CN211926072U - Top air outlet structure, cabinet air conditioner and air conditioning system - Google Patents

Abstract

The utility model relates to a top air-out structure, a cabinet air conditioner and an air conditioning system, which belong to the technical field of air conditioners, wherein the top air-out structure comprises a pipe body, two ends of the pipe body are arranged one above the other, and a pipe orifice at the top end of the pipe body is an air outlet; the air outlet structure comprises a first plate and a second plate, wherein the first plate and the second plate are connected together to form a folded plate structure, the included angle between the first plate and the second plate is alpha, alpha is more than or equal to 150 degrees and less than 180 degrees, the folded plate structure is rotatably arranged at the air outlet, and the inner angle of the folded plate structure faces the inside of the pipe body; the driving mechanism is installed on the pipe body, the power output end of the driving mechanism is connected with the folded plate structure to drive the folded plate structure to rotate at the air outlet to open or close the air outlet, when the folded plate structure of the top air outlet structure guides air, energy loss in the air reversing process is smaller, the cabinet machine adopts the top air outlet mechanism, the air conditioning system adopts the cabinet machine, and therefore the cabinet machine and the air conditioning system both have the advantage of being more energy-saving.

Description

Top air outlet structure, cabinet air conditioner and air conditioning system

Technical Field

The utility model belongs to the technical field of the air conditioner, in particular to top air-out structure, cabinet-type air conditioner and air conditioning system.

Background

The cabinet air-out machine at the top can realize distributed refrigeration and blanket heating, has better comfort and wider development prospect. Present top air-out cabinet-type air conditioner, the aviation baffle of the installation of its air outlet is the flat structure, set up the wind channel in the cabinet-type air conditioner casing, the exit in wind channel is installed to the aviation baffle, during the use, wait in the wind channel blows on the aviation baffle, blow off after the aviation baffle direction afterwards, the aviation baffle mainly plays the effect that changes the wind direction, however, the aviation baffle of flat structure among the prior art is when leading to wind, the energy that can make the wind have descends a lot, under the prerequisite that obtains suitable wind speed, the energy consumption of fan can be higher.

SUMMERY OF THE UTILITY MODEL

The utility model provides a top air-out structure for the wind energy that blows out behind the aviation baffle direction that exists when solving current top air-out cabinet-type air-out machine top air-out descends a lot of technical problem.

The utility model discloses a following technical scheme realizes: the utility model provides a top air-out structure, includes:

the pipe body is arranged at the upper part and the lower part of two ends of the pipe body, and a pipe orifice at the top end of the pipe body is an air outlet;

the air outlet structure comprises a first plate and a second plate, wherein the first plate and the second plate are connected together to form a folded plate structure, the included angle between the first plate and the second plate is alpha, the included angle is larger than or equal to 150 degrees and smaller than 180 degrees, the folded plate structure is rotatably arranged at the air outlet, and the inner angle of the folded plate structure faces the inside of the pipe body;

and the driving mechanism is arranged on the pipe body, and the power output end of the driving mechanism is connected with the folded plate structure so as to drive the folded plate structure to rotate at the air outlet to open or close the air outlet.

Further, for better realization the utility model discloses, the air outlet is to oblique top, and contained angle between the axis of air outlet and the horizontal plane is beta, and beta is not less than 20 and is not less than 50.

Furthermore, in order to better realize the utility model, when the driving mechanism drives the folded plate structure to rotate by an angle of 0 to 40 degrees, the folded plate structure opens the air outlet and the air outlet direction of the air guided by the folded plate structure is inclined downwards;

when the driving mechanism drives the flap structure to rotate by 40 degrees, the flap structure opens the air outlet, and the air outlet direction of the air guided by the flap structure is parallel to the horizontal plane;

when the driving mechanism drives the flap to rotate by an angle of 40-70 degrees, the flap structure opens the air outlet, and the air outlet direction of the air guided by the flap structure is obliquely upward.

Further, in order to realize better the utility model discloses, actuating mechanism includes rotary power source, connecting rod and first commentaries on classics piece, first commentaries on classics piece is Z type pole, Z type pole includes primary shaft, secondary shaft and third axle, the secondary shaft connect in the primary shaft with between the third axle, the primary shaft rotates the cross-under on the pipe wall of air outlet department, the one end of folded plate structure with the primary shaft linkage is connected, the third axle rotates to be pegged graft the one end of connecting rod, rotary power source's power take off end with the other end of connecting rod is connected with the drive the connecting rod swing, the other end of folded plate structure also rotate connect in on the pipe wall of air outlet department.

Further, in order to better realize the utility model discloses, the folded plate structure still includes third board and fourth board, the third board with the fourth board is installed respectively the both ends of folded plate structure, the primary shaft is connected on the third board, the fourth board rotate connect in on the pipe wall of air outlet department.

Further, for realize better the utility model discloses, the folded plate structure still includes fifth board and sixth board, air outlet department is equipped with the roof beam body, the folded plate structure spanes the roof beam body just the fifth board with the sixth board branch is located the roof beam body both ends still include the pin, the fifth board the sixth board with just right position is equipped with the round hole on the roof beam body, the pin then rotates the cartridge and is in the round hole of fifth board, the round hole of the roof beam body and the round hole of sixth board.

Further, for better realizing the utility model discloses, the folded plate structure first rotation piece and pin constitute air deflection assembly, air deflection assembly's quantity is a plurality of, and is a plurality of air deflection assembly equipartition is in air outlet department.

Further, in order to realize better the utility model discloses, rotary power source is the motor, still includes that the second rotates the piece, the second rotates the Z type pole that the piece constitutes for fourth axis, fifth axis and sixth axis, fifth connect in the fourth axis with between the sixth axis, the pivot of motor with the fourth axis linkage is connected, the sixth axis rotates and pegs graft the other end of connecting rod.

The utility model also provides a cabinet-type air conditioner, including shell, wind channel and above-mentioned top air-out structure, the wind channel is located in the shell, the body of top air-out structure is installed on the shell and be located the top of shell, the bottom of body be air intake and this air intake with the wind channel intercommunication.

The utility model also provides an air conditioning system, including above-mentioned cabinet-type air conditioner.

The utility model discloses compare in prior art and have following beneficial effect:

(1) the utility model provides a top air outlet structure, which comprises a pipe body, a driving mechanism and a folded plate structure consisting of a first plate and a second plate, wherein two ends of the pipe body are arranged one above the other, the top end of the pipe body is an air outlet, the folded plate structure is arranged at the air outlet, the inner angle of the folded plate structure faces the inside of the pipe body, the variable driving structure is arranged on the pipe body, the power output end of the driving mechanism is connected with the folded plate structure, the folded plate structure is driven to rotate at the air outlet to open or close the air outlet, by adopting the structure, when the air in the pipe body is blown to the air outlet, the air is beaten on the folded plate structure, when the driving mechanism drives the folded plate structure to open, the air can be blown out through the direction of the folded plate structure, and because the folded plate structure has the inner angle, the air can be guided and turned more, so that the energy loss of the wind during the direction change is smaller.

(2) The utility model provides a cabinet-type air conditioner, which comprises an outer shell, wind channel and above-mentioned top air-out structure, the wind channel is located in the shell, the body of top air-out structure is installed on the shell and is located the shell top, the bottom of body is air intake and this air intake and above-mentioned wind channel intercommunication, thus, wind in the wind channel will get into the body and blow to above-mentioned air outlet from the air intake, then blow off after the folded plate structure of top air-out structure leads, because above-mentioned top air-out structure is when leading to wind best effort and diversion, the energy loss of wind is lower, consequently, this cabinet-type air conditioner has more energy-conserving advantage.

(3) The utility model provides an air conditioning system adopts above-mentioned cabinet-type air conditioner, and consequently this air conditioning system is more energy-conserving.

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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a top air outlet structure provided in an embodiment of the present invention;

FIG. 2 is a side view of the structure shown in FIG. 1;

FIG. 3 is an exploded view of the structure shown in FIG. 2;

fig. 4 is an exploded view of a structure formed when the folded plate structure is installed at the air outlet of the tube body according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of the embodiment of the present invention when the driving mechanism drives the flap structure to rotate by an angle equal to 25 °;

fig. 6 is a schematic structural view of the embodiment of the present invention when the driving mechanism drives the flap structure to rotate by an angle equal to 70 °;

fig. 7 is a schematic structural view of a pipe body according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a folded plate structure in an embodiment of the present invention;

fig. 9 is a side view of a flap structure in an embodiment of the invention;

fig. 10 is a schematic structural diagram of a track in an embodiment of the present invention.

In the figure:

1-a pipe body;

2-a folded plate structure; 21-a first plate; 22-a second plate; 23-a third plate; 24-a fourth plate; 25-a fifth plate; 26-a sixth plate;

3-an electric motor;

4-a connecting rod;

5-a first rotating member; 51-a first axis; 52-a second axis; 53-third axis;

6-beam body;

7-pins;

8-a second rotating member; 81-fourth axis; 82-fifth axis; 83-sixth axis;

9-a housing;

10-an air duct;

11-a decorative sleeve;

12-decorative cover.

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 described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

the embodiment provides a top air-out structure, including body 1, first board 21, second board 22 and actuating mechanism.

Above-mentioned body 1 is the structure that hard material made to the both ends of this body 1 set up one on top of the other, and the mouth of pipe on 1 top of this body is the air outlet moreover, is equipped with the fastener that is used for the installation on 1 outer wall of this body.

The first plate 21 and the second plate 22 are both flat plates or arc plates with a slight radian, the first plate 21 and the second plate 22 are connected together to form a folded plate structure 2, specifically, the first plate 21 and the second plate 22 can be integrally formed or welded, the folded plate structure 2 is rotatably installed at the air outlet, and an inner angle of the folded plate structure 2 faces the inside of the tube body 1. The wind entering the tube body 1 blows to the air outlet at the upper end of the tube body 1 and then acts on the folded plate structure 2. The folded plate structure 2 can block the air outlet of the tube body 1.

The driving mechanism is also installed on the tube body 1, and a power output end of the driving mechanism is connected with the folded plate structure 2, and the driving mechanism can drive the folded plate structure 2 to rotate at a tube opening of the tube body 1, so that the folded plate structure 2 opens or closes the air outlet of the tube body 1.

When the folded plate structure 2 is driven by the driving mechanism to open the air outlet of the tube body 1, the wind is guided by the folded plate structure 2 to change, that is, the wind direction of the wind will change, optimally, the included angle between the first plate 21 and the second plate 22 of the folded plate structure 2 in the embodiment is α, α is more than or equal to 150 degrees and less than 180 degrees, and because the inner angle of the folded plate structure 2 faces the inner side of the tube body 1, when the wind blows on the folded plate structure 2, the wind will be guided by the wall bodies on both sides of the inner angle of the folded plate structure 2 and then blows out. Through the structure, when wind is blown out after the flow guiding and the reversing of the folded plate structure 2 of the top air outlet structure provided by the embodiment, the energy loss of the wind is lower.

In a preferred embodiment of the present invention, in the present embodiment, the outlet of the tube body 1 faces obliquely upward, and an included angle between a central axis of the outlet and a horizontal plane is defined as β, β being equal to or larger than 20 ° and equal to or smaller than 50 °. Specifically, this body 1 includes first straight tube and second straight tube, the vertical setting of first straight tube, the top of first straight tube is located to the second straight tube, and this second straight tube is for first straight tube slope, at this moment, the one end that first straight tube was kept away from to above-mentioned second straight tube is just the air outlet, through the aforesaid mode, make the air outlet tilt up of the body 1 that this embodiment provided, and make the contained angle between the axis of second straight tube and the axis of first straight tube be 40 to 70, thereby realize that the contained angle between the axis of above-mentioned air outlet and the horizontal plane is 20 to 50 mesh.

By adopting the structure, because the included angle between the central axis of the air outlet and the horizontal plane is beta, when the wind reaches the air outlet, the included angle between the wind direction and the horizontal plane is beta, and then the wind is guided by the folded plate structure 2 to change the wind direction, so that the energy loss of the wind hitting the folded plate structure 2 when turning is smaller.

In this embodiment, as a best mode of the present embodiment, when the driving mechanism drives the flap structure 2 to rotate to open the air outlet, the air is guided by the flap structure 2 to be reversed and blown out. When the driving mechanism drives the flap structure 2 to rotate by an angle between 0 and 40 degrees, the direction in which the wind guided by the flap structure 2 is blown out is directed obliquely downward; when the driving mechanism drives the folded plate structure 2 to rotate by 40 degrees, the air outlet direction of the air blown out by being guided by the folded plate structure 2 is parallel to the horizontal plane; when the driving mechanism drives the flap structure 2 to rotate by 40 ° to 70 °, the wind outlet direction of the wind guided by the flap structure 2 is directed obliquely upward. Like this, through actuating mechanism's drive, can be so that the air-out direction of the top air-out structure that this embodiment provided can be followed the slant and transferred to the slant direction of going up to satisfy user's different demands.

Optimally, when the driving mechanism drives the folded plate structure 2 to rotate by 25 degrees, the wind outlet direction of the wind guided by the folded plate structure 2 is parallel to the surface of the pipe orifice of the second straight pipe; when the driving mechanism drives the folded plate structure 2 to rotate by 79 degrees, the air outlet direction of the air guided by the folded plate structure 2 is perpendicular to the surface of the pipe orifice of the second straight pipe, and at the moment, the folded plate structure 2 reaches the maximum rotation angle.

Example 2:

as a specific implementation manner of the embodiment, the driving mechanism in this embodiment includes a rotating power source, a connecting rod 4 and a first rotating member 5, the rotating power source can output rotating power, the first rotating member 5 is a Z-shaped rod, which includes a first shaft 51, a second shaft 52 and a third shaft 53, wherein the second shaft 52 is connected between the first shaft 51 and the third shaft 53, the first shaft 51 and the third shaft 53 are circular shafts, the first shaft 51 is rotatably connected to the wall of the air outlet of the tube body 1, and both ends of the first shaft 51 extend out of the wall of the tube body 1, the flap structure 2 is located in the air outlet of the tube body 1, and the flap structure 2 is connected to and interlocked with one end of the first shaft 51 extending into the air outlet, specifically, one end of the first shaft 51 extending into the air outlet is provided with a non-circular slot, an end of the flap structure 2 is provided with a protruding block adapted to the non-circular slot, when the mounting structure is mounted, the convex block is clamped in the noncircular clamping groove.

The third shaft 53 is rotatably inserted into one end of the connecting rod 4, and the other end of the connecting rod 4 is connected to the power output end of the rotary power source, so that the connecting rod 4 can swing under the driving of the rotary power source, and when the connecting rod 4 swings, the third shaft 53 can be driven to rotate around the first shaft 51, and further the first shaft 51 is driven to rotate, that is, the flap structure 2 is driven to rotate.

By adopting the above structure, the connecting rod 4 and the first rotating member 5 in this embodiment form a crankshaft connecting rod mechanism, and the crankshaft connecting rod mechanism is used for transmitting the rotation output by the rotating power source to the folded plate structure 2.

As a specific embodiment of the present embodiment, the flap structure 2 further includes a third plate 23 and a fourth plate 24, the third plate 23 and the fourth plate 24 are both flat plate structures, and the third plate 23 and the fourth plate 24 are respectively installed at both ends of the flap structure 2, specifically, the third plate 23 and the fourth plate 24 are both connected to the flap structure 2 by welding, and the third plate 23 and the fourth plate 24 are both perpendicular to the first plate 21 and the second plate 22. The protrusion is disposed on a side of the third plate 23 close to the tube wall of the tube body 1, and when the protrusion is connected to the non-circular slot, the third plate 23 can be connected to the first shaft 51. The fourth plate 24 is rotatably connected to the pipe wall at the air outlet. By adopting the structure, the folded plate structure 2 can rotate more smoothly at the air outlet.

In a preferred embodiment of the present invention, the flap structure 2 further comprises a fifth panel 25 and a sixth panel 26, the fifth panel 25 and the sixth panel 26 are disposed at an intermediate position of the flap structure 2, and the fifth plate 25 and the sixth plate 26 are both parallel to the third plate 23, a beam body 6 is arranged at the air outlet, the beam 6 is perpendicular to the first and second panels 21, 22, i.e. the flap structure 2 spans the beam 6, so that the fifth plate 25 and the sixth plate 26 are respectively placed at both ends of the beam body 6, and further comprise the pins 7, round holes are arranged at the positions opposite to the fifth plate 25, the sixth plate 26 and the beam body 6, the pin 7 is rotatably penetrated in the round hole of the fifth plate 25, the round hole of the sixth plate 26 and the round hole of the beam body 6, the purpose of hinging the flap structure 2 to the beam 6 by means of the fifth panel 25 and the sixth panel 26 is thereby achieved. Through this kind of structure, the roof beam 6 can support the middle section of first board 21 and second board 22, reduces folded plate structure 2 internal stress, prolongs the life of folded plate structure 2.

Example 3:

in this embodiment, as a more preferable implementation manner of the above embodiment, the flap structure 2, the first rotating member 5 and the pin 7 are defined as an air deflector assembly, the number of the air deflector assemblies in the top air outlet structure provided in this embodiment is multiple, and the multiple air deflector assemblies are uniformly distributed at the air outlet. The rotating power source can drive the flap structures 2 to synchronously rotate at the air outlet through the connecting rod 4.

Adopt this kind of structure, the air-out coverage of the top air-out structure that this embodiment provided is wider, and the air-out effect is better.

Example 4:

in this embodiment, as a best mode of the above embodiment, in this embodiment, the rotary power source is an electric motor 3, and a rotating shaft of the electric motor 3 is a power output end of the rotary power source.

The motor further comprises a second rotating member 8, the second rotating member 8 is a Z-shaped rod formed by a fourth shaft 81, a fifth shaft 82 and a sixth shaft 83, the fifth shaft 82 is connected between the fourth shaft 81 and the sixth shaft 83, a rotating shaft of the motor 3 is in linkage connection with the fourth shaft 81, specifically, a clamping groove is arranged at one end part of the fourth shaft 81 far away from the fifth shaft 82, the rotating shaft of the motor 3 is clamped in the clamping groove, so that linkage connection between the fourth shaft 81 and the rotating shaft of the motor 3 is realized, when the motor 3 operates, the fourth shaft 81 is driven to rotate, so that the sixth shaft 83 is driven by the fifth shaft 82 to rotate around the fourth shaft 81, the sixth shaft 83 is rotatably inserted at the other end of the connecting rod 4, and when the sixth shaft 83 rotates around the fourth shaft 81, the connecting rod 4 can be driven to swing.

Adopt above-mentioned structure, set up rotary power source into motor 3, the user can conveniently open and close to the realization is opened or is closed the air outlet, optimally, this motor 3 can be fast and frequently just reverse, so that realize the top air-out structure that this embodiment provided sweep the wind function from top to bottom.

The outer wall of the pipe orifice at the top of the pipe body 1 is provided with a mounting plate, and the motor 3 is mounted on the mounting plate.

Example 5:

as a more preferable embodiment of the above embodiment, the top air outlet structure provided by this embodiment further includes a decoration cover 11 and a decoration cover 12, the decoration cover 11 is sleeved on the periphery of the upper portion of the tube body 1, so as to make the appearance more beautiful, the decoration cover 12 is covered on the top of the decoration cover 11, and the decoration cover 12 is provided with a through hole facing the air outlet, when in use, the opening and closing of the air outlet can be realized only by using the motor 3 to drive the folded plate structure 2 to rotate, and the air outlet can be realized in an inclined downward direction or a horizontal direction or an inclined upward direction, compared with the top air outlet cabinet machine in the prior art in which the air guiding plate is used to guide the air outlet after the head cover plate is opened, the structure provided by this embodiment does not need to open the decoration cover 12 on the top, so that the air outlet is faster, and the user does not need to wait for, the user experience is stronger.

The decorative cover 11 is also wrapped around the motor 3 and the crankshaft connecting rod mechanism, thereby protecting the motor 3 and the crankshaft connecting rod mechanism.

Example 6:

this embodiment provides a cabinet-type air conditioner, and this cabinet-type air conditioner includes shell 9, wind channel 10 and above-mentioned top air-out structure, and in shell 9 was located to wind channel 10, top air-out structure passed through the fastener connection on the 1 outer wall of body and was located shell 9's top on above-mentioned shell 9, and in this embodiment, the bottom of above-mentioned body 1 was the air intake, and after top air-out structrual installation was good, above-mentioned air intake and above-mentioned wind channel 10 intercommunication.

Because the top air outlet structure guides the air and drives the air to change direction, the loss of the energy consumption of the air is less, and the cabinet air conditioner has the advantage of energy conservation.

Example 7:

the embodiment provides an air conditioning system, and this air conditioning system adopts above-mentioned cabinet-type air conditioner, and therefore this air conditioning system has more energy-conserving advantage.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a top air-out structure which characterized in that includes:

the pipe body is arranged at the upper part and the lower part of two ends of the pipe body, and a pipe orifice at the top end of the pipe body is an air outlet;

the air outlet structure comprises a first plate and a second plate, wherein the first plate and the second plate are connected together to form a folded plate structure, the included angle between the first plate and the second plate is alpha, the included angle is larger than or equal to 150 degrees and smaller than 180 degrees, the folded plate structure is rotatably arranged at the air outlet, and the inner angle of the folded plate structure faces the inside of the pipe body;

and the driving mechanism is arranged on the pipe body, and the power output end of the driving mechanism is connected with the folded plate structure so as to drive the folded plate structure to rotate at the air outlet to open or close the air outlet.

2. The top air outlet structure of claim 1, wherein: the air outlet is upward inclined, the included angle between the central axis of the air outlet and the horizontal plane is beta, and the beta is more than or equal to 20 degrees and less than or equal to 50 degrees.

3. The top air outlet structure of claim 2, wherein: when the driving mechanism drives the flap structure to rotate by an angle of 0-40 degrees, the flap structure opens the air outlet, and the air outlet direction of the air guided by the flap structure is inclined downwards;

when the driving mechanism drives the flap structure to rotate by 40 degrees, the flap structure opens the air outlet, and the air outlet direction of the air guided by the flap structure is parallel to the horizontal plane;

when the driving mechanism drives the flap to rotate by an angle of 40-70 degrees, the flap structure opens the air outlet, and the air outlet direction of the air guided by the flap structure is obliquely upward.

4. A top outlet structure according to any one of claims 1 to 3, wherein: the driving mechanism comprises a rotary power source, a connecting rod and a first rotating part, the first rotating part is a Z-shaped rod, the Z-shaped rod comprises a first shaft, a second shaft and a third shaft, the second shaft is connected between the first shaft and the third shaft, the first shaft rotates to penetrate and is connected to the pipe wall of the air outlet, one end of the folded plate structure is connected with the first shaft in a linkage mode, the third shaft rotates to be inserted into one end of the connecting rod, the power output end of the rotary power source is connected with the other end of the connecting rod to drive the connecting rod to swing, and the other end of the folded plate structure is also rotatably connected to the pipe wall of the air outlet.

5. The top air outlet structure of claim 4, wherein: the folded plate structure further comprises a third plate and a fourth plate, the third plate and the fourth plate are respectively installed at two ends of the folded plate structure, the first shaft is connected to the third plate, and the fourth plate is rotatably connected to the pipe wall at the air outlet.

6. The top air outlet structure of claim 5, wherein: the folded plate structure still includes fifth board and sixth board, air outlet department is equipped with the roof beam body, the folded plate structure spanes the roof beam body just the fifth board with the sixth board branch is located roof beam body both ends still include the pin, the fifth board the sixth board with just right position is equipped with the round hole on the roof beam body, the pin then rotates the cartridge and is in the round hole of fifth board, the round hole of the roof beam body and the round hole of sixth board.

7. The top air outlet structure of claim 6, wherein: the air deflector assembly is composed of the folded plate structure, the first rotating piece and the pins, the number of the air deflector assemblies is multiple, and the air deflector assemblies are uniformly distributed at the air outlet.

8. The top air outlet structure of claim 4, wherein: the rotary power source is an electric motor and further comprises a second rotating part, the second rotating part is a Z-shaped rod consisting of a fourth shaft, a fifth shaft and a sixth shaft, the fifth shaft is connected between the fourth shaft and the sixth shaft, a rotating shaft of the electric motor is in linkage connection with the fourth shaft, and the sixth shaft is rotatably inserted into the other end of the connecting rod.

9. A cabinet-type air conditioner, its characterized in that: the top air outlet structure comprises a shell, an air duct and the top air outlet structure as claimed in any one of claims 1 to 8, wherein the air duct is arranged in the shell, a pipe body of the top air outlet structure is installed on the shell and located above the shell, an air inlet is formed in the bottom end of the pipe body, and the air inlet is communicated with the air duct.

10. An air conditioning system characterized by: comprising a cabinet as claimed in claim 9.

Images