CN113154617A - Air conditioner air swing angle adjusting method and device and computer equipment - Google Patents

Abstract

The application provides an air conditioner wind swinging angle adjusting method and device and computer equipment. And then, calling preset floor height, invalid height and design parameters of the air conditioner, calculating according to the first distance, the third distance, the floor height, the invalid height and the design parameters to obtain a left side wind swinging angle of the air conditioner, and calculating according to the second distance, the third distance, the floor height, the invalid height and the design parameters to obtain a right side wind swinging angle of the air conditioner. And finally, the system controls a wind swinging mechanism of the air conditioner to operate according to the calculated left wind swinging angle and the right wind swinging angle respectively. This application can be according to the actual installation environment dynamic adjustment of air conditioner and control pendulum wind angle, on avoiding pendulum wind to blow the wall, effectively improves the heat transfer effect of air conditioner, can satisfy the pendulum wind effect that the user needed.

Description

Air conditioner air swing angle adjusting method and device and computer equipment

Technical Field

The application relates to the technical field of air conditioners, in particular to a method and a device for adjusting a swing angle of an air conditioner and computer equipment.

Background

A wall-mounted type air conditioner, also called a split type air conditioner, is composed of an indoor unit and an outdoor unit, wherein the indoor unit is installed on an indoor wall. The existing wall-mounted air conditioner is provided with air guide blades capable of automatically swinging air leftwards and rightwards, but the air conditioner is generally designed to swing air leftwards and rightwards at the same angle in the operation process. When the distance between the air conditioner and the walls on two sides is unequal, the air on one side of the air conditioner blows to the walls, the heat exchange effect is affected, and the air swing effect desired by a user cannot be met (the air blowing to one side of the walls is obviously not the air swing effect required by the user).

Disclosure of Invention

The main purpose of the application is to provide an air conditioner wind swinging angle adjusting method, an air conditioner wind swinging angle adjusting device and computer equipment, and the purpose of the method is to solve the defects that in the operation process of the existing air conditioner, the left wind swinging angle and the right wind swinging angle are the same and the heat exchange effect is affected.

In order to achieve the above object, the present application provides a method for adjusting a yaw angle of an air conditioner, where the air conditioner has a yaw function, and the method includes:

respectively collecting a first distance between the air conditioner and a left side wall, a second distance between the air conditioner and a right side wall and a third distance between the air conditioner and a top ceiling;

calling preset floor height, invalid height and design parameters of the air conditioner;

calculating to obtain a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating to obtain a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and controlling a wind swinging mechanism of the air conditioner to operate according to the left wind swinging angle and the right wind swinging angle respectively.

Further, the calculation rule of the left side wind swinging angle is the same as the calculation rule of the right side wind swinging angle, the design parameters comprise the width and the thickness of the air conditioner body, and the step of calculating the left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height and the invalid height comprises the following steps:

calling a preset calculation formula;

substituting the first distance, the third distance, the floor height, the invalid height, the fuselage width and the fuselage thickness into a calculation formula, and calculating to obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

Further, infrared sensor has been arranged respectively to left side end plate, right side end plate and the top end plate of air conditioner, gather respectively the air conditioner with the left side wall the air conditioner with the second distance of right side wall, and the step of the third distance of air conditioner and top ceiling includes:

and acquiring the first distance, the second distance and the third distance through the infrared sensor arranged at the corresponding position on the air conditioner.

Further, after the step of controlling the air swing mechanism of the air conditioner to operate according to the left side air swing angle and the right side air swing angle respectively, the method comprises the following steps:

monitoring whether an adjusting instruction sent by a first user is received within a preset time length or not, wherein the adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, and the adjusting instruction carries a specified wind swinging angle;

if an adjusting instruction sent by a first user is received within a preset time length, controlling a swing mechanism of the air conditioner to work according to the appointed swing angle, and acquiring first identity information of the first user;

and establishing an association relation between the first identity information and the specified swing angle.

Further, after the step of associating the first identity information with the specified yaw angle, the method includes:

when the air conditioner is started, second identity information of a second user is acquired;

judging whether a preset wind swinging angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the wind swinging angle;

and if the preset air swing angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the air swing angle, controlling an air swing mechanism of the air conditioner to work according to the preset air swing angle.

Further, a camera is disposed on the air conditioner, and the step of collecting the first identity information of the first user includes:

acquiring a face image of the first user through the camera;

taking the face image as the first identity information.

The application still provides an adjusting device that air conditioner swung wind angle, the air conditioner has about the function of swinging the wind, the device includes:

the collecting module is used for respectively collecting a first distance between the air conditioner and a left side wall, a second distance between the air conditioner and a right side wall and a third distance between the air conditioner and a top ceiling;

the calling module is used for calling preset floor height, invalid height and design parameters of the air conditioner;

the calculation module is used for calculating a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and the air swinging module is used for controlling an air swinging mechanism of the air conditioner to operate according to the left air swinging angle and the right air swinging angle respectively.

Further, the calculation rule of the left side pendulum wind angle is the same as the calculation rule of the right side pendulum wind angle, the design parameters include the fuselage width and the fuselage thickness of the air conditioner, the calculation module includes:

the calling unit is used for calling a preset calculation formula;

the calculation unit is used for substituting the first distance, the third distance, the floor height and the invalid height into the calculation formula to calculate and obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

Further, infrared sensor has been deployed respectively to left side end plate, right side end plate and the top end plate of air conditioner, collection module includes:

and the first acquisition unit is used for acquiring the first distance, the second distance and the third distance through the infrared sensor arranged at the corresponding position on the air conditioner.

Further, the adjusting device includes:

the monitoring module is used for monitoring whether an adjusting instruction sent by a first user is received within a preset time length, the adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, and the adjusting instruction carries an appointed wind swinging angle;

the adjusting module is used for controlling a swing mechanism of the air conditioner to work according to the appointed swing angle and acquiring first identity information of the first user if an adjusting instruction sent by the first user is received within a preset time length;

and the association module is used for establishing an association relationship between the first identity information and the specified swing angle.

Further, the adjusting device further includes:

the acquisition module is used for acquiring second identity information of a second user when the air conditioner is started;

the judging module is used for judging whether a preset swing angle corresponding to the second identity information is obtained from a preset identity information and swing angle mapping relation table or not;

and the control module is used for controlling the air swing mechanism of the air conditioner to work according to the preset air swing angle if the preset air swing angle corresponding to the second identity information is obtained from the preset mapping relation table of the identity information and the air swing angle.

Further, a camera is disposed on the air conditioner, and the adjusting module includes:

the second acquisition unit acquires the face image of the first user through the camera;

a marking unit configured to take the face image as the first identity information.

The present application further provides a computer device comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of any one of the above methods when executing the computer program.

The present application also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of the method of any of the above.

According to the adjusting method and device for the air conditioner wind swinging angle and the computer equipment, a system of the air conditioner respectively collects a first distance between the air conditioner and a left side wall, a second distance between the air conditioner and a right side wall and a third distance between the air conditioner and a top ceiling. And then, calling preset floor height, invalid height and design parameters of the air conditioner, calculating according to the first distance, the third distance, the floor height, the invalid height and the design parameters to obtain a left side wind swinging angle of the air conditioner, and calculating according to the second distance, the third distance, the floor height, the invalid height and the design parameters to obtain a right side wind swinging angle of the air conditioner. And finally, the system controls a wind swinging mechanism of the air conditioner to operate according to the calculated left wind swinging angle and the right wind swinging angle respectively. This application is through first distance and the second distance of gathering air conditioner and both sides wall respectively, and with the third distance of top ceiling, combine the parameter of air conditioner self and the floor height in installation house, the relevant invalid height of user's height, calculate and obtain the left side pendulum wind angle of air conditioner to the left side pendulum wind and the right side pendulum wind angle of pendulum wind to the right side, thereby the pendulum wind angle about the actual installation environment dynamic adjustment according to the air conditioner is realized, avoid on the pendulum wind blows the wall, effectively improve the heat transfer effect of air conditioner, can satisfy the pendulum wind effect that the user needs.

Drawings

FIG. 1 is a schematic diagram illustrating a method for adjusting a swing angle of an air conditioner according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram illustrating various parameters of a method for adjusting a yaw angle of an air conditioner according to an embodiment of the present disclosure;

fig. 3 is a block diagram of an overall structure of an adjusting device for a swing angle of an air conditioner according to an embodiment of the present disclosure;

fig. 4 is a block diagram schematically illustrating a structure of a computer device according to an embodiment of the present application.

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

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1 and 2, an embodiment of the present application provides a method for adjusting a yaw angle of an air conditioner, where the air conditioner has a yaw function, and the method includes:

s1, respectively collecting a first distance between the air conditioner and the left side wall, a second distance between the air conditioner and the right side wall and a third distance between the air conditioner and the top ceiling;

s2, taking the preset floor height, the preset invalid height and the design parameters of the air conditioner;

s3, calculating a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and S4, controlling the air swinging mechanism of the air conditioner to operate according to the left side air swinging angle and the right side air swinging angle respectively.

In this embodiment, infrared sensor is all installed to the left and right sides end plate and the top end plate of air conditioner. When the wall-mounted air conditioner is installed in a house, the system collects a first distance between the air conditioner and the left side wall and a second distance between the air conditioner and the right side wall through the infrared sensors on the two sides, and collects a third distance between the air conditioner and the top ceiling of the house through the infrared sensor on the top. The system calls pre-recorded floor height, invalid height and design parameters of the air conditioner, wherein the floor height is the height between the ground and the ceiling of a house where the air conditioner is installed, and is preferably set to be 2.7m according to national residential building design specifications; the invalid height is the elbow height of the human body in the standing position, and is preferably set to be 1 m; the design parameters of the air conditioner comprise the width and the thickness of the air conditioner, and the design parameters are correspondingly set according to different types of the air conditioner. And substituting the first distance, the third distance, the floor height, the invalid height and the design parameters of the air conditioner into a preset calculation formula by the system, and calculating to obtain the left side wind swinging angle of the air conditioner swinging to the left side. Similarly, the system substitutes the second distance, the third distance, the floor height, the invalid height and the design parameters of the air conditioner into a preset calculation formula to calculate the right side wind swinging angle of the air conditioner swinging towards the right side. After the left side wind swinging angle and the right side wind swinging angle are obtained through calculation, the system controls the wind swinging mechanism of the air conditioner to operate according to the left side wind swinging angle and the right side wind swinging angle respectively, namely when the wind swinging mechanism of the air conditioner swings left and right, wind swings towards the right side when the wind swinging angle towards the left side reaches the left side wind swinging angle, wind swings towards the left side when the wind swinging angle towards the right side reaches the right side wind swinging angle, and the wind swings back and forth between the left wind swinging angle and the right wind swinging angle. In this embodiment, air conditioning system is through gathering the first distance and the second distance of air conditioner and both sides wall respectively, and with the third distance of top ceiling, combine the parameter of air conditioner self and the floor height in installation house, the relevant invalid height of user's height, calculate the left side pendulum wind angle that obtains the air conditioner and to the left side pendulum wind angle and the right side pendulum wind angle that to the right side pendulum wind, thereby realize according to the actual installation environment dynamic adjustment of air conditioner pendulum wind angle about, avoid pendulum wind to blow on the wall, effectively improve the heat transfer effect of air conditioner, can satisfy the pendulum wind effect that the user needs.

Further, the calculation rule of the left side wind swinging angle is the same as the calculation rule of the right side wind swinging angle, the design parameters comprise the width and the thickness of the air conditioner body, and the step of calculating the left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height and the invalid height comprises the following steps:

s301, calling a preset calculation formula;

s302, substituting the first distance, the third distance, the floor height, the invalid height, the fuselage width and the fuselage thickness into a calculation formula, and calculating to obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

In this embodiment, the system retrieves a calculation formula recorded in advance, and then calculates a first distance between the air conditioner and the left wall, a third distance between the air conditioner and the top ceiling, and a floor heightSubstituting the invalid height and the width and thickness of the air conditioner body into a calculation formula

And calculating to obtain the required left side wind swinging angle. Wherein alpha in the calculation formula is a left side wind swinging angle L₁Is a first distance, W is the fuselage width, H is the fuselage thickness, H₁Is the height of the floor, H₂At a third distance, A is the invalid height. In this embodiment, the calculation rule of the right side yaw angle is the same as the calculation rule of the left side yaw angle, and only the first distance L in the calculation formula needs to be calculated₁Is replaced by a second distance L₂And then the right side wind swinging angle can be obtained through calculation. The system calculates the left side wind swinging angle and the right side wind swinging angle obtained by calculation according to the design parameters of the air conditioner, the specific parameters when the air conditioner is installed in a house and the related parameters of the house and the human body, so that the air conditioner is effectively prevented from blowing to the wall when the air conditioner swings left and right, and the heat exchange efficiency of the air conditioner and the use experience of a user are improved.

Further, infrared sensor has been arranged respectively to left side end plate, right side end plate and the top end plate of air conditioner, gather respectively the air conditioner with the left side wall the air conditioner with the second distance of right side wall, and the step of the third distance of air conditioner and top ceiling includes:

and S101, acquiring the first distance, the second distance and the third distance through the infrared sensors arranged at corresponding positions on the air conditioner.

In this embodiment, the left side end plate, the right side end plate and the top end plate of air conditioner have been deployed respectively and have been had infrared sensor, and the during operation, the system passes through infrared sensor's transmitter to the wall transmission range finding signal, and the receiver of rethread infrared sensor receives the reflection signal that range finding signal formed on the wall. The system obtains the distance between the air conditioner and the wall surface on the corresponding side according to the time from the transmission of the ranging signal to the reception of the reflected signal. According to the method, the system acquires the first distance between the air conditioner and the left side wall, the second distance between the air conditioner and the right side wall and the third distance between the air conditioner and the top ceiling respectively through the infrared sensors arranged at the corresponding positions on the air conditioner, the accuracy of the acquired data is high, and the accuracy of the wind swinging angle obtained through subsequent calculation is effectively improved.

Preferably, the infrared sensor may be replaced with an ultrasonic sensor, that is, an ultrasonic sensor is disposed on each of the left end plate, the right end plate and the top end plate of the air conditioner. During operation, the system sends distance measurement sound waves to the wall through the transmitter of the ultrasonic sensor, and receives reflected sound waves formed by the distance measurement sound waves on the wall through the receiver of the ultrasonic sensor. The system calculates the distance between the air conditioner and the wall surface on the corresponding side according to the time for receiving the reflected sound wave from the transmitted distance measurement sound wave value and the propagation speed of the distance measurement sound wave. According to the method, the system acquires the first distance between the air conditioner and the left side wall, the second distance between the air conditioner and the right side wall and the third distance between the air conditioner and the top ceiling through the ultrasonic sensors arranged at the corresponding positions on the air conditioner.

Further, after the step of controlling the air swing mechanism of the air conditioner to operate according to the left side air swing angle and the right side air swing angle respectively, the method comprises the following steps:

s5, monitoring whether an adjusting instruction sent by a first user is received within a preset time length or not, wherein the adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, and the adjusting instruction carries a specified wind swinging angle;

s6, if an adjusting instruction sent by a first user is received within a preset time, controlling a swing mechanism of the air conditioner to work according to the appointed swing angle, and collecting first identity information of the first user;

and S7, establishing an association relationship between the first identity information and the specified swing angle.

In this embodiment, after the system controls the air swing mechanism of the air conditioner to swing air left and right according to the left air swing angle and the right air swing angle, whether an adjustment instruction sent by the first user through a control device such as a remote controller is received within a preset time (for example, within 1 min) is monitored in real time. The adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, the adjusting instruction carries an appointed wind swinging angle, and the appointed wind swinging angle is used for replacing the current left side wind swinging angle and/or the current right side wind swinging angle of the air conditioner. If the system receives an adjusting instruction sent by the first user within a preset time length, the air swing mechanism of the air conditioner is controlled to work according to the appointed air swing angle (for example, the left side air swing angle obtained through current calculation is 45 degrees, and the appointed air swing angle is 60 degrees, the system replaces the angle of the air swing of the air conditioner towards the left side from 45 degrees to 60 degrees), first identity information capable of representing the identity of the first user is collected, and then the first identity information and the appointed air swing angle are associated. The system establishes an incidence relation between the identity information of each user and the designated wind swinging angle input by the user in the using process of the air conditioner, and establishes a mapping relation table of the identity information and the wind swinging angle. When the air conditioner is started later, if the system can obtain the preset swing angle corresponding to the current user from the mapping relation table of the identity information and the swing angle in a matching mode, the air conditioner is directly controlled to swing left and right according to the preset swing angle so as to meet the personalized requirements of the current user.

Further, after the step of associating the first identity information with the specified yaw angle, the method includes:

s8, when the air conditioner is started, second identity information of a second user is obtained;

s9, judging whether a preset swing angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the swing angle;

and S10, if the preset air swing angle corresponding to the second identity information is obtained from the preset mapping relation table of the identity information and the air swing angle, controlling the air swing mechanism of the air conditioner to work according to the preset air swing angle.

In this embodiment, the system calculates, by the above method, the left side wind swaying angle and the right side wind swaying angle respectively corresponding to the left wind swaying angle and the right wind swaying angle when the air conditioner is initially started. After the initial start, when the air conditioner is started again, the system collects second identity information (such as a face head portrait of a second user through a camera) capable of representing the second user (the second user is a user who uses the air conditioner at the current time). And the system judges whether the preset swing angle corresponding to the second identity information can be obtained by matching from a preset mapping relation table of the identity information and the swing angle. If the preset air swinging angle corresponding to the second identity information is not obtained from the preset mapping relation table of the identity information and the air swinging angle in a matching mode, the second user is indicated to use the air conditioner for the first time, or the second user does not need to perform personalized customization on the air conditioner (namely the second user defaults that the air conditioner performs left-right air swinging according to the calculated left-side air swinging angle and right-side air swinging angle). If the system obtains the preset swing angle corresponding to the second identity information in a matching manner from the preset identity information and swing angle mapping relation table (the preset swing angle can be a swing angle on the left side and/or a swing angle on the right side of the air conditioner, is specifically set according to user requirements and is not limited here), the swing angle of the air conditioner is controlled to work according to the preset swing angle, so that the personalized requirements of the second user are met.

Further, a camera is disposed on the air conditioner, and the step of collecting the first identity information of the first user includes:

s601, acquiring a face image of the first user through the camera;

s602, the face image is taken as the first identity information.

In this embodiment, the air conditioner is provided with a camera, and is specifically arranged on a front panel of the air conditioner. Preferably, the number of the cameras can be multiple, and the cameras are deployed in different areas on the air conditioner as required to acquire the face images of the user using the air conditioner. After receiving an adjusting instruction sent by a first user, the system collects a face image capable of representing identity information of the first user through a camera. Then, the system takes the face image as first identity information of the first user, establishes an incidence relation with a designated wind swinging angle in the adjusting instruction, and stores the incidence relation in an internal database for subsequent calling.

Referring to fig. 3, in an embodiment of the present application, modules and units of the adjusting device are further provided for correspondingly executing steps of the adjusting method for the yaw angle of the air conditioner, and a specific implementation process thereof is not described in detail herein.

According to the adjusting device for the air-conditioning swing angle, a system of an air conditioner respectively collects a first distance between the air conditioner and a left wall, a second distance between the air conditioner and a right wall and a third distance between the air conditioner and a top ceiling. And then, calling preset floor height, invalid height and design parameters of the air conditioner, calculating according to the first distance, the third distance, the floor height, the invalid height and the design parameters to obtain a left side wind swinging angle of the air conditioner, and calculating according to the second distance, the third distance, the floor height, the invalid height and the design parameters to obtain a right side wind swinging angle of the air conditioner. And finally, the system controls a wind swinging mechanism of the air conditioner to operate according to the calculated left wind swinging angle and the right wind swinging angle respectively. This application is through first distance and the second distance of gathering air conditioner and both sides wall respectively, and with the third distance of top ceiling, combine the parameter of air conditioner self and the floor height in installation house, the relevant invalid height of user's height, calculate and obtain the left side pendulum wind angle of air conditioner to the left side pendulum wind and the right side pendulum wind angle of pendulum wind to the right side, thereby the pendulum wind angle about the actual installation environment dynamic adjustment according to the air conditioner is realized, avoid on the pendulum wind blows the wall, effectively improve the heat transfer effect of air conditioner, can satisfy the pendulum wind effect that the user needs.

Referring to fig. 4, a computer device, which may be a server and whose internal structure may be as shown in fig. 3, is also provided in the embodiment of the present application. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the computer designed processor is used to provide computational and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing data such as calculation formulas and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by the processor to realize the method for adjusting the swing angle of the air conditioner.

The processor executes the steps of the method for adjusting the swing angle of the air conditioner:

s1, respectively collecting a first distance between the air conditioner and the left side wall, a second distance between the air conditioner and the right side wall and a third distance between the air conditioner and the top ceiling;

s2, taking the preset floor height, the preset invalid height and the design parameters of the air conditioner;

s3, calculating a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and S4, controlling the air swinging mechanism of the air conditioner to operate according to the left side air swinging angle and the right side air swinging angle respectively.

Further, the calculation rule of the left side wind swinging angle is the same as the calculation rule of the right side wind swinging angle, the design parameters comprise the width and the thickness of the air conditioner body, and the step of calculating the left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height and the invalid height comprises the following steps:

s301, calling a preset calculation formula;

s302, substituting the first distance, the third distance, the floor height, the invalid height, the fuselage width and the fuselage thickness into a calculation formula, and calculating to obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

Further, infrared sensor has been arranged respectively to left side end plate, right side end plate and the top end plate of air conditioner, gather respectively the air conditioner with the left side wall the air conditioner with the second distance of right side wall, and the step of the third distance of air conditioner and top ceiling includes:

and S101, acquiring the first distance, the second distance and the third distance through the infrared sensors arranged at corresponding positions on the air conditioner.

Further, after the step of controlling the air swing mechanism of the air conditioner to operate according to the left side air swing angle and the right side air swing angle respectively, the method comprises the following steps:

s5, monitoring whether an adjusting instruction sent by a first user is received within a preset time length or not, wherein the adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, and the adjusting instruction carries a specified wind swinging angle;

s6, if an adjusting instruction sent by a first user is received within a preset time, controlling a swing mechanism of the air conditioner to work according to the appointed swing angle, and collecting first identity information of the first user;

and S7, establishing an association relationship between the first identity information and the specified swing angle.

Further, after the step of associating the first identity information with the specified yaw angle, the method includes:

s8, when the air conditioner is started, second identity information of a second user is obtained;

s9, judging whether a preset swing angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the swing angle;

and S10, if the preset air swing angle corresponding to the second identity information is obtained from the preset mapping relation table of the identity information and the air swing angle, controlling the air swing mechanism of the air conditioner to work according to the preset air swing angle.

Further, a camera is disposed on the air conditioner, and the step of collecting the first identity information of the first user includes:

s601, acquiring a face image of the first user through the camera;

s602, the face image is taken as the first identity information.

An embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the method for adjusting the swing angle of the air conditioner includes:

s1, respectively collecting a first distance between the air conditioner and the left side wall, a second distance between the air conditioner and the right side wall and a third distance between the air conditioner and the top ceiling;

s2, taking the preset floor height, the preset invalid height and the design parameters of the air conditioner;

s3, calculating a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and S4, controlling the air swinging mechanism of the air conditioner to operate according to the left side air swinging angle and the right side air swinging angle respectively.

Further, the calculation rule of the left side wind swinging angle is the same as the calculation rule of the right side wind swinging angle, the design parameters comprise the width and the thickness of the air conditioner body, and the step of calculating the left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height and the invalid height comprises the following steps:

s301, calling a preset calculation formula;

s302: will beSubstituting the first distance, the third distance, the floor height, the invalid height, the fuselage width and the fuselage thickness into a calculation formula, and calculating to obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

Further, infrared sensor has been arranged respectively to left side end plate, right side end plate and the top end plate of air conditioner, gather respectively the air conditioner with the left side wall the air conditioner with the second distance of right side wall, and the step of the third distance of air conditioner and top ceiling includes:

and S101, acquiring the first distance, the second distance and the third distance through the infrared sensors arranged at corresponding positions on the air conditioner.

Further, after the step of controlling the air swing mechanism of the air conditioner to operate according to the left side air swing angle and the right side air swing angle respectively, the method comprises the following steps:

s5, monitoring whether an adjusting instruction sent by a first user is received within a preset time length or not, wherein the adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, and the adjusting instruction carries a specified wind swinging angle;

s6, if an adjusting instruction sent by a first user is received within a preset time, controlling a swing mechanism of the air conditioner to work according to the appointed swing angle, and collecting first identity information of the first user;

and S7, establishing an association relationship between the first identity information and the specified swing angle.

Further, after the step of associating the first identity information with the specified yaw angle, the method includes:

s8, when the air conditioner is started, second identity information of a second user is obtained;

s9, judging whether a preset swing angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the swing angle;

and S10, if the preset air swing angle corresponding to the second identity information is obtained from the preset mapping relation table of the identity information and the air swing angle, controlling the air swing mechanism of the air conditioner to work according to the preset air swing angle.

Further, a camera is disposed on the air conditioner, and the step of collecting the first identity information of the first user includes:

s601, acquiring a face image of the first user through the camera;

s602, the face image is taken as the first identity information.

It will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by hardware associated with instructions of a computer program, which may be stored on a non-volatile computer-readable storage medium, and when executed, may include processes of the above embodiments of the methods. Any reference to memory, storage, database, or other medium provided herein and used in the examples may include non-volatile and/or volatile memory. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double-rate SDRAM (SSRSDRAM), Enhanced SDRAM (ESDRAM), synchronous link (Synchlink) DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, first object, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, first object, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of another identical element in a process, apparatus, first object or method that comprises the element.

The above description is only for the preferred embodiment of the present application and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. A method for adjusting the swing angle of an air conditioner is characterized in that the air conditioner has a left-right swing function, and the method comprises the following steps:

respectively collecting a first distance between the air conditioner and a left side wall, a second distance between the air conditioner and a right side wall and a third distance between the air conditioner and a top ceiling;

calling preset floor height, invalid height and design parameters of the air conditioner;

calculating to obtain a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating to obtain a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and controlling a wind swinging mechanism of the air conditioner to operate according to the left wind swinging angle and the right wind swinging angle respectively.

2. The method for adjusting the yaw angle of an air conditioner according to claim 1, wherein the calculation rule of the yaw angle on the left side is the same as the calculation rule of the yaw angle on the right side, the design parameters include the width and the thickness of the body of the air conditioner, and the step of calculating the yaw angle on the left side of the air conditioner according to the first distance, the third distance, the floor height and the invalid height includes:

calling a preset calculation formula;

substituting the first distance, the third distance, the floor height, the invalid height, the fuselage width and the fuselage thickness into a calculation formula, and calculating to obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

3. The method for adjusting the yaw angle of an air conditioner according to claim 1, wherein the step of respectively disposing infrared sensors on the left end plate, the right end plate and the top end plate of the air conditioner, and respectively collecting a first distance between the air conditioner and the left wall, a second distance between the air conditioner and the right wall and a third distance between the air conditioner and the top ceiling comprises the steps of:

and acquiring the first distance, the second distance and the third distance through the infrared sensor arranged at the corresponding position on the air conditioner.

4. The method for adjusting the yaw angle of an air conditioner according to claim 1, wherein after the step of controlling the yaw mechanism of the air conditioner to operate according to the left yaw angle and the right yaw angle respectively, the method comprises the following steps:

monitoring whether an adjusting instruction sent by a first user is received within a preset time length or not, wherein the adjusting instruction is used for controlling the air conditioner to adjust the left side wind swinging angle and/or the right side wind swinging angle, and the adjusting instruction carries a specified wind swinging angle;

if an adjusting instruction sent by a first user is received within a preset time length, controlling a swing mechanism of the air conditioner to work according to the appointed swing angle, and acquiring first identity information of the first user;

and establishing an association relation between the first identity information and the specified swing angle.

5. The method for adjusting the yaw angle of an air conditioner according to claim 4, wherein the step of associating the first identity information with the designated yaw angle is followed by the step of:

when the air conditioner is started, second identity information of a second user is acquired;

judging whether a preset wind swinging angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the wind swinging angle;

and if the preset air swing angle corresponding to the second identity information is obtained from a preset mapping relation table of the identity information and the air swing angle, controlling an air swing mechanism of the air conditioner to work according to the preset air swing angle.

6. The method for adjusting the yaw angle of the air conditioner according to claim 4, wherein a camera is disposed on the air conditioner, and the step of collecting the first identity information of the first user includes:

acquiring a face image of the first user through the camera;

taking the face image as the first identity information.

7. The utility model provides an adjusting device of air conditioner pendulum wind angle which characterized in that, the air conditioner has and controls pendulum wind function, the device includes:

the collecting module is used for respectively collecting a first distance between the air conditioner and a left side wall, a second distance between the air conditioner and a right side wall and a third distance between the air conditioner and a top ceiling;

the calling module is used for calling preset floor height, invalid height and design parameters of the air conditioner;

the calculation module is used for calculating a left side wind swinging angle of the air conditioner according to the first distance, the third distance, the floor height, the invalid height and the design parameters, and calculating a right side wind swinging angle of the air conditioner according to the second distance, the third distance, the floor height, the invalid height and the design parameters;

and the air swinging module is used for controlling an air swinging mechanism of the air conditioner to operate according to the left air swinging angle and the right air swinging angle respectively.

8. The adjusting device of the yaw angle of the air conditioner according to claim 7, wherein the calculation rule of the yaw angle on the left side is the same as the calculation rule of the yaw angle on the right side, the design parameters include the width and thickness of the air conditioner body, and the calculation module includes:

the calling unit is used for calling a preset calculation formula;

the calculation unit is used for substituting the first distance, the third distance, the floor height and the invalid height into the calculation formula to calculate and obtain the left side wind swinging angle, wherein the calculation formula is as follows:

alpha is the left side wind swinging angle, L₁W is the width of the body, H is the thickness of the body, H is the first distance₁Is the floor height H₂And a is the invalid height.

9. A computer device comprising a memory and a processor, the memory having stored therein a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method according to any of claims 1 to 6.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.

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