CN114791164A - Control method, device and equipment of air conditioner and storage medium - Google Patents

Abstract

The invention provides a control method, a control device, control equipment and a storage medium of an air conditioner, wherein the control method comprises the steps of obtaining position information of a target object; determining a target air supply area where the target object is located according to the position information of the target object; according to the target air supply area, the opening angle of the air deflector of the target air supply area is controlled, so that the air deflector of the target air supply area does not blow air towards the target object any more, air-conditioner direct blowing prevention is achieved, different direct blowing prevention air supply modes are carried out on the target object in different air supply areas during air-conditioner direct blowing prevention, and the practicability of the air conditioner is improved.

Description

Control method, device and equipment of air conditioner and storage medium

Technical Field

The invention relates to the technical field of intelligent home furnishing, and particularly provides a control method, a control device, control equipment and a storage medium for an air conditioner.

Background

With the increasing popularization of air conditioners in rooms, the demand of users on the air conditioners is no longer simple cooling and heating, and people blowing by the air conditioners become pain spots of the users.

In general, guide plate micropores or guide plates are mostly adopted to rotate back and forth so as to avoid direct blowing of an air conditioner. However, this method still has difficulty in avoiding the user when the air conditioner is blowing air, reducing the practicality of the air conditioner.

Disclosure of Invention

The present invention is proposed to overcome the above-mentioned drawbacks, and to provide a control method, device, apparatus and storage medium for an air conditioner, which solve or at least partially solve the technical problems that it is still difficult to avoid users when the air conditioner is blowing air, and the practicability of the air conditioner is reduced.

In a first aspect, the present invention provides a control method of an air conditioner, wherein a space where an air conditioner outlet faces is divided into a middle air supply area and an edge air supply area, the middle air supply area is an area obtained by respectively rotating two sides by a preset angle with a center line of the air conditioner outlet as an axial direction, the edge air supply area is an area other than the middle air supply area, and the center line of the air conditioner outlet is parallel to an air deflector corresponding to the air conditioner outlet; the method comprises the following steps:

acquiring position information of a target object;

determining a target air supply area where the target object is located according to the position information of the target object;

and controlling the opening angle of the air deflector of the target air supply area according to the target air supply area, so that the air deflector of the target air supply area does not face the target object any more for supplying air.

Further, in the control method of the air conditioner, the middle-type air supply area includes a sub-middle-type air supply area corresponding to at least one air deflector, and the edge-type air supply area includes a sub-edge-type air supply area corresponding to at least one air deflector;

controlling the opening angle of the air deflector of the target air supply area, comprising:

if the target air supply area only comprises the air supply areas of the sub-edge types, closing the air deflectors corresponding to the air supply areas of the sub-edge types in the target air supply area;

if the target air supply area only comprises the air supply areas of the sub-middle classes, adjusting the air deflectors corresponding to the air supply areas of the sub-middle classes in the target air supply area to a target opening angle; the target opening angle is determined according to the distance between a target object and the air conditioner;

if the target air supply area simultaneously comprises the sub-edge air supply area and the sub-middle air supply area, and the sub-edge air supply area and the sub-middle air supply area share the same air deflector, closing the air deflector corresponding to the target air supply area;

if the target air supply area simultaneously comprises the air supply areas of the sub-edge type and the air supply areas of the sub-middle type, and the air supply areas of the sub-edge type and the air supply areas of the sub-middle type do not share the same air deflector, closing the air deflector corresponding to the air supply areas of the sub-edge type in the target air supply area, and adjusting the air deflector corresponding to the air supply areas of the sub-middle type in the target air supply area to a target opening angle.

Further, in the above method for controlling an air conditioner, the determining the target opening angle according to the distance between the target object and the air conditioner includes:

substituting the distance into a preset opening angle calculation formula to calculate to obtain the target opening angle;

wherein, the calculation formula of the opening angle is as follows:

R＝a+bs；

wherein, R is the target opening angle, a is the angle corresponding to the air supply area of an edge class, b is a constant, and s is the distance between the target object and the air conditioner.

Further, in the control method of the air conditioner, closing the air deflector corresponding to the sub-edge type air supply area in the target air supply area includes:

acquiring a current first opening angle of an air deflector corresponding to the air supply area of the sub-edge class in the target air supply area and a first temperature of the air supply area of the sub-edge class in the target air supply area;

if the first temperature is higher than the preset temperature, determining a first rotating speed of an air deflector corresponding to the air supply area of the sub-edge type in the target air supply area according to the current first opening angle and a first preset time length;

and closing the air deflector corresponding to the air supply area of the sub-edge type in the target air supply area based on the first rotating speed.

Further, in the control method of an air conditioner, adjusting the air deflector corresponding to the sub-intermediate air supply area in the target air supply area to a target opening angle includes:

acquiring a current second opening angle of an air deflector corresponding to the air supply area of the sub-middle type in the target air supply area and a second temperature of the air supply area of the sub-middle type in the target air supply area;

if the second temperature is higher than the preset temperature, determining a second rotation speed of the air deflector corresponding to the air supply area of the sub-middle type in the target air supply area according to the current second opening angle, the target opening angle and a second preset time length;

and adjusting the air deflector corresponding to the air supply area of the sub-middle class in the target air supply area to a target opening angle based on the second rotating speed.

In a second aspect, the present invention provides a control device for an air conditioner, in which a space where an air outlet of the air conditioner faces is divided into a middle type air supply area and an edge type air supply area, the middle type air supply area is an area obtained by respectively rotating a preset angle on both sides of an axial direction by taking a center line of the air outlet of the air conditioner, the edge type air supply area is an area other than the middle type air supply area, and the center line of the air outlet of the air conditioner is parallel to an air deflector corresponding to the air outlet of the air conditioner, the device including:

the acquisition module is used for acquiring the position information of the target object;

the determining module is used for determining a target air supply area where the target object is located according to the position information of the target object;

and the control module is used for controlling the opening angle of the air deflector of the target air supply area according to the target air supply area, so that the air deflector of the target air supply area does not blow air towards the target object any more.

Further, in the control device of the air conditioner, the middle-type air supply area includes a sub-middle-type air supply area corresponding to the at least one air deflector, and the edge-type air supply area includes a sub-edge-type air supply area corresponding to the at least one air deflector;

the control module is specifically configured to:

if the target air supply area only comprises the air supply areas of the sub-edge types, closing the air deflectors corresponding to the air supply areas of the sub-edge types in the target air supply area;

if the target air supply area only comprises the air supply areas of the sub-middle classes, adjusting the air deflectors corresponding to the air supply areas of the sub-middle classes in the target air supply area to a target opening angle; the target opening angle is determined according to the distance between a target object and the air conditioner;

if the target air supply area simultaneously comprises the air supply areas of the sub-edge type and the air supply areas of the sub-middle type, and the air supply areas of the sub-edge type and the air supply areas of the sub-middle type share the same air deflector, closing the air deflector corresponding to the target air supply area;

if the target air supply area simultaneously comprises the air supply areas of the sub-edge type and the air supply areas of the sub-middle type, and the air supply areas of the sub-edge type and the air supply areas of the sub-middle type do not share the same air deflector, closing the air deflector corresponding to the air supply areas of the sub-edge type in the target air supply area, and adjusting the air deflector corresponding to the air supply areas of the sub-middle type in the target air supply area to a target opening angle.

Further, in the control device of an air conditioner, the control module is further configured to:

substituting the distance into a preset opening angle calculation formula for calculation to obtain the target opening angle;

wherein, the calculation formula of the opening angle is as follows:

R＝a+bs；

wherein, R is the target opening angle, a is the angle corresponding to the air supply area of an edge class, b is a constant, and s is the distance between the target object and the air conditioner.

In a third aspect, there is provided a control apparatus of an air conditioner, comprising a processor and a storage device adapted to store a plurality of program codes adapted to be loaded and run by the processor to perform the control method of the air conditioner as defined in any one of the above.

In a fourth aspect, there is provided a computer readable storage medium having stored therein a plurality of program codes adapted to be loaded and executed by a processor to perform the control method of the air conditioner according to any one of the above-described technical aspects.

One or more technical schemes of the invention at least have one or more of the following beneficial effects:

in the technical scheme of implementing the invention, the position information of the target object is acquired; determining a target air supply area where the target object is located according to the position information of the target object; according to the target air supply area, the opening angle of the air deflector of the target air supply area is controlled, so that the air deflector of the target air supply area does not face the target object to supply air any more, air conditioner direct blowing prevention is achieved, different direct blowing prevention air supply modes are performed for the target objects in different air supply areas during air conditioner direct blowing prevention, and the practicability of an air conditioner is improved.

Drawings

The disclosure of the present invention will become more readily understood with reference to the accompanying drawings. As is readily understood by those skilled in the art: these drawings are for illustrative purposes only and are not intended to be a limitation on the scope of the present disclosure. Moreover, in the drawings, like numerals are used to indicate like parts, and in which:

fig. 1 is a flowchart illustrating main steps of a control method of an air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic view of a distribution of a blowing zone of the air conditioner of the present invention;

fig. 3 is a main configuration block diagram of a control apparatus of an air conditioner according to an embodiment of the present invention.

Detailed Description

Some embodiments of the invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

In the description of the present invention, a "module" or "processor" may include hardware, software, or a combination of both. A module may comprise hardware circuitry, various suitable sensors, communication ports, memory, may comprise software components such as program code, and may be a combination of software and hardware. The processor may be a central processing unit, microprocessor, image processor, digital signal processor, or any other suitable processor. The processor has data and/or signal processing functionality. The processor may be implemented in software, hardware, or a combination thereof. Non-transitory computer-readable storage media include any suitable medium that can store program code, such as magnetic disks, hard disks, optical disks, flash memory, read-only memory, random-access memory, and so forth. The term "a and/or B" denotes all possible combinations of a and B, such as a alone, B alone or a and B. The term "at least one A or B" or "at least one of A and B" means similar to "A and/or B" and may include only A, only B, or both A and B. The singular forms "a", "an" and "the" may include the plural forms as well.

Referring to fig. 1, fig. 1 is a flow chart illustrating main steps of a control method of an air conditioner according to an embodiment of the present invention. The space where the air-conditioning outlet faces is divided into a middle air supply area and an edge air supply area, wherein the middle air supply area is an area obtained by respectively rotating for a preset angle by taking the central line of the air-conditioning outlet as two axial sides, the edge air supply area is an area except the middle air supply area, and the central line of the air-conditioning outlet is parallel to the air deflector corresponding to the air-conditioning outlet.

Fig. 2 is a schematic diagram of distribution of a blowing zone of the air conditioner of the present invention, and as shown in fig. 2, a space corresponding to an air outlet of the air conditioner is sequentially divided into a first area a1 to a fourth area a4, and corresponding angles thereof are sequentially 30 °, 60 °, and 30 °. The first and fourth regions a1 and a4 may be edge-type air blowing regions, and the second and third regions a2 and A3 may be middle-type air blowing regions.

Based on the above division of the areas, the control method of the smart home device in the embodiment of the present invention mainly includes the following steps 101 to 103.

Step 101, acquiring position information of a target object;

in a specific implementation process, a position detection device such as a radar can be arranged on the air conditioner, and the position information of the target object can be acquired in real time. The target object may be a human body, an animal, or the like.

102, determining a target air supply area where the target object is located according to the position information of the target object;

in a specific implementation process, after the position information of the target object is obtained, the target air supply area where the target object is located can be determined.

And 103, controlling the opening angle of an air deflector of the target air supply area according to the target air supply area.

In a specific implementation process, the middle air supply area comprises a sub-middle air supply area corresponding to at least one air deflector, and the edge air supply area comprises a sub-edge air supply area corresponding to at least one air deflector.

If the target air supply area only comprises the air supply areas of the sub-edge types, closing the air deflectors corresponding to the air supply areas of the sub-edge types in the target air supply area;

if the target air supply area only comprises the air supply areas of the sub-middle classes, adjusting the air deflectors corresponding to the air supply areas of the sub-middle classes in the target air supply area to a target opening angle; the target opening angle is determined according to the distance between a target object and the air conditioner;

if the target air supply area simultaneously comprises the air supply areas of the sub-edge type and the air supply areas of the sub-middle type, and the air supply areas of the sub-edge type and the air supply areas of the sub-middle type share the same air deflector, closing the air deflector corresponding to the target air supply area;

if the target air supply area simultaneously comprises the air supply areas of the sub-edge type and the air supply areas of the sub-middle type, and the air supply areas of the sub-edge type and the air supply areas of the sub-middle type do not share the same air deflector, closing the air deflector corresponding to the air supply areas of the sub-edge type in the target air supply area, and adjusting the air deflector corresponding to the air supply areas of the sub-middle type in the target air supply area to a target opening angle.

In one specific implementation, the target opening angle may be obtained as follows:

substituting the distance into a preset opening angle calculation formula to calculate to obtain the target opening angle;

wherein, the open angle calculation formula is:

R＝a+bs；

wherein, R is a target opening angle, a is an angle corresponding to an edge-type air supply area, b is a constant, and s is a distance between a target object and the air conditioner.

In one particular implementation, a may be 30 °, b may be 12, and s may be 0m to 5 m. Corresponding R may be 30 ° to 90 °.

It should be noted that, before the step is executed, it may be determined whether the distance between the target object and the air conditioner is smaller than a preset threshold, and correspondingly, when the distance between the target object and the air conditioner is smaller than the preset threshold, the step is executed again.

In the control method of the air conditioner of the embodiment, the position information of the target object is acquired; determining a target air supply area where the target object is located according to the position information of the target object; according to the target air supply area, the opening angle of the air deflector of the target air supply area is controlled, so that the air deflector of the target air supply area does not face the target object to supply air any more, air conditioner direct blowing prevention is achieved, different direct blowing prevention air supply modes are performed for the target objects in different air supply areas during air conditioner direct blowing prevention, and the practicability of an air conditioner is improved.

In a specific implementation process, although the target object needs to use no wind sensation when the air conditioner is used, the air conditioner usually has a low temperature change of an area where the target object is located when operating in the no wind sensation mode, and if the temperature of the area where the target object is located is high, the target object may be uncomfortable when the air deflector of the air conditioner operates in the no wind sensation mode.

Specifically, in the above embodiment, when the air deflector corresponding to the sub-edge type air supply area in the target air supply area is closed, the following steps may be performed:

(1) acquiring a current first opening angle of an air deflector corresponding to the air supply area of the sub-edge class in the target air supply area and a first temperature of the air supply area of the sub-edge class in the target air supply area;

in a specific implementation process, the opening angle of the air deflector can be recorded in real time in the operation process of the air conditioner, so that the current first opening angle of the air deflector corresponding to the air supply area of the sub-edge type in the target air supply area can be obtained. The first temperature of the sub-edge type blowing area in the target blowing area may be acquired by a temperature sensor or the like.

(2) If the first temperature is higher than the preset temperature, determining a first rotating speed of an air deflector corresponding to the air supply area of the sub-edge type in the target air supply area according to the current first opening angle and a first preset time length;

(3) and closing the air deflector corresponding to the air supply area of the sub-edge type in the target air supply area based on the first rotating speed.

In a specific implementation process, if the temperature of the area where the target object is located is higher than a preset temperature, it is indicated that the temperature around the target object is higher, and at this time, if the air deflector of the air conditioner rapidly enters an angle corresponding to a no-wind-sensation mode, the temperature around the target object is not easily reduced, so that the first rotation speed of the air deflector corresponding to the air supply area of the sub-edge class in the target air supply area can be determined according to the current first opening angle and a first preset time, so that the air deflector corresponding to the air supply area of the sub-edge class in the target air supply area is closed based on the first rotation speed. The first preset time is obtained by weighting and calculating according to the time meeting the requirement of the target object on no wind sensation and the time meeting the requirement of the target object for reducing the temperature to a lower temperature, so that the ambient temperature of the target object can be quickly reduced before the air deflector is closed, the ambient temperature of the target object is relatively lower after the air deflector is closed, and the air deflector does not blow air towards the target object any more.

Similarly, in the above embodiment, adjusting the air deflectors corresponding to the sub-middle air supply areas in the target air supply area to the target opening angle may include the following steps:

(11) acquiring a current second opening angle of an air deflector corresponding to the air supply area of the sub-intermediate class in the target air supply area and a second temperature of the air supply area of the sub-intermediate class in the target air supply area;

(12) if the second temperature is higher than the preset temperature, determining a second rotation speed of the air deflector corresponding to the air supply area of the sub-middle type in the target air supply area according to the current second opening angle, the target opening angle and a second preset time length;

(13) and adjusting the air deflector corresponding to the air supply area of the sub-middle type in the target air supply area to a target opening angle based on the second rotating speed.

The implementation process of the present embodiment is similar to the implementation process of closing the air deflector corresponding to the area where the target object is located, and the difference between the implementation process and the implementation process is that when the air deflector corresponding to the area where the target object is located is closed, the final angle of the air deflector is 0 °, and the final angle of the air deflector in the present embodiment is the target opening angle, so that when the second rotation speed of the air deflector corresponding to the area where the target object is located is determined, the target opening angle needs to be added.

In a specific implementation process, the air conditioner further comprises a functional air outlet, namely a fresh air outlet and the like. If the target object exists in the air supply area of each sub-middle class and the air supply area of each sub-edge class, all guide plates of the air conditioner can be closed, the fan is controlled to stop running, and the functional air outlet is normally operated; the functional air outlet is of a hole-shaped structure, the air outlet is dispersed and softened, and the air outlet is soft air.

It should be noted that, although the foregoing embodiments describe each step in a specific sequence, those skilled in the art can understand that, in order to achieve the effect of the present invention, different steps do not have to be executed in such a sequence, and they may be executed simultaneously (in parallel) or in other sequences, and these changes are all within the scope of the present invention.

Further, the invention also provides a control device of the air conditioner.

Referring to fig. 3, fig. 3 is a main block diagram of a control apparatus of an air conditioner according to an embodiment of the present invention. The space where the air-conditioning outlet faces is divided into a middle air supply area and an edge air supply area, wherein the middle air supply area is an area obtained by respectively rotating for a preset angle by taking the central line of the air-conditioning outlet as two axial sides, the edge air supply area is an area except the middle air supply area, and the central line of the air-conditioning outlet is parallel to the air deflector corresponding to the air-conditioning outlet.

As shown in fig. 3, the control apparatus of an air conditioner according to an embodiment of the present invention may include an acquisition module 30, a determination module 31, and a control module 32.

An obtaining module 30, configured to obtain position information of a target object;

the determining module 31 is configured to determine, according to the position information of the target object, a target air supply area where the target object is located;

and the control module 32 is used for controlling the opening angle of the air deflector of the target air supply area according to the target air supply area, so that the air deflector of the target air supply area does not blow air towards the target object any more.

The middle air supply area comprises a sub-middle air supply area corresponding to at least one air deflector, and the edge air supply area comprises a sub-edge air supply area corresponding to at least one air deflector;

the control module 32 is specifically configured to:

if the target air supply area only comprises the air supply areas of the sub-edge types, closing the air deflectors corresponding to the air supply areas of the sub-edge types in the target air supply area;

if the target air supply area only comprises the air supply areas of the sub-middle classes, adjusting the air deflectors corresponding to the air supply areas of the sub-middle classes in the target air supply area to a target opening angle; the target opening angle is determined according to the distance between a target object and the air conditioner;

if the target air supply area simultaneously comprises the air supply areas of the sub-edge type and the air supply areas of the sub-middle type, and the air supply areas of the sub-edge type and the air supply areas of the sub-middle type share the same air deflector, closing the air deflector corresponding to the target air supply area;

if the target air supply area simultaneously comprises the sub-edge air supply area and the sub-middle air supply area, and the sub-edge air supply area and the sub-middle air supply area do not share the same air deflector, closing the air deflector corresponding to the sub-edge air supply area in the target air supply area, and adjusting the air deflector corresponding to the sub-middle air supply area in the target air supply area to a target opening angle.

Wherein the target opening angle is obtained according to the following manner:

substituting the distance into a preset opening angle calculation formula to calculate to obtain the target opening angle

Wherein, the calculation formula of the opening angle is as follows:

R＝a+bs；

wherein, R is a target opening angle, a is an angle corresponding to an edge-type air supply area, b is a constant, and s is a distance between a target object and the air conditioner.

The control device of the air conditioner of the embodiment acquires the position information of the target object; determining a target air supply area where the target object is located according to the position information of the target object; according to the target air supply area, the opening angle of the air deflector of the target air supply area is controlled, so that the air deflector of the target air supply area does not face the target object to supply air any more, air conditioner direct blowing prevention is achieved, different direct blowing prevention air supply modes are performed for the target objects in different air supply areas during air conditioner direct blowing prevention, and the practicability of an air conditioner is improved.

Further, in the foregoing embodiment, the control module 32 is further configured to:

acquiring a current first opening angle of an air deflector corresponding to the air supply area of the sub-edge type in the target air supply area and a first temperature of the air supply area of the sub-edge type in the target air supply area;

if the first temperature is higher than the preset temperature, determining a first rotating speed of an air deflector corresponding to the air supply area of the sub-edge type in the target air supply area according to the current first opening angle and a first preset time length;

and closing the air deflector corresponding to the air supply area of the sub-edge type in the target air supply area based on the first rotating speed.

Further, in the above embodiment, the control module 32 is further configured to:

acquiring a current second opening angle of an air deflector corresponding to the air supply area of the sub-intermediate class in the target air supply area and a second temperature of the air supply area of the sub-intermediate class in the target air supply area;

if the second temperature is higher than the preset temperature, determining a second rotation speed of the air deflector corresponding to the air supply area of the sub-middle type in the target air supply area according to the current second opening angle, the target opening angle and a second preset time length;

and adjusting the air deflector corresponding to the air supply area of the sub-middle class in the target air supply area to a target opening angle based on the second rotating speed.

In the control device of the air conditioner, the technical principles, the solved technical problems, and the generated technical effects of the control device of the air conditioner are similar to each other, and it can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process and related description of the control device of the air conditioner may refer to the contents described in the embodiment of the control method of the air conditioner, and no further description is provided here.

It will be understood by those skilled in the art that all or part of the flow of the method according to the above-described embodiment may be implemented by a computer program, which may be stored in a computer-readable storage medium and used to implement the steps of the above-described embodiments of the method when the computer program is executed by a processor. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer-readable storage medium may include: any entity or device capable of carrying said computer program code, medium, U.S. disk, removable hard disk, magnetic diskette, optical disk, computer memory, read-only memory, random access memory, electrical carrier signal, telecommunications signal, software distribution medium, or the like. It should be noted that the computer readable storage medium may contain content that is subject to appropriate increase or decrease as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, computer readable storage media that does not include electrical carrier signals and telecommunications signals in accordance with legislation and patent practice.

Further, the invention also provides control equipment of the air conditioner. In an embodiment of the control device of the air conditioner according to the present invention, the control device of the air conditioner includes a processor and a storage device, the storage device may be configured to store a program for executing the control method of the smart home device of the above-mentioned method embodiment, and the processor may be configured to execute the program in the storage device, the program including but not limited to the program for executing the control method of the air conditioner of the above-mentioned method embodiment. For convenience of explanation, only the parts related to the embodiments of the present invention are shown, and specific technical details are not disclosed. The control device of the air conditioner may be a control device formed including various electronic devices.

Further, the invention also provides a computer readable storage medium. In one computer-readable storage medium embodiment according to the present invention, the computer-readable storage medium may be configured to store a program for executing the control method of the smart home device of the above-described method embodiment, and the program may be loaded and executed by the processor to implement the control method of the air conditioner. For convenience of explanation, only the parts related to the embodiments of the present invention are shown, and specific technical details are not disclosed. The computer readable storage medium may be a storage device formed by including various electronic devices, and optionally, the computer readable storage medium is a non-transitory computer readable storage medium in the embodiment of the present invention.

Further, it should be understood that, since the configuration of each module is only for explaining the functional units of the apparatus of the present invention, the corresponding physical devices of the modules may be the processor itself, or a part of software, a part of hardware, or a part of a combination of software and hardware in the processor. Thus, the number of individual modules in the figures is merely illustrative.

Those skilled in the art will appreciate that the various modules in the apparatus may be adaptively split or combined. Such splitting or combining of specific modules does not cause the technical solutions to deviate from the principle of the present invention, and therefore, the technical solutions after splitting or combining will fall within the protection scope of the present invention.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (10)

1. The control method of the air conditioner is characterized in that a space where an air conditioner air outlet faces is divided into a middle air supply area and an edge air supply area, wherein the middle air supply area is an area obtained by respectively rotating two sides by preset angles by taking a central line of the air conditioner air outlet as an axial direction, the edge air supply area is an area except the middle air supply area, and the central line of the air conditioner air outlet is parallel to an air deflector corresponding to the air conditioner air outlet; the method comprises the following steps:

acquiring position information of a target object;

determining a target air supply area where the target object is located according to the position information of the target object;

and controlling the opening angle of the air deflector of the target air supply area according to the target air supply area, so that the air deflector of the target air supply area does not face the target object any more for supplying air.

2. The method of claim 1, wherein the middle-type air supply area includes a sub-middle-type air supply area corresponding to the at least one air deflector, and the edge-type air supply area includes a sub-edge-type air supply area corresponding to the at least one air deflector;

controlling the opening angle of the air deflector of the target air supply area, comprising:

if the target air supply area only comprises the air supply areas of the sub-edge types, closing the air deflectors corresponding to the air supply areas of the sub-edge types in the target air supply area;

if the target air supply area only comprises the air supply areas of the sub-middle classes, adjusting the air deflectors corresponding to the air supply areas of the sub-middle classes in the target air supply area to a target opening angle; the target opening angle is determined according to the distance between a target object and the air conditioner;

if the target air supply area simultaneously comprises the sub-edge air supply area and the sub-middle air supply area, and the sub-edge air supply area and the sub-middle air supply area share the same air deflector, closing the air deflector corresponding to the target air supply area;

if the target air supply area simultaneously comprises the sub-edge air supply area and the sub-middle air supply area, and the sub-edge air supply area and the sub-middle air supply area do not share the same air deflector, closing the air deflector corresponding to the sub-edge air supply area in the target air supply area, and adjusting the air deflector corresponding to the sub-middle air supply area in the target air supply area to a target opening angle.

3. The control method of an air conditioner according to claim 2, wherein the target opening angle is determined according to a distance between a target object and the air conditioner, including:

substituting the distance into a preset opening angle calculation formula to calculate to obtain the target opening angle;

wherein, the open angle calculation formula is:

R＝a+bs；

wherein, R is the target opening angle, a is the angle corresponding to the air supply area of an edge class, b is a constant, and s is the distance between the target object and the air conditioner.

4. The method of claim 2, wherein closing the air deflector corresponding to the sub-edge type blowing zone in the target blowing zone comprises:

acquiring a current first opening angle of an air deflector corresponding to the air supply area of the sub-edge type in the target air supply area and a first temperature of the air supply area of the sub-edge type in the target air supply area;

if the first temperature is higher than the preset temperature, determining a first rotating speed of an air deflector corresponding to the air supply area of the sub-edge type in the target air supply area according to the current first opening angle and a first preset time length;

and closing the air deflector corresponding to the air supply area of the sub-edge type in the target air supply area based on the first rotating speed.

5. The method of claim 2, wherein adjusting the air deflector corresponding to the sub-intermediate air supply zone to a target opening angle in the target air supply zone comprises:

acquiring a current second opening angle of an air deflector corresponding to the air supply area of the sub-middle type in the target air supply area and a second temperature of the air supply area of the sub-middle type in the target air supply area;

if the second temperature is higher than the preset temperature, determining a second rotation speed of the air deflector corresponding to the air supply area of the sub-middle type in the target air supply area according to the current second opening angle, the target opening angle and a second preset time length;

and adjusting the air deflector corresponding to the air supply area of the sub-middle class in the target air supply area to a target opening angle based on the second rotating speed.

6. The utility model provides a controlling means of air conditioner which characterized in that, the space that air-conditioning outlet faced is divided into middle type's air supply district and edge type's air supply district, wherein, middle type's air supply district is for using the central line of air-conditioning outlet to rotate the region that obtains after presetting the angle respectively for axial both sides, edge type air supply is the region except for middle type's air supply district, the central line of air-conditioning outlet with the aviation baffle that air-conditioning outlet corresponds parallels, the device includes:

the acquisition module is used for acquiring the position information of the target object;

the determining module is used for determining a target air supply area where the target object is located according to the position information of the target object;

and the control module is used for controlling the opening angle of the air deflector of the target air supply area according to the target air supply area, so that the air deflector of the target air supply area does not blow air towards the target object any more.

7. The control device of claim 6, wherein the middle-type air supply area includes a sub-middle-type air supply area corresponding to the at least one air deflector, and the edge-type air supply area includes a sub-edge-type air supply area corresponding to the at least one air deflector;

the control module is specifically configured to:

if the target air supply area only comprises the air supply areas of the sub-edge types, closing the air deflectors corresponding to the air supply areas of the sub-edge types in the target air supply area;

if the target air supply area only comprises the air supply areas of the sub-middle classes, adjusting the air deflectors corresponding to the air supply areas of the sub-middle classes in the target air supply area to a target opening angle; the target opening angle is determined according to the distance between a target object and the air conditioner;

if the target air supply area simultaneously comprises the sub-edge air supply area and the sub-middle air supply area, and the sub-edge air supply area and the sub-middle air supply area share the same air deflector, closing the air deflector corresponding to the target air supply area;

if the target air supply area simultaneously comprises the sub-edge air supply area and the sub-middle air supply area, and the sub-edge air supply area and the sub-middle air supply area do not share the same air deflector, closing the air deflector corresponding to the sub-edge air supply area in the target air supply area, and adjusting the air deflector corresponding to the sub-middle air supply area in the target air supply area to a target opening angle.

8. The control device of an air conditioner according to claim 7, wherein the control module is further configured to:

substituting the distance into a preset opening angle calculation formula to calculate to obtain the target opening angle;

wherein, the calculation formula of the opening angle is as follows:

R＝a+bs；

wherein, R is the target opening angle, a is the angle corresponding to the air supply area of an edge class, b is a constant, and s is the distance between the target object and the air conditioner.

9. A control apparatus of an air conditioner comprising a processor and a storage device adapted to store a plurality of program codes, characterized in that the program codes are adapted to be loaded and run by the processor to perform the control method of the air conditioner according to any one of claims 1 to 5.

10. A computer-readable storage medium in which a plurality of program codes are stored, characterized in that the program codes are adapted to be loaded and executed by a processor to perform the control method of the air conditioner according to any one of claims 1 to 5.

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