CN106288283A - Air conditioner air outlet component, air conditioner and control method of air conditioner air outlet component - Google Patents

Abstract

The application relates to an air conditioner air-out component, an air conditioner and a control method of the air conditioner, the air-out component comprises an air outlet barrel and a driving mechanism, the air outlet barrel can be driven by the driving mechanism to rotate, one end of the air outlet barrel is sealed, the other end of the air outlet barrel is opened, and an air outlet barrel air outlet is formed in the side wall of the air outlet barrel. The air outlet component and the air conditioner can realize different air outlet modes through the rotary air outlet barrel, can realize remote air supply, uniform large-range air supply and multiple air supply modes without wind sensation air supply, and improve the use comfort of the air conditioner.

Description

Air conditioner air outlet component, air conditioner and control method of air conditioner air outlet component

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air outlet component of an air conditioner, the air conditioner and a control method of the air conditioner.

Background

The vertical air conditioners in the market at present mainly comprise a square cabinet type air conditioner and a cylindrical cabinet type air conditioner, but the air conditioners in the two types have the defect of insufficient air supply range, air supply dead angles easily exist indoors, so that the temperature of a windy area is low, the temperature of a windless area is high, the comfortable experience of users is influenced, air is easily and directly blown on the human body, and air conditioning diseases are easily caused; the air-out mode is single, can't satisfy user's demand.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an air-conditioning outlet component, an air conditioner and a control method of the air conditioner, which can improve the air supply state.

According to the first aspect of this application, a air conditioner air-out part is provided, including play dryer and actuating mechanism, the play dryer can rotate under actuating mechanism's the drive, the one end of play dryer is sealed, and one end opening in addition be provided with out the dryer air outlet on the lateral wall of play dryer.

Preferably, the air outlet barrel air outlets are arranged in a plurality of numbers, and the air outlet barrel air outlets are sequentially arranged in the circumferential direction of the air outlet barrel.

At least two of the air outlet cylinders have different openings in the circumferential direction, and/or the air outlet cylinders have different spacing angles in the circumferential direction.

Preferably, the air outlet barrel is provided with three air outlets, namely a first air outlet, a second air outlet and a third air outlet, and the first air outlet, the second air outlet and the third air outlet are arranged at intervals.

Preferably, the circumferential interval between the first air outlet and the second air outlet is 40 degrees, and the opening angle of the first air outlet and the second air outlet in the circumferential direction is 40 degrees; the circumferential interval between the first air outlet and the third air outlet and the circumferential interval between the second air outlet and the third air outlet are both 60 degrees, and the opening angle of the third air outlet in the circumferential direction is 120 degrees.

Preferably, the air outlet cylinders are provided with two air outlet cylinders which are arranged side by side.

Preferably, the driving mechanism comprises a power part and a transmission part, wherein the transmission part is positioned between the power part and the air outlet cylinder and is used for transmitting power provided by the power part to the air outlet cylinder so as to drive the air outlet cylinder to rotate.

Preferably, the transmission part comprises a driving gear and a rotating ring, and the driving gear is connected to the output shaft of the motor and can rotate along with the output shaft of the motor; the rotating ring is arranged on the air outlet cylinder and can drive the air outlet cylinder to rotate; on the outer circumference of the rotating ring, there are meshing teeth that can mesh with the drive gear, or

The transmission part comprises a driving gear and meshing teeth, and the driving gear is connected to an output shaft of the motor and can rotate along with the output shaft of the motor; the meshing teeth are arranged on the outer wall of the air outlet barrel and can be meshed with the driving gear.

Preferably, a steel ball is arranged on the lower side of the rotating ring or the air outlet cylinder and used for supporting the air outlet cylinder, and a supporting structure used for containing the steel ball is arranged on the lower side of the steel ball and can freely rotate on the supporting structure.

According to a second aspect of the present application, an air conditioner is provided with the air outlet part in the present application.

Preferably, the air conditioner includes a fan, a diversion component is arranged at an air outlet of the fan, the diversion component diverts an air flow blown out by the fan into multiple paths of air flows, each path of air flow is correspondingly provided with an air flow channel component, one end of each air flow channel component is communicated with an air outlet of the fan, and the other end of each air flow channel component is communicated with an opening end of the air outlet cylinder.

Preferably, the air conditioner is provided with an air outlet panel, the air outlet panel is provided with a panel air outlet, and when the air outlet of the air outlet cylinder is opposite to the panel air outlet, the air conditioner is in an air outlet state.

Preferably, different air outlet modes are realized by rotating the air outlet barrel to different directions.

Preferably, the air outlet barrel is provided with two, the panel air outlets are provided with two, namely a first panel air outlet and a second panel air outlet, and the opening angle of each panel air outlet in the circumferential direction is 120 degrees.

Preferably, the air outlet barrel is provided with three air outlets, namely a first air outlet, a second air outlet and a third air outlet, the circumferential interval between the first air outlet and the second air outlet is 40 degrees, and the opening angles of the first air outlet and the second air outlet in the circumferential direction are 40 degrees; the circumferential interval between the first air outlet and the third air outlet and the circumferential interval between the second air outlet and the third air outlet are both 60 degrees, and the opening angle of the third air outlet in the circumferential direction is 120 degrees;

two air outlet cylinders are arranged side by side;

the two air outlet cylinders are arranged corresponding to the two panel air outlets.

Preferably, the blowing directions of the farther side of the first panel outlet and the second panel outlet are on the same straight line.

According to a third aspect of the present application, there is provided a control method of an air conditioner, which implements different blowing modes by rotating the blowing duct.

Preferably, the air conditioner has a rapid cooling/heating air supply mode, a uniform air supply mode and/or a no-wind-sense air supply mode;

wherein,

in a rapid cooling/heating air supply mode, the air outlet barrel is controlled to rotate to a position where only the first air outlet corresponds to the panel air outlet;

in the uniform air supply mode, the air outlet barrel is controlled to rotate to the positions where the first air outlet and the second air outlet correspond to the panel air outlet and the third air outlet is completely staggered with the panel air outlet;

and in the non-wind-sensing air supply mode, the air outlet barrel is controlled to rotate to the position where only the third air outlet corresponds to the panel air outlet.

The air outlet component and the air conditioner can realize different air outlet modes through the rotary air outlet barrel, can realize remote air supply, uniform large-range air supply and multiple air supply modes without wind sensation air supply, and improve the use comfort of the air conditioner.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

fig. 1 is a schematic view of an overall structure of an air conditioner according to the present application;

fig. 2 is a schematic view of the internal structure of the air conditioner of the present application;

fig. 3 is a schematic structural view of an air outlet cylinder in the present application;

fig. 4 is a schematic view of an air outlet of the air outlet barrel in the present application;

FIG. 5 is an enlarged view of portion A of FIG. 2;

FIG. 6 is a schematic front view of an air conditioner of the present application;

FIG. 7 is a schematic diagram of the air conditioner in the present application in a rapid heat exchange air supply mode (remote air supply mode);

FIG. 8 is a schematic diagram of the air conditioner in the present application in a uniform blowing mode;

fig. 9 is a schematic diagram illustrating a state where the air conditioner is in a no-wind-feeling blowing mode.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples.

As shown in fig. 1-2, the floor air conditioner in the present application includes a housing 1, an air inlet panel 11 and an air outlet panel 12 are disposed on the housing 1, an air inlet is disposed on the air inlet panel 11, and an air outlet is disposed on the air outlet panel 12. An air duct is arranged in the shell 1, and a fan 2 is arranged in the air duct. Preferably, the fan 2 is a centrifugal fan. The fan 2 comprises a fan blade 21 and a volute 22. The air duct close to the air outlet of the volute 22 is provided with a flow dividing component 3, and the flow dividing component 3 divides the air flow blown out by the fan into two paths of air flows. Correspondingly, two airflow channel parts, namely a first airflow channel part 31 and a second airflow channel part 32, are arranged in the shell correspondingly to the two airflows, the first airflow channel part 31 and the second airflow channel part 32 are arranged in parallel, and a first airflow channel and a second airflow channel are respectively formed in the first airflow channel part 31 and the second airflow channel part 32. First ends of the first airflow channel 31 and the second airflow channel 32 are communicated with an air outlet of the fan 2, and second ends of the first airflow channel and the second airflow channel are communicated with the air outlet part 4, so that the airflow blown out by the fan 2 is blown out of the air conditioner, and the air outside the air conditioner is conditioned. In this embodiment, the flow dividing component 3 divides the air flow blown out by the fan 2 into two air flows, two air flow channels are provided in the housing corresponding to the two air flows, and in other embodiments, only one or three or more air flow channels may be provided, which are all within the scope of the design concept of the present application.

Preferably, the shunting part 3 is a shunting baffle, one end of the shunting baffle is close to the air outlet of the fan volute 22, and the close end is pointed, so that the air flow can be shunted conveniently.

As shown in fig. 2-4, the air-out component 4 includes an air-out cylinder 41 and a driving mechanism 42, wherein the air-out cylinder 41 is vertically arranged and can be driven by the driving mechanism 42 to rotate. The number of the air outlet cylinders 41 corresponds to the number of the airflow channels, one air outlet cylinder 41 is arranged at the upper end of one airflow channel, and the inner cavity of the air outlet cylinder 41 is communicated with the airflow channels. In a preferred embodiment, the outlet cylinders 41 are provided with two, respectively, a first outlet cylinder 411 and a second outlet cylinder 412, the first outlet cylinder 411 is provided at the upper end of the first air flow passage part 31, and the second outlet cylinder 412 is provided at the upper end of the second air flow passage part 32.

As shown in fig. 2 and 4, the driving mechanism 42 includes a power portion 421 and a transmission portion 422, and the transmission portion 422 is located between the power portion 421 and the outlet cylinder 41 and is used for transmitting the power provided by the power portion 421 to the outlet cylinder 41, so as to drive the outlet cylinder 41 to rotate. The power unit 421 is preferably a motor. The transmission part 422 includes a driving gear 4221 and a rotating ring 4222, and the driving gear 4221 is connected to an output shaft of the motor and can rotate together with the output shaft of the motor. The rotating ring 4222 is arranged at the lower end of the air outlet cylinder 41 and can drive the air outlet cylinder 41 to rotate. Meshing teeth are arranged on the periphery of the rotating ring 4222 and can be meshed with the driving gear 4221, so that the motor can drive the rotating ring through the driving gear 4221 and further drive the air outlet cylinder 41 to rotate, and different air outlet modes (described in detail later) are realized. For the sake of simple structure, the same function can be achieved by providing the engaging teeth on the outer periphery of the outlet cylinder 41 without providing a rotating ring. In order to enable the air outlet cylinder 41 to rotate more smoothly, reduce the rotation resistance and further reduce the noise, the steel balls 4223 are arranged on the lower side of the rotating ring, a supporting structure 4224 for containing the steel balls is arranged on the lower side of the steel balls 4223, the steel balls 4223 are uniformly distributed on the upper side of the supporting structure 4224, and can freely rotate on the supporting structure 4224. The support structure 4224 is preferably a support ring and is secured to the upper end of the gas flow passage member. Therefore, the rotating ring 4222 can rotate under the support of the steel balls 4223, so that the friction of the rotating ring 4222 during rotation can be reduced, and the noise of the air conditioner during operation can be reduced.

As shown in fig. 3-4, an air outlet 43 is disposed on the sidewall of the air-out cylinder 41, the air outlet 43 extends along the axial direction of the air-out cylinder 41, and preferably, the air outlet 43 is provided in a plurality, and the plurality of air outlets 43 are sequentially arranged in the circumferential direction of the air-out cylinder. In a preferred embodiment, the outlet 43 is provided with three outlets, namely a first outlet 431, a second outlet 432 and a third outlet 433. The circumferential interval between the first air outlet 431 and the second air outlet 432 is 40 degrees, and the opening angle of the first air outlet 431 and the second air outlet 432 in the circumferential direction is 40 degrees; the circumferential interval between the first outlet 431, the second outlet 432, and the third outlet 433 is 60 degrees, and the opening angle of the third outlet 433 in the circumferential direction is 120 degrees. Air outlets 121 are arranged on the air outlet panel, and the number of the air outlets 121 corresponds to the number of the air outlet cylinders 41. When the air outlet 43 of the air outlet cylinder 41 rotated to the upper position corresponds to the air outlet 121 of the air outlet panel, the air flow in the air flow channel is blown out to the room through the air outlet 43 of the air outlet cylinder 41 and then through the air outlet 121 of the air outlet panel 12, so as to adjust the air in the room.

As shown in fig. 6-9, in a preferred embodiment, two air outlet cylinders 41 are provided, namely a first air outlet cylinder and a second air outlet cylinder; the air outlets 121 of the air outlet panel 12 are two, namely a first panel air outlet and a second panel air outlet, the first panel air outlet corresponds to the first air outlet cylinder, and the second panel air outlet corresponds to the second air outlet cylinder. The opening angles of the first panel air outlet and the second panel air outlet in the circumferential direction are both 120 degrees, an air outlet grille 44 is arranged on the first panel air outlet and the second panel air outlet, and the cross section of the air outlet grille 44 is preferably in a circular arc shape. The first panel air outlet and the second panel air outlet are arranged in parallel at a certain distance, and the distance can be selected according to the volume, the capacity and the like of the air conditioner, preferably between 120 and 200 mm. The blowing directions of the far sides of the first panel air outlet and the second panel air outlet are on the same straight line. Therefore, the maximum blowing range which can be covered by the air outlet 121 of the air conditioner can reach 180 degrees, the air outlet range is wide, and the heat exchange efficiency is high.

In the air outlet part 4 of the above embodiment, when the air outlet cylinder 41 rotates to the position that the first air outlet 431 faces the air outlet grille 44, the second air outlet 432 and the third air outlet 433 both rotate out of the range of the air outlet grille 44, at this time, only the smaller first air outlet 431 can exhaust air, the air volume is concentrated, the air speed is higher, and the air outlet part is suitable for the requirements during rapid cooling/heating or remote air supply; when two less air outlets: when the first air outlet 431 and the second air outlet 432 are rotated to the range of the air outlet grille 44, the first air outlet 431 and the second air outlet 432 are just positioned in the two side areas of the air outlet grille 44, the air outlet range is wide, the air supply angle can basically reach the range of 180 degrees, the temperature in a room can be uniformly adjusted, and the feeling of cold and hot is avoided when the activity range of a human body is wide; when the larger third air outlet 433 rotates to the range of the air outlet grille 44, the two smaller first air outlets 431 and the second air outlet 432 are not in the range of the air outlet grille 44, at the moment, after the air outlet cross section is increased, the air outlet speed is relatively reduced according to the flowing rule of air, the air outlet is softer, the human body cannot feel that the air is directly blown or the air is blown more softly and comfortably, and the technical effect of no-wind-sense air supply is realized.

The angle setting of play dryer air outlet in this application is relevant with the air-out mode, for example, the design of play dryer air outlet in the above-mentioned embodiment is based on 120 jiaos and is designed, and its wind gap all realizes the wind gap regulation in the angular range of 120, can correspond 3 air-out modes in 360 jiaos of circumference this moment, analogize, also can design different reference angles such as reference angle 90, 180, and design different air-out combination modes. These combinations are all within the scope of the design concept of the present application.

In the control method of the air conditioner in the present application, different air supply modes can be realized by rotating the air outlet cylinder 41.

Preferably, the air conditioner has a rapid cooling/heating air supply mode, a uniform air supply mode and/or a no-wind-sense air supply mode; as shown in fig. 7 to 9, in the rapid cooling/heating air supply mode, the air outlet cylinder 41 is controlled to rotate to a position where only the first air outlet 431 corresponds to the panel air outlet 121; in the uniform air supply mode, the air outlet cylinder 41 is controlled to rotate to the positions where the first air outlet 431 and the second air outlet 432 correspond to the panel air outlet 121 and the third air outlet 433 and the panel air outlet 121 are completely staggered; in the non-wind-sensing air supply mode, the air outlet cylinder 41 is controlled to rotate to a position where only the third air outlet 433 corresponds to the panel air outlet 121.

The air outlet component and the air conditioner can realize different air outlet modes through the rotary air outlet barrel 41, can realize remote air supply, uniform large-range air supply and multiple air supply modes without wind sensation air supply, and improve the use comfort of the air conditioner.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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

Claims (18)

1. The air conditioner air outlet component is characterized by comprising an air outlet barrel and a driving mechanism, wherein the air outlet barrel can be driven by the driving mechanism to rotate, one end of the air outlet barrel is sealed, the other end of the air outlet barrel is open, and an air outlet of the air outlet barrel is arranged on the side wall of the air outlet barrel.

2. The air-out member of claim 1, wherein the plurality of air-out drum outlets are arranged in a row in the circumferential direction of the air-out drum.

3. The venting member of claim 2, wherein at least two of the plurality of outlet vents have different openings in the circumferential direction and/or the plurality of outlet vents have different angular intervals in the circumferential direction.

4. The air outlet component of claim 2, wherein there are three air outlet openings of the air outlet barrel, which are respectively a first air outlet opening, a second air outlet opening and a third air outlet opening, and the first air outlet opening, the second air outlet opening and the third air outlet opening are arranged at intervals.

5. The air outlet component according to claim 4, wherein the circumferential interval between the first air outlet and the second air outlet is 40 degrees, and the opening angle of the first air outlet and the second air outlet in the circumferential direction is 40 degrees; the circumferential interval between the first air outlet and the third air outlet and the circumferential interval between the second air outlet and the third air outlet are both 60 degrees, and the opening angle of the third air outlet in the circumferential direction is 120 degrees.

6. The air-out component of claim 1, wherein there are two air-out cylinders, and the two air-out cylinders are arranged side by side.

7. The air-out component of claim 1, wherein the driving mechanism comprises a power portion and a transmission portion, the transmission portion is located between the power portion and the air-out drum and is used for transmitting power provided by the power portion to the air-out drum so as to drive the air-out drum to rotate.

8. Air outlet member according to claim 7,

the transmission part comprises a driving gear and a rotating ring, and the driving gear is connected to an output shaft of the motor and can rotate along with the output shaft of the motor; the rotating ring is arranged on the air outlet cylinder and can drive the air outlet cylinder to rotate; on the outer circumference of the rotating ring, there are meshing teeth that can mesh with the drive gear, or

The transmission part comprises a driving gear and meshing teeth, and the driving gear is connected to an output shaft of the motor and can rotate along with the output shaft of the motor; the meshing teeth are arranged on the outer wall of the air outlet barrel and can be meshed with the driving gear.

9. The air outlet component of claim 8, wherein a steel ball is arranged on the lower side of the rotary ring or the air outlet cylinder, and is used for supporting the air outlet cylinder, and a supporting structure for accommodating the steel ball is arranged on the lower side of the steel ball, and the steel ball can freely rotate on the supporting structure.

10. An air conditioner characterized in that an air outlet member according to any one of claims 1 to 9 is provided.

11. The air conditioner according to claim 10, wherein the air conditioner comprises a blower, a flow dividing member is disposed at an air outlet of the blower, the flow dividing member divides the airflow blown by the blower into a plurality of paths of airflows, an airflow channel member is correspondingly disposed for each path of airflow, one end of each airflow channel member is communicated with an air outlet of the blower, and the other end of each airflow channel member is communicated with an opening end of the outlet cylinder.

12. The air conditioner of claim 10, wherein the air conditioner is provided with an outlet panel, and a panel outlet is provided on the outlet panel, and when the outlet drum outlet is opposite to the panel outlet, the air conditioner is in an outlet state.

13. The air conditioner as claimed in claim 12, wherein different blowing modes are implemented by rotating the blowing cylinder to different orientations.

14. The air conditioner as claimed in claim 12, wherein there are two of the outlet ducts, there are two of the panel outlets, respectively a first panel outlet and a second panel outlet, and each panel outlet has an opening angle of 120 degrees in a circumferential direction.

15. The air conditioner according to claim 14,

the air outlet barrel is provided with three air outlets, namely a first air outlet, a second air outlet and a third air outlet, wherein the circumferential interval between the first air outlet and the second air outlet is 40 degrees, and the opening angles of the first air outlet and the second air outlet in the circumferential direction are 40 degrees; the circumferential interval between the first air outlet and the third air outlet and the circumferential interval between the second air outlet and the third air outlet are both 60 degrees, and the opening angle of the third air outlet in the circumferential direction is 120 degrees;

two air outlet cylinders are arranged side by side;

the two air outlet cylinders are arranged corresponding to the two panel air outlets.

16. The air conditioner according to claim 15, wherein the blowing directions of the sides of the first and second panel outlets which are farther from each other are aligned.

17. A control method of an air conditioner according to any one of claims 10-16, wherein different blowing modes are realized by rotating said outlet duct.

18. The control method of an air conditioner according to claim 15, wherein the air conditioner has a rapid cooling/heating air supply mode, a uniform air supply mode, and/or a no-wind-sense air supply mode;

wherein,

in a rapid cooling/heating air supply mode, the air outlet barrel is controlled to rotate to a position where only the first air outlet corresponds to the panel air outlet;

in the uniform air supply mode, the air outlet barrel is controlled to rotate to the positions where the first air outlet and the second air outlet correspond to the panel air outlet and the third air outlet is completely staggered with the panel air outlet;

and in the non-wind-sensing air supply mode, the air outlet barrel is controlled to rotate to the position where only the third air outlet corresponds to the panel air outlet.