CN108397867B - Air conditioner, multi-section air deflector control method and computer readable storage medium - Google Patents

Abstract

The invention discloses a multi-section air deflector control method of an air conditioner, which comprises the following steps: when the air conditioner starts to operate, acquiring the air output of a target area; comparing the air supply quantity of the target area with a preset air supply quantity; and correspondingly adjusting the air guide angle of the multi-section air guide plate according to the size relationship. The invention also discloses an air conditioner and a computer readable storage medium. The invention utilizes the multi-section air guide plates, and flexibly adjusts the air guide angle of one or more corresponding sections of air guide plates according to different requirements, thereby realizing the adjustment of the air supply quantity and further improving the speed of temperature drop or temperature rise.

Description

Air conditioner, multi-section air deflector control method and computer readable storage medium

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner, a multi-section air deflector control method and a computer readable storage medium.

Background

The air guide part of the air conditioner can usually start a good air supply effect to meet the basic requirements of quick cooling and quick heating, but the existing air supply mode is single, the whole structure is fixed, and the change can not be realized according to the change of parameters, so that the temperature drop or temperature rise speed is slow, and the comfort is reduced.

Disclosure of Invention

The invention mainly aims to provide an air conditioner, a multi-section air deflector control method and a computer readable storage medium, aiming at flexibly adjusting the air deflecting angle of one or more corresponding sections of air deflectors according to different requirements by utilizing the multi-section air deflectors so as to realize the adjustment of air supply quantity and further improve the speed of temperature drop or temperature rise.

The invention provides a multi-section air deflector control method of an air conditioner, which comprises the following steps:

when the air conditioner starts to operate, acquiring the air output of a target area;

comparing the air supply quantity of the target area with a preset air supply quantity;

and correspondingly adjusting the air guide angle of the multi-section air guide plate according to the size relationship.

Preferably, the step of correspondingly adjusting the air guiding angle of the multi-segment air guiding plate according to the size relationship includes:

and when the air output of the target area is less than the preset air output, increasing the air guide angle of the preset air guide plate of the multi-section air guide plate.

Preferably, the step of correspondingly adjusting the air guiding angle of the multi-segment air guiding plate according to the size relationship includes:

and when the air output of the target area is greater than the preset air output, reducing the air guide angle of the preset air guide plate of the multi-section air guide plate.

Preferably, the step of obtaining the air output of the target area when the air conditioner starts to operate includes:

when the air conditioner starts to operate, acquiring a user position;

detecting an amount of air delivered at the user location.

Preferably, the step of correspondingly adjusting the air guiding angle of the multi-segment air guiding plate according to the size relationship includes:

after the user position is obtained, determining a section of air deflector opposite to the user position;

and adjusting the air guide angle of a section of air guide plate opposite to the user position.

Preferably, the step of correspondingly adjusting the air guiding angle of the multi-segment air guiding plate according to the size relationship includes:

after the user position is obtained, determining a section of air deflector opposite to the user position and other sections of air deflectors adjacent to the opposite section of air deflector;

preferentially adjusting the air guide angle of a section of air guide plate opposite to the user position;

and if the air output at the position of the user does not meet the preset condition, adjusting other sections of air deflectors adjacent to the section of air deflector opposite to the user position.

Preferably, the step of acquiring the user location when the air conditioner starts to operate includes:

when the air conditioner starts to operate in a refrigeration, heating or air supply mode, the user position is detected through the mobile terminal or the intelligent wearable device, and the user position sent by the mobile terminal or the intelligent wearable device is received.

Preferably, the step of acquiring the user location when the air conditioner starts to operate includes:

when the air conditioner starts to operate in a refrigeration, heating or air supply mode, the air conditioner detects the position of a user through infrared.

Preferably, the step of obtaining the air output of the target area when the air conditioner starts to operate includes:

when the air conditioner starts to run, acquiring the air output of an indoor preset position in real time or at regular time;

and if the air supply quantity is kept unchanged in the preset time, taking the air supply quantity as the whole indoor air supply quantity.

In order to achieve the above object, the present invention further provides an air conditioner, which includes a processor and a multi-stage air deflector control program stored in the processor and operable on the processor, wherein the multi-stage air deflector control program implements the steps of the multi-stage air deflector control method when executed by the processor.

In order to achieve the above object, the present invention further provides a computer readable storage medium, where a multi-section air deflector control program of an air conditioner is stored, and the multi-section air deflector control program of the air conditioner is executed by a processor to implement the steps of the multi-section air deflector control method of the air conditioner.

According to the air conditioner, the multi-section air deflector control method and the computer readable storage medium, when the air conditioner is started to operate, the air supply volume of a target area is obtained, then the air supply volume of the target area is compared with the preset air supply volume, and the air guide angle of the multi-section air deflector is correspondingly adjusted according to the size relation. Therefore, the air guide angle of the corresponding one section or multiple sections of air guide plates is flexibly adjusted by utilizing the multiple sections of air guide plates according to different requirements, so that the air supply quantity is adjusted, and the speed of temperature drop or temperature rise is further increased.

Drawings

FIG. 1 is a schematic diagram of an air conditioner in a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a multi-sectional air deflector of the air conditioner of the present invention;

FIG. 3 is a schematic flow chart illustrating a multi-sectional air deflector control method according to a first embodiment of the present invention;

FIG. 4 is a detailed flowchart of the first embodiment of step S3 in FIG. 3;

fig. 5 is a detailed flowchart of the second embodiment of step S3 in fig. 3.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the air conditioner of the present invention includes: a processor 1001, such as a CPU, a user interface 1002, a memory 1003, and a communication bus 1004. Wherein a communication bus 1004 is used to enable connective communication between these components. The user interface 1002 may include a Display screen (Display), an input unit such as a remote controller. The memory 1003 may be a high-speed RAM memory or a non-volatile memory (e.g., a disk memory). The memory 1003 may alternatively be a storage device separate from the processor 1001.

The air conditioner may further include an indoor unit, an outdoor unit, a compressor disposed in the outdoor unit, and various sensors for detecting parameters such as temperature, pressure, humidity, refrigerant flow rate, and wind speed.

Those skilled in the art will appreciate that the air conditioner configuration shown in fig. 1 is not intended to be limiting of the air conditioner and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, the memory 1003 as a computer storage medium may include an operating system, a network communication module, a user interface module, and a multi-segment air deflector control program of an air conditioner.

In the air conditioner shown in fig. 1, the user interface 1002 is mainly used for receiving a user instruction, such as cooling or heating, triggered by a user touching the display screen or inputting an instruction in the input unit; the processor 1001 is configured to call the multi-segment air deflector control program stored in the memory 1003, and perform the following operations:

when the air conditioner starts to operate, acquiring the air output of a target area;

comparing the air supply quantity of the target area with a preset air supply quantity;

and correspondingly adjusting the air guide angle of the multi-section air guide plate according to the size relationship.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

and when the air output of the target area is less than the preset air output, increasing the air guide angle of the preset air guide plate of the multi-section air guide plate.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

and when the air output of the target area is greater than the preset air output, reducing the air guide angle of the preset air guide plate of the multi-section air guide plate.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

when the air conditioner starts to operate, acquiring a user position;

detecting an amount of air delivered at the user location.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

after the user position is obtained, determining a section of air deflector opposite to the user position;

and adjusting the air guide angle of a section of air guide plate opposite to the user position.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

after the user position is obtained, determining a section of air deflector opposite to the user position and other sections of air deflectors adjacent to the opposite section of air deflector;

preferentially adjusting the air guide angle of a section of air guide plate opposite to the user position;

and if the air output at the position of the user does not meet the preset condition, adjusting other sections of air deflectors adjacent to the section of air deflector opposite to the user position.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

when the air conditioner starts to operate in a refrigeration, heating or air supply mode, the user position is detected through the mobile terminal or the intelligent wearable device, and the user position sent by the mobile terminal or the intelligent wearable device is received.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

when the air conditioner starts to operate in a refrigeration, heating or air supply mode, the air conditioner detects the position of a user through infrared.

Further, the processor 1001 may call the multi-segment air deflector control program stored in the memory 1003, and further perform the following operations:

when the air conditioner starts to run, acquiring the air output of an indoor preset position in real time or at regular time;

and if the air supply quantity is kept unchanged in the preset time, taking the air supply quantity as the whole indoor air supply quantity.

Referring to fig. 2, the multi-sectional air deflector 100 of the air conditioner includes a first-section air deflector 1, a second-section air deflector 2, and a third-section air deflector 3. The length of the second section of air deflector 2 is greater than that of the first section of air deflector 1 and that of the third section of air deflector 3, and the three sections of air deflectors are used for controlling air supply angles respectively and independently. Of course, in other embodiments, the number of segments and the length of each segment are not limited to the specific number of segments. In addition, a plurality of uniformly arranged fine holes 4 are further formed in the second section of air deflector 2, so that the air outlet quantity of the position, right opposite to the second section of air deflector 2, of the second section of air deflector is prevented from being too large, and the comfort of a user can be further improved.

Referring to fig. 3, in a first embodiment, the present invention provides a method for controlling a multi-stage air deflector of an air conditioner, including:

step S1, acquiring the air supply volume of a target area when the air conditioner starts to operate;

in this embodiment, when the air conditioner starts to operate in a cooling, heating or air supply mode, the air supply volume of the target area can be obtained in real time or at regular time. The air supply amount of the target position may be an air supply amount at a user position, an indoor whole air supply amount, or a position set by a user, such as a sofa position where the user frequently sits. The device can be reasonably arranged according to actual needs.

Specifically, the manner of obtaining the air volume of the target area may be: the method comprises the steps of firstly obtaining the position of a user when the air conditioner starts to operate, and then detecting the air supply quantity at the position of the user.

For example, when the air output of the target position is the air output of the user position, the user position is detected through a mobile terminal such as a mobile phone or an intelligent wearable device such as a bracelet, and when the user position is detected through the mobile phone or the bracelet, the user position information is sent to the air conditioner in real time or at regular time. Under the condition, the air conditioner does not need to start to operate in a cooling mode, a heating mode or an air supply mode and the like. Of course, after the air conditioner is started to operate, an instruction can be sent to the mobile terminal or the intelligent wearable device, and then the mobile terminal or the intelligent wearable device feeds back the user position information to the air conditioner. Alternatively, the user position is detected by infrared. Or, the user position is acquired through a camera. Alternatively, the user position is acquired by voice.

For another example, when the air supply amount at the target position is the indoor total air supply amount, the air supply amount at a predetermined indoor position is acquired in real time or at regular time when the air conditioner starts to operate, whether the air supply amount at the position is always kept unchanged within a preset time is judged, and if the air supply amount is kept unchanged, the air supply amount is taken as the indoor total air supply amount.

The method for detecting the air volume of the target area may be as follows: after the target position is obtained, the distance between the target position and the air conditioner is calculated, and then the air output of the target position is calculated by combining the air speed and the air output area at the air outlet of the air conditioner.

Step S2, comparing the air output of the target area with the preset air output;

in this embodiment, the air output of the target area corresponds to a preset air output, that is, the corresponding preset air outputs are different according to the difference in the air output of the target position area.

And step S3, correspondingly adjusting the wind guide angle of the multi-section wind guide plate according to the size relationship.

In this embodiment, the size relationship may be that the air supply volume of the target area is greater than the preset air supply volume, or the air supply volume of the target area is less than the preset air supply volume, or the air supply volume of the target area is equal to the preset air supply volume. Of course, the air output in the target area is equal to the preset air output, and the air guiding angle of the current multi-section air guiding plate can be kept unchanged. When the air output of the target area is less than the preset air output, increasing the air guide angle of a preset air guide plate of the multi-section air guide plate; and when the air output of the target area is greater than the preset air output, reducing the air guide angle of the preset air guide plate of the multi-section air guide plate.

According to the control method of the multi-section air deflector of the air conditioner, the air output of a target area is obtained when the air conditioner starts to operate, then the air output of the target area is compared with the preset air output, and the air deflection angle of the multi-section air deflector is correspondingly adjusted according to the size relation. Therefore, the air guide angle of the corresponding one section or multiple sections of air guide plates is flexibly adjusted by utilizing the multiple sections of air guide plates according to different requirements, so that the air supply quantity is adjusted, and the speed of temperature drop or temperature rise is further increased.

Referring to fig. 4, in the second embodiment, based on the first embodiment, the step S3 includes:

step S31, after the user position is obtained, determining a section of air deflector opposite to the user position;

in this embodiment, after the user position is obtained, a section of air deflector opposite to the user position is determined. Since the user is not necessarily directly in front of the air conditioner, the term "directly facing" in this embodiment may be understood as a section of the air deflector closest to the user position, that is, the air deflector directly facing the user position.

And step S32, adjusting the wind guide angle of a section of wind guide plate opposite to the user position.

In this embodiment, the air guide angle of a section of air guide plate directly facing the user position is correspondingly adjusted according to the magnitude relationship between the air supply amount at the user position and the air supply amount at the predetermined user position. When the air output at the user position is less than the air output at the preset user position, increasing the air guide angle of the section of the air guide plate which is opposite to the user position; and when the air supply quantity at the user position is greater than the air supply quantity at the preset user position, reducing the air guide angle of the section of the air guide plate which is opposite to the user position.

Referring to fig. 5, in a third embodiment, based on the first embodiment, the step S3 includes:

step S33, after the user position is obtained, determining a section of air deflector opposite to the user position and other sections of air deflectors adjacent to the opposite section of air deflector;

in this embodiment, after the user position is obtained, a section of air deflector opposite to the user position is determined. Since the user is not necessarily directly in front of the air conditioner, the term "directly facing" in this embodiment may be understood as a section of the air deflector closest to the user position, that is, the air deflector directly facing the user position.

And then determining another segment or another two segments of air deflectors which are next to the user, wherein the specific number is not limited.

Step S34, preferentially adjusting the wind guide angle of a section of wind guide plate opposite to the user position;

and step S35, if the air output at the user position does not meet the preset condition, adjusting other sections of air deflectors adjacent to the section of air deflector opposite to the user position.

In this embodiment, since the section of the air guiding plate closest to the user position has the largest influence on the user, the air guiding angle of the section of the air guiding plate directly opposite to the user position is preferentially adjusted.

For example, when the air guiding angle of a section of air guiding plate directly facing the user position is adjusted to the maximum angle, but the air supply amount at the user position still does not meet the preset condition, if the air supply amount is still lower than a certain preset air supply amount, the air supply angles of other sections of air guiding plates can be correspondingly increased by combining with other sections of air guiding plates adjacent to the directly facing section of air guiding plate, so that the air supply amount at the user position is increased until the preset condition is met. On the contrary, if the air guide angle of the section of air guide plate opposite to the user position is adjusted to the minimum angle, but the air supply amount at the user position still does not meet the preset condition, if the air supply amount is still higher than a certain preset air supply amount, at this time, the air supply angles of other sections of air guide plates can be correspondingly adjusted to be smaller by combining with other sections of air guide plates adjacent to the opposite section of air guide plate, so that the air supply amount at the user position is reduced until the preset condition is met.

In addition, an embodiment of the present invention further provides an air conditioner, where the air conditioner includes a processor and a multi-segment air deflector control program stored in the processor and capable of running on the processor, where the multi-segment air deflector control program implements the steps of the multi-segment air deflector control method when executed by the processor.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, where a multi-segment air deflector control program of an air conditioner is stored in the computer-readable storage medium, and the multi-segment air deflector control program of the air conditioner is executed by a processor to implement the steps of the multi-segment air deflector control method of the air conditioner.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (11)

1. A multi-section air deflector control method of an air conditioner is characterized by comprising the following steps:

when the air conditioner starts to operate, acquiring the air output of a target area;

comparing the air supply quantity of the target area with a preset air supply quantity;

and correspondingly adjusting the air guide angle of each air guide plate in the multi-section air guide plates according to the size relationship.

2. The multi-sectional air deflector of an air conditioner according to claim 1, wherein the step of correspondingly adjusting the air deflection angle of the multi-sectional air deflector according to the size relationship comprises:

and when the air output of the target area is less than the preset air output, increasing the air guide angle of the preset air guide plate of the multi-section air guide plate.

3. The multi-sectional air deflector of an air conditioner according to claim 1, wherein the step of correspondingly adjusting the air deflection angle of the multi-sectional air deflector according to the size relationship comprises:

and when the air output of the target area is greater than the preset air output, reducing the air guide angle of the preset air guide plate of the multi-section air guide plate.

4. The multi-sectional air deflection plate control method of an air conditioner according to any one of claims 1 to 3, wherein the step of obtaining the air output of the target area when the air conditioner is started comprises:

when the air conditioner starts to operate, acquiring a user position;

detecting an amount of air delivered at the user location.

5. The multi-sectional air deflector of an air conditioner according to claim 4, wherein the step of correspondingly adjusting the air deflection angle of the multi-sectional air deflector according to the size relationship comprises:

after the user position is obtained, determining a section of air deflector opposite to the user position;

and adjusting the air guide angle of a section of air guide plate opposite to the user position.

6. The multi-sectional air deflector of an air conditioner according to claim 4, wherein the step of correspondingly adjusting the air deflection angle of the multi-sectional air deflector according to the size relationship comprises:

after the user position is obtained, determining a section of air deflector opposite to the user position and other sections of air deflectors adjacent to the opposite section of air deflector;

preferentially adjusting the air guide angle of a section of air guide plate opposite to the user position;

and if the air output at the position of the user does not meet the preset condition, adjusting other sections of air deflectors adjacent to the section of air deflector opposite to the user position.

7. The multi-sectional air deflection panel control method of claim 4, wherein the step of obtaining the user's position when the air conditioner is started comprises:

when the air conditioner starts to operate in a refrigeration, heating or air supply mode, the user position is detected through the mobile terminal or the intelligent wearable device, and the user position sent by the mobile terminal or the intelligent wearable device is received.

8. The multi-sectional air deflection panel control method of claim 4, wherein the step of obtaining the user's position when the air conditioner is started comprises:

when the air conditioner starts to operate in a refrigeration, heating or air supply mode, the air conditioner detects the position of a user through infrared.

9. The multi-sectional air deflection plate control method of an air conditioner according to any one of claims 1 to 3, wherein the step of obtaining the air output of the target area when the air conditioner is started comprises:

when the air conditioner starts to run, acquiring the air output of an indoor preset position in real time or at regular time;

and if the air supply quantity is kept unchanged in the preset time, taking the air supply quantity as the whole indoor air supply quantity.

10. An air conditioner, comprising a processor and a multi-segment wind deflector control program stored in and executable on the processor, wherein the multi-segment wind deflector control program when executed by the processor implements the steps of the multi-segment wind deflector control method of any one of claims 1 to 9.

11. A computer-readable storage medium, wherein a multi-segment air deflector control program of an air conditioner is stored on the computer-readable storage medium, and the multi-segment air deflector control program of the air conditioner is executed by a processor to implement the steps of the multi-segment air deflector control method of the air conditioner according to any one of claims 1 to 9.

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