medium-temperature high-pressure liquid is conveyed to the throttling device through the pipeline, the throttling device performs throttling and pressure reduction to form low-temperature low-pressure gas-liquid mixture, and the low-temperature low-pressure gas-liquid mixture enters the evaporator again for heat exchange. The heat of the indoor airflow is transferred to the outdoor airflow through the refrigerant by continuous circulating heat exchange, so that the temperature of the indoor airflow is raised or lowered.

In one embodiment, the host may be disposed within the ceiling space. The host computer is hidden in the furred ceiling space, avoids the user direct observation host computer, has improved the pleasing to the eye degree of vision.

In one embodiment, referring to fig. 6, a panel 100 is supported on a keel 1 of the ceiling space. The keel 1 is used to mount structural members such as ceiling tiles, panels 100 and/or host computers. The plurality of keels 1 are fixed to a wall of an indoor space in a criss-cross arrangement. The panel 100 is supported on the keel 1 to ensure the stable assembly of the air guiding device.

In an embodiment, referring to fig. 1, fig. 2, fig. 4, fig. 7 and fig. 8, the first air guiding plate 220 can rotate clockwise and/or counterclockwise along the first swing central line thereof, wherein a maximum swing angle of the first air guiding plate 220 rotating along any one direction of the first swing central line C is between 50 ° and 80 °. In other words, the maximum angle α of the first air deflector 220 deviating from the first swing center line C in the clockwise and/or counterclockwise direction is between 50 ° and 80 °, exemplarily, the maximum angle α of the first air deflector 220 deviating from the first swing center line C in the clockwise direction is between 50 ° and 80 °, and/or the maximum angle α of the first air deflector 220 deviating from the first swing center line C in the counterclockwise direction is between 50 ° and 80 °. For example, the maximum swing angle of the first wind deflector 220 rotating along any direction of the first swing center line is 50 °, 60 °, 65 °, 70 °, or 80 °, and so on. Since indoor spaces such as bathrooms, kitchens and toilets are generally formed in a substantially rectangular or square shape, the maximum swing angle of the first air guide plate 220 is large so as to guide air flow to each corner of the indoor space.

In an embodiment, referring to fig. 1, fig. 2, fig. 4, fig. 7, and fig. 8, the second air guiding plate 320 can rotate clockwise and/or counterclockwise along the second swing central line thereof, wherein a maximum swing angle of the second air guiding plate 320 rotating along any one direction of the second swing central line is between 50 ° and 80 °. In other words, the maximum angle of the second air deflector 320 deviating from the second swing center line in the clockwise and/or counterclockwise direction is between 50 ° and 80 °, exemplarily, the maximum angle of the second air deflector 320 deviating from the second swing center line in the clockwise direction is between 50 ° and 80 °, and/or the maximum angle of the second air deflector 320 deviating from the second swing center line in the counterclockwise direction is between 50 ° and 80 °. For example, the maximum swing angle of the second air deflector 320 rotating along any one direction of the second swing center line is 50 °, 60 °, 65 °, 70 °, or 80 °, and so on. The maximum swing angle of the second air deflection plate 320 is large so as to guide the air flow to each corner of the indoor space.

In one embodiment, referring to fig. 1, 7 and 8, the panel 100 is formed with an indoor air inlet 100 b. The indoor air inlet 100b is communicated with an indoor air inlet. The indoor air inlet 100b is used for guiding the air flow in the living space to the indoor air inlet. Like this, avoid opening a hole in addition on the furred ceiling board, practice thrift the installation step, improve assembly efficiency.

In one embodiment, referring to fig. 1 and 3, the air guiding device includes an air inlet grille 400, and the air inlet grille 400 covers the indoor air inlet 100 b. The intake grill 400 has a plurality of vents having a small size, so that a user or an external object is prevented from entering the indoor air inlet 100b, thereby having good safety.

In an embodiment, referring to fig. 6, the air guiding device includes an air outlet pipe connector 800, and the air outlet pipe connector 800 is located at a side of the panel 100 close to the host and covers the periphery of the indoor air outlet 100 a. For example, the outlet duct joint 800 is located within a ceiling space. Thus, the pipe connection is convenient. For example, the air conditioner includes an indoor air outlet pipe, and two ends of the indoor air outlet pipe are respectively connected to the indoor air outlet and the air outlet pipe joint 800. Therefore, the indoor air outlet pipe is communicated with the indoor air outlet 100a and the indoor air outlet, airflow from the indoor air outlet is guided to the indoor air outlet 100a through the indoor air outlet pipe, and both air quantity loss and wind resistance are small.

In one embodiment, referring to fig. 6, the size of the indoor air outlet 100a may be larger, so that wind loss may be reduced to adjust the temperature of the indoor space more quickly.

In one embodiment, referring to fig. 1 and 6, the air guiding device includes an air inlet pipe joint 900, and the air inlet pipe joint 900 is located at a side of the panel 100 close to the host and covers the periphery of the indoor air inlet 100 b. For example, the intake air coupler 900 is located within a ceiling space. Thus, the pipe connection is convenient. For example, the air conditioner includes an indoor air inlet duct, and both ends of the indoor air inlet duct are connected to an indoor air inlet and an air inlet duct joint 900, respectively. Therefore, the indoor air inlet pipe is communicated with the indoor air inlet 100b and the indoor air inlet, the air flow from the indoor air inlet 100b is guided to the indoor air inlet through the indoor air inlet pipe, and both the air volume loss and the air resistance are small.

In an embodiment, referring to fig. 2 to 4, the first air guiding plate 220 includes a plate body 221 and a connecting arm 222, the connecting arm 222 is disposed on a surface of the plate body 221 close to the first link 210, the connecting arm 222 has a first rotating portion 2221 and a second rotating portion 2222, the first rotating portion 2221 is rotatably connected to the panel 100, the second rotating portion 2222 is rotatably connected to the first link 210, and the first rotating portion 2221 is located between the second rotating portion 2222 and the plate body 221. The first link 210 moves to rotate the plate body 221, the link arm 222 and the first rotating portion 2221 together around the rotation center line of the second rotating portion 2222. Thus, under the condition of small-amplitude movement of the first link 210, the rotation angle of the first air deflector 220 can be adjusted at a larger angle.

In one embodiment, referring to fig. 2 to 4, the first link 210 includes a main rod 211 and a plurality of struts 212, the main rod 211 extends along a first direction, and the plurality of struts 212 are arranged on the main rod 211 at intervals along the first direction. The connecting arms 222 and the struts 212 are arranged in one-to-one correspondence. That is, the first connecting portion is rotatably connected to the rod 212. In this way, the first link 210 and the first air deflection plate 220 are conveniently disposed.

In one embodiment, referring to fig. 2 to 4, the connecting arm 222 is located in a middle area of the plate 221 in the width direction. In this way, the plate 221 is better driven to swing.

In an embodiment, referring to fig. 1 to 4, two first connecting rods 210 are provided, and the two first connecting rods 210 are respectively disposed at two ends of the first air guiding plate 220. Thus, the first link 210 drives the first air guiding plate 220 to swing steadily.

In an embodiment, referring to fig. 2 to 4, the first air guiding plate 220 is located below the second air guiding plate 320, and the plurality of plate bodies 221 can jointly seal the indoor air outlet 100a under a state that the swing angle α of the first air guiding plate 220 is 0 °. Thus, external objects are prevented from entering the indoor air outlet 100a, so that not only can the safety be improved, but also the aesthetic degree can be improved.

In one embodiment, one of the first rotating portion 2221 and the panel 100 is formed with a protrusion, and the other of the first rotating portion 2221 and the panel 100 is formed with a mounting hole corresponding to the protrusion, and the protrusion is rotatably received in the mounting hole. For example, the first rotating part 2221 may be formed with a protrusion, and the panel 100 may be formed with a mounting hole. For another example, the panel 100 may be formed with a protrusion, and the first rotating portion 2221 may be formed with a mounting hole. In this way, the connecting arm 222 and the panel 100 are rotatably connected by the cooperation of the protrusion and the mounting hole.

In one embodiment, the first air guiding plate 220 has first rotating portions 2221 at two ends in the length direction. Thus, the first air deflection plate 220 can be stably assembled to the panel 100.

In one embodiment, referring to fig. 3 to 5, one of the first link 210 and the second rotating portion 2222 is formed with an open slot 210a, and the other of the first link 210 and the second rotating portion 2222 is formed with a rotating shaft which can restorably open the opening of the open slot 210a to enter or exit the open slot 210 a. For example, the second rotating part 2222 may be formed with an opening groove 210a, and the first link 210 may be formed with a rotating shaft. For another example, the second rotating portion 2222 may be formed with a rotating shaft, and the first link 210 may be formed with an open groove 210 a. In this way, the connecting arm 222 and the first link 210 are rotatably connected by the engagement of the opening groove 210a and the rotating shaft. When it is necessary to assemble the first link 210 and the second rotating portion 2222, the rotating shaft presses the inner wall surface of the opening of the open groove 210a to open the opening of the open groove 210a, and after the rotating shaft enters the open groove 210a, the opening of the open groove 210a restores to the original shape to restrict the rotation shaft from coming off. When the first link 210 and the second rotating portion 2222 need to be detached, the rotating shaft presses the inner wall surface of the opening of the open slot 210a to open the opening of the open slot 210a, and after the rotating shaft is pulled out of the open slot 210a, the opening of the open slot 210a restores to the original shape. Thus, the first link 210 and the second rotating portion 2222 are easily and quickly attached and detached.

In one embodiment, referring to fig. 5, the opening groove 210a has an accommodating section and an elastic opening section communicating with the accommodating section, the maximum width of the elastic opening section is smaller than the minimum width of the accommodating section, and the minimum dimension of the rotation shaft is larger than the maximum width of the elastic opening section. In this way, the shaft can restorably expand the resilient opening section into and out of the receiving section.

In an embodiment, referring to fig. 1 to 3, 7 and 8, the air guiding device includes a reinforcing rib 500 located between two ends of the first air guiding plate 220, two ends of the reinforcing rib 500 are respectively connected to two sidewalls of the indoor air outlet 100a along the first direction, and the first air guiding plate 220 is rotatably connected to the reinforcing rib 500. For example, the reinforcing rib 500 is disposed in the first direction and is located at a middle region of the first air deflection plate 220. Thus, the reinforcing rib 500 is used to further support the first air guiding plate 220, so as to improve the structural strength of the first air guiding plate 220.

In an embodiment, referring to fig. 1, fig. 2, fig. 7 and fig. 8, the air guiding device includes a first driving member 600, the first driving member 600 is connected to the first rotating portion 2221 of any one of the first air guiding plates 220, and the first driving member 600 is configured to drive the first air guiding plate 220 to rotate and drive the other first air guiding plates 220 to synchronously swing through the first connecting rod 210. That is to say, the first driving member 600 drives the first air guiding plate 220 connected thereto to rotate, so as to drive the other first air guiding plates 220 to swing synchronously through the first connecting rod 210. Therefore, the rotation angle and the rotation direction of any one first air deflector 220 can be controlled conveniently, the control mode is simple, and the implementation is easy.

The specific structure of the first driving member 600 is not limited, and the first driving member 600 includes, but is not limited to, a motor.

In an embodiment, referring to fig. 1, fig. 2, fig. 7 and fig. 8, the air guiding device includes a second driving member 700, and the second driving member 700 drives any one of the second air guiding plates 320 to rotate and drives the other second air guiding plates 320 to swing synchronously through the second connecting rod 310. That is to say, the second driving member 700 is connected to any one of the second air deflectors 320, and the second driving member 700 drives the second air deflector 320 connected thereto to rotate, so as to drive the other second air deflectors 320 to swing synchronously through the second connecting rod 310. Therefore, the rotation angle and the rotation direction of any one second air deflector 320 can be controlled conveniently, and the control mode is simple.

The specific structure of the second driving member 700 is not limited, and the second driving member 700 includes, but is not limited to, a motor.

In an embodiment, referring to fig. 1 to 4, 7 and 8, the second air guiding plate 320 has a third rotating portion 321 and a fourth rotating portion 322, the third rotating portion 321 is rotatably connected to the panel 100, the fourth rotating portion 322 is rotatably connected to the second link 310, and the third rotating portion 321 is located on a side of the fourth rotating portion 322 close to the first air guiding plate 220. For example, the third rotating portion 321 is positioned above the fourth rotating portion 322. In this way, the second air deflector 320, the second link 310, the first link 210 and the first air deflector 220 are prevented from interfering with each other.

In an embodiment, referring to fig. 1, both ends of the second air guiding plate 320 in the length direction are provided with third rotating portions 321. In this way, the second air deflection plate 320 can be stably assembled to the panel 100.

In an embodiment, one of the third rotating portion 321 and the panel 100 is formed with a protruding pillar, and the other of the third rotating portion 321 and the panel 100 is formed with a through hole, and the protruding pillar is rotatably disposed in the through hole, so that the second air guiding plate 320 is rotatably connected with the panel 100.

In one embodiment, the fourth rotating portion 322 is formed with a boss, the second link 310 is formed with a transferring hole, and the boss is rotatably disposed in the transferring hole, so that the fourth rotating portion 322 is rotatably connected with the second link 310.

The various embodiments/implementations provided herein may be combined with each other without contradiction.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (12)

1. An air guide device, comprising:

a panel formed with an indoor air outlet;

the first air guide assembly is positioned at the indoor air outlet and comprises a first connecting rod and a plurality of first air guide plates, the first connecting rod is arranged along a first direction, the plurality of first air guide plates are arranged on the first connecting rod at intervals along the first direction, and the first connecting rod drives the first air guide plates to synchronously swing;

the second air guide assembly is positioned at the indoor air outlet and comprises a second connecting rod and a plurality of second air guide plates, the second connecting rod is arranged along a second direction, the second air guide plates are arranged on the second connecting rod at intervals along the second direction, the second connecting rod drives the second air guide plates to synchronously swing, the second air guide plates and the first air guide plates are arranged at intervals along the vertical direction, and the first direction, the second direction and the vertical direction are perpendicular to each other.

2. The air guide device according to claim 1, wherein the air guide device is configured to be mounted to a ceiling space, a ceiling plate of the ceiling space is formed with an avoidance area, and the panel covers the avoidance area.

3. The air guiding device as claimed in claim 1, wherein the first air deflector can rotate clockwise and/or counterclockwise along a first swing center line thereof, and a maximum swing angle of the first air deflector rotating in any direction of the first swing center line is between 50 ° and 80 °; and/or the presence of a gas in the gas,

the second air deflector can rotate clockwise and/or anticlockwise along a second swinging central line of the second air deflector, wherein the maximum swinging angle of the second air deflector rotating along any direction of the second swinging central line is between 50 and 80 degrees.

4. The air guide device according to claim 1, wherein the panel is formed with an indoor air inlet, and the air guide device includes an air intake grill that covers the indoor air inlet.

5. The air guiding device as claimed in any one of claims 1 to 4, wherein the first air deflector comprises a plate body and a connecting arm, the connecting arm is disposed on a surface of the plate body close to the first connecting rod, the connecting arm has a first rotating portion and a second rotating portion, the first rotating portion is rotatably connected to the panel, the second rotating portion is rotatably connected to the first connecting rod, and the first rotating portion is located between the second rotating portion and the plate body.

6. The air guiding device as claimed in claim 5, wherein the first air deflector is located below the second air deflector, and the plurality of plate bodies can jointly seal the indoor air outlet in a state where a swing angle of the first air deflector is 0 °.

7. The air guiding device as claimed in claim 5, wherein one of the first link and the second rotating portion is formed with an open slot, and the other of the first link and the second rotating portion is formed with a rotating shaft which recoverably expands an opening of the open slot to enter or exit the open slot.

8. The air guiding device as claimed in claim 5, wherein the air guiding device includes a first driving member, the first driving member is connected to the first rotating portion of any one of the first air guiding plates, and the first driving member is configured to drive the first air guiding plate to rotate and drive the other first air guiding plates to synchronously swing through the first connecting rod.

9. The air guiding device as claimed in any one of claims 1 to 4, wherein the air guiding device includes a reinforcing rib located between two ends of the first air guiding plate, two ends of the reinforcing rib are respectively connected to two side walls of the indoor air outlet along the first direction, and the first air guiding plate is rotatably connected to the reinforcing rib.

10. The air guiding device as claimed in any one of claims 1 to 4, wherein the air guiding device includes a second driving member, and the second driving member drives any one of the second air guiding plates to rotate and drives the other second air guiding plates to synchronously swing through the second connecting rod.

11. The air guiding device as claimed in any one of claims 1 to 4, wherein the second air deflector has a third rotating portion and a fourth rotating portion, the third rotating portion is rotatably connected to the panel, the fourth rotating portion is rotatably connected to the second link, and the third rotating portion is located on a side of the fourth rotating portion close to the first air deflector.

12. An air conditioner, comprising:

the air guide device according to any one of claims 1 to 11;

the host computer, the host computer includes the casing, the casing is formed with indoor air outlet, indoor air outlet with indoor gas outlet intercommunication.

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