CN114110960B - Control method and device for air supply position of air conditioner, computer equipment and storage medium - Google Patents

Abstract

The invention relates to the technical field of air conditioners, and provides a control method and device for an air supply position of an air conditioner, computer equipment and a storage medium, wherein the control method comprises the following steps: receiving a first instruction sent by a client, wherein the first instruction is used for confirming that a fan blade of an air conditioner is at a first preset position; acquiring a first preset angle of the wind blade relative to a preset plane from the air conditioner based on a first instruction; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the wind blade is at a second preset position; acquiring a second preset angle of the wind blade relative to a preset plane from the air conditioner based on a second instruction; and sending the first preset angle and the second preset angle to the client so that the client generates and displays an angle control bar with the angle range between the first preset angle and the second preset angle. According to the invention, the flexible control of the air supply position of the air conditioner according to the angle control strip is finally realized through the range of the actual swing of the air blades of the air conditioner represented by the first preset angle and the second preset angle.

Description

Control method and device for air supply position of air conditioner, computer equipment and storage medium

Technical Field

The present invention relates to the field of air conditioner technologies, and in particular, to a method and apparatus for controlling an air supply position of an air conditioner, a computer device, and a storage medium.

Background

With the continuous improvement of the living standard of people, the air conditioner is very popular, is almost a necessary household appliance for every household, and meanwhile, the requirements of people on the air conditioner are also higher and higher, so that the air conditioner not only needs the diversification of functions of the air conditioner, such as the most basic refrigeration and heating, but also has the functions of dust removal, sterilization and the like, and the air supply position of the air conditioner is also required to be flexibly controlled.

Disclosure of Invention

The invention solves the problem of flexibly controlling the air supply position of the air conditioner by combining the range of the actual swing of the air blade of the air conditioner.

In order to solve the above problems, the present invention provides a control method for an air supply position of an air conditioner, which is applied to a cloud server, wherein the cloud server is in communication connection with both an air conditioner and a client, and the method comprises: receiving a first instruction sent by the client, wherein the first instruction is used for confirming that the fan blade of the air conditioner is at a first preset position; based on the first instruction, a first preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the fan blade is at a second preset position; based on the second instruction, a second preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; and sending the first preset angle and the second preset angle to the client so that the client generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle.

Compared with the prior art, the control method for the air supply position of the air conditioner has the following advantages: the method comprises the steps that a first instruction and a second instruction which are respectively sent by a client are sent to a cloud server, the first instruction and the second instruction are respectively used for confirming that fan blades of an air conditioner are located at a first preset position and a second preset position, the cloud server obtains a first preset angle and a second preset angle of each sub-blade relative to a preset plane from the air conditioner based on the first instruction and the second instruction, the cloud server sends the first preset angle and the second preset angle to the client, the client generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle, and therefore the fan blades of the air conditioner are characterized by the first preset angle and the second preset angle in an actual swinging range, so that the client generates and displays an angle control bar with the angle range between the first preset angle and the second preset angle, and flexible control of the air supply position of the air conditioner according to the angle control bar is finally achieved.

Further, the method further comprises:

acquiring a historical angle configured by a user in a preset period, wherein the historical angle is an angle of the fan blade set by the user based on the angle control bar during working;

Analyzing the historical angle to obtain a recommended angle; and controlling the fan blades of the air conditioner to work according to the recommended angle.

Further, the historical angles are multiple, and the step of analyzing the historical angles to obtain the recommended angles includes:

if the number of the history angles is smaller than a preset value, taking the target history angle with the largest occurrence frequency in the history angles as a recommended angle;

if the number of the historical angles is greater than or equal to the preset value, acquiring the setting time when each historical angle is set and the corresponding running mode of the air conditioner, and determining the recommended angle according to all the historical angles and the corresponding setting time and running mode.

The invention also provides a control method of the air supply position of the air conditioner, which is applied to a client, wherein the client is in communication connection with a cloud server, and the cloud server is in communication connection with the air conditioner, and the method comprises the following steps: receiving a selection operation of a user for selecting an air outlet mode based on an angle control bar displayed by the client, wherein the angle control bar is generated according to a first preset angle and a second preset angle sent by the cloud server, and the acquisition modes of the first preset angle and the second preset angle are as follows: receiving a first instruction sent by the client, wherein the first instruction is used for confirming that the fan blade of the air conditioner is at a first preset position; based on the first instruction, a first preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the fan blade is at a second preset position; based on the second instruction, a second preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; determining an air outlet mode of the fan blade according to the air outlet mode; and sending the air outlet mode to the cloud server, so that the cloud server controls the fan blades of the air conditioner to outlet air according to the air outlet mode.

Further, the air-out mode comprises a fixed-point air-out mode, and the selected operation comprises an operation of selecting a first target position on the angle control bar by a user; the step of determining the air outlet mode of the fan blade according to the air outlet mode comprises the following steps:

calculating a first target angle according to the first target position, the first preset angle, the second preset position and the second preset angle;

and setting the air outlet mode of the air blade to be fixed at the position of the first target angle.

Further, the air outlet mode further comprises a range swing air outlet mode, and the selected operation comprises a second target position and a third target position selected by a user on the angle control bar; the step of determining the air outlet mode of the fan blade according to the air outlet mode comprises the following steps:

calculating a second target angle according to the second target position, the first preset angle, the second preset position and the second preset angle;

calculating a third target angle according to the third target position, the first preset angle, the second preset position and the second preset angle;

And setting the air outlet mode of the air blade to swing between the second target angle and the third target angle.

Further, the air outlet mode further includes a full swing air outlet mode, and the step of determining the air outlet mode of the fan blade according to the air outlet mode includes:

and setting the air outlet mode of the air blade to swing between the first preset angle and the second preset angle.

The invention also provides a control device of the air supply position of the air conditioner, which is applied to a cloud server, wherein the cloud server is in communication connection with the air conditioner and the client, and the device comprises: the first receiving module is used for receiving a first instruction sent by the client, and the first instruction is used for confirming that the fan blade of the air conditioner is at a first preset position; the acquisition module is used for acquiring a first preset angle of the fan blade relative to a preset plane from the air conditioner based on the first instruction; the first receiving module is further configured to receive a second instruction sent by the client, where the second instruction is used to confirm that the fan blade is at a second preset position; the acquisition module is further used for acquiring a second preset angle of the fan blade relative to a preset plane from the air conditioner based on the second instruction; the first sending module is used for sending the first preset angle and the second preset angle to the client so that the client can generate and display an angle control bar with the angle range between the first preset angle and the second preset angle.

The invention also provides a control device of the air supply position of the air conditioner, which is applied to a client, wherein the client is in communication connection with a cloud server, the cloud server is in communication connection with the air conditioner, and the device comprises: the second receiving module is configured to receive a selection operation of selecting an air outlet mode based on an angle control bar displayed by the client, where the angle control bar is generated according to a first preset angle and a second preset angle sent by the cloud server, and an acquisition mode of the first preset angle and the second preset angle is as follows: receiving a first instruction sent by the client, wherein the first instruction is used for confirming that the fan blade of the air conditioner is at a first preset position; based on the first instruction, a first preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the fan blade is at a second preset position; based on the second instruction, a second preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; the determining module is used for determining the air outlet mode of the fan blade according to the air outlet mode; the second sending module is used for sending the air outlet mode to the cloud server so that the cloud server controls the fan blades of the air conditioner to outlet air according to the air outlet mode.

The invention also provides a computer device, which comprises a memory and a processor, wherein the memory stores a computer program, and the processor realizes the control method of the air conditioner air supply position applied to the cloud server or the control method of the air conditioner air supply position applied to the client when executing the computer program.

The present invention also provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements a method for controlling an air-conditioner air-supply position applied to a cloud server as described above, or implements a method for controlling an air-conditioner air-supply position applied to a client as described above.

Drawings

Fig. 1 is an exemplary diagram of an application scenario provided by the present invention.

Fig. 2 is a block schematic diagram of a computer device according to the present invention.

Fig. 3 is a flow chart of a control method of an air supply position of an air conditioner applied to a cloud server.

Fig. 4 is an exemplary diagram of leftmost and rightmost positions of a lateral swing of a wind blade provided by the present invention.

Fig. 5 is an exemplary view of an angle control bar provided by the present invention.

Fig. 6 is a flowchart of another method for controlling an air supply position of an air conditioner applied to a cloud server according to the present invention.

Fig. 7 is a flowchart of a method for controlling an air supply position of an air conditioner applied to a client according to the present invention.

Fig. 8 is a flowchart of another method for controlling an air supply position of an air conditioner applied to a client according to the present invention.

Fig. 9 is an exemplary diagram of an operation in a fixed point air outlet mode according to the present invention.

Fig. 10 is a flowchart of another method for controlling an air supply position of an air conditioner applied to a client according to the present invention.

FIG. 11 is a diagram illustrating an exemplary operation in a range swing air out mode provided by the present invention.

Fig. 12 is a flowchart of another method for controlling an air supply position of an air conditioner applied to a client according to the present invention.

Fig. 13 is a block diagram illustrating a control apparatus for an air supply position of a first air conditioner according to the present invention.

Fig. 14 is a block diagram illustrating a control apparatus for an air supply position of a second air conditioner according to the present invention.

Reference numerals illustrate:

10-a computer device; 11-a processor; 12-memory; 13-bus; 14-a communication interface; 20-a cloud server; 30-client; 40-an air conditioner; 50-a router; 100-a control device of the air supply position of the first air conditioner; 110-a first receiving module; 120-an acquisition module; 130-a first transmitting module; 140-recommendation module; 200-a control device of the air supply position of the second air conditioner; 210-a second receiving module; 220-a determination module; 230-a second transmitting module.

Detailed Description

In order to flexibly control the air supply position of the air conditioner, some air conditioner users can directly break off the air blades by hands even to break off the air blades to a proper position, which is dangerous and easy to get full of hand dust. Some users control the swing of the wind blades of the air conditioner through the remote controller, and when the wind blades swing to a proper position, the wind blades are controlled to stop swinging, so that the mode is complicated to adjust, the operation is not visual, and the operation efficiency is not high.

Some air conditioner manufacturers provide a function of controlling air conditioner through a mobile phone end APP, wherein the function comprises a function of controlling swing of the air blades, but the function only supports a preset number of grid positions, only controls the air blades to be in the preset grid positions, the limitation is large, and the actual swing range of the air blades of different air conditioners is different, so that the mode cannot be flexibly controlled based on the actual swing range of the air blades of each air conditioner.

In view of the above, embodiments of the present invention provide a method, an apparatus, a computer device and a storage medium for controlling an air supply position of an air conditioner, so as to implement flexible control of the air supply position of the air conditioner in combination with a range in which a fan blade of the air conditioner can actually swing.

Referring to fig. 1, fig. 1 is an exemplary diagram of an application scenario provided by the present invention, communication modules, such as a WIFI module, are configured in the cloud server 20, the client 30 and the air conditioner 40, and the cloud server 20 is in communication connection with the client 30 and the air conditioner 40 through the communication modules, and the communication mode of the air conditioner 40 may be a WIFI mode or a wireless communication mode such as bluetooth.

The client 30 is provided with an APP program, a user performs network distribution operation on the air conditioner 40 through the APP of the client 30, and a Wi-Fi module in the air conditioner 40 is connected with a router, so that the air conditioner 40 is connected to a cloud server through the router 50, and then the air conditioner 40 is bound with a login account of the APP, so that the user can operate through the APP, and control operation on the air conditioner 40 is realized through the cloud server 20.

When the fan blade of the air conditioner 40 is at the first preset position, the user sends a first instruction to the cloud server 20 through the client 30, the cloud server 20 obtains a first preset angle of the fan blade relative to the preset plane from the air conditioner based on the first instruction, when the fan blade of the air conditioner 40 is at the second preset position, the user sends a second instruction to the cloud server 20 through the client 30, the cloud server 20 obtains a second preset angle of the fan blade relative to the preset plane from the air conditioner based on the second instruction, the cloud server 20 sends the first preset angle and the second preset angle to the client 30, the client 30 generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle, for example, the client 30 displays the angle control bar on the page of the APP, and the user can operate on the angle control bar to set the air outlet mode of the fan blade, so that flexible control of the air supply position of the air conditioner is finally achieved.

The cloud server 20 may be a server group or a server cluster formed by entity servers, or may be a virtual machine group or a virtual machine cluster formed by a set of virtual machines capable of implementing entity servers, and the cloud server 20 may be replaced by an independent server.

The client 30 may be a mobile terminal such as a mobile phone, a notebook computer, a tablet computer, etc.

The air conditioner 40 may be a home air conditioner or a commercial air conditioner, etc.

Referring to fig. 2, fig. 2 is a schematic block diagram of the computer device 10 provided by the present invention, and the computer device 10 may be the cloud server 20 or the client 30 in fig. 1. When the computer device 10 is the cloud server 20 in fig. 1, the method for controlling the air supply position of the air conditioner applied to the cloud server 20 in the embodiment of the present invention is used to implement the method for controlling the air supply position of the air conditioner applied to the client 30 in the embodiment of the present invention when the computer device 10 is the client 30 in fig. 1.

The computer device 10 comprises a processor 11, a memory 12, a bus 13 and a communication interface 14, the processor 11, the memory 12 and the communication interface 14 being connected by the bus 13.

The processor 11 may be an integrated circuit chip with signal processing capabilities. In the implementation process, each step of the method for controlling the air supply position of the air conditioner can be completed by an integrated logic circuit of hardware or an instruction in a software form in the processor 11. The processor 11 may be a general-purpose processor, including a central processing unit (Central Processing Unit, CPU for short), a network processor (Network Processor, NP for short), and the like; but may also be a Digital Signal Processor (DSP), application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components.

The memory 12 is used for storing programs, such as a control device applied to an air conditioner air supply position of the cloud server 20 or a control device applied to an air conditioner air supply position of the client 30 in the embodiment of the present invention. The control method devices of the air supply position of the air conditioner comprise at least one software functional module which can be stored in the memory 12 or solidified in the computer device 10 in the form of software or firmware (firmware). After receiving the execution instruction, the processor 11 executes the program to implement the control method of the air conditioner air supply position applied to the cloud server 20 or the control method of the air conditioner air supply position applied to the client 30 disclosed in the following embodiments.

There may be multiple communication interfaces 14, and the computer device 10 may communicate with other devices via different communication interfaces 14.

Based on fig. 1 and fig. 2, the embodiment of the invention also provides a control method for an air supply position of an air conditioner applied to a cloud server, please refer to fig. 3, fig. 3 is a flow chart diagram of the control method for the air supply position of the air conditioner applied to the cloud server, the method comprises the following steps:

step S100, a first instruction sent by a client is received, wherein the first instruction is used for confirming that a fan blade of an air conditioner is at a first preset position.

In this embodiment, the first instruction may be triggered by clicking a confirmation button on the APP of the client 30 when the user confirms that the fan blade of the air conditioner is at the first preset position, where the user may control the sub-blade to be at the first preset position through a remote control board of the air conditioner, or may control the sub-blade to be at the first preset position through a control function of the sub-blade provided by the APP.

In this embodiment, the first preset position may be the leftmost position or the rightmost position when the fan blade swings laterally, or may be the uppermost position or the lowermost position when the fan blade swings longitudinally, specifically, referring to fig. 4, fig. 4 is an exemplary diagram of the leftmost position and the rightmost position of the fan blade swings laterally according to the present invention, which is related to the installation position of the air conditioner.

Step S110, based on a first instruction, a first preset angle of the wind blade relative to a preset plane is obtained from the air conditioner.

In this embodiment, when the first preset position is the leftmost position or the rightmost position of the fan blade during the horizontal swing, the first preset angle is the angle of the fan blade relative to the preset horizontal plane, and when the first preset position is the uppermost position or the lowermost position of the fan blade during the longitudinal swing, the first preset angle is the angle of the fan blade relative to the preset vertical plane, and please refer to fig. 4, in which the first angle when the first preset position is the leftmost position of the fan blade during the horizontal swing and the second angle when the first preset position is the rightmost position of the fan blade during the horizontal swing are identified, and the identification in fig. 4 is not performed any more.

Step S120, receiving a second instruction sent by the client, where the second instruction is used to confirm that the wind blade is at a second preset position.

In this embodiment, the second preset position corresponds to the first preset position, where the first preset position and the second preset position respectively indicate that the wind blade can swing to a preset edge position when swinging in a preset direction, for example, the first preset position is a leftmost position when swinging the wind blade horizontally, the second preset position is a rightmost position when swinging the wind blade horizontally, or the first preset position is a rightmost position when swinging the wind blade horizontally, and the second preset position is a leftmost position when swinging the wind blade horizontally; the first preset position is the uppermost position of the fan blade when the fan blade longitudinally swings, the second preset position is the lowermost position of the fan blade when the fan blade longitudinally swings, or the first preset position is the lowermost position of the fan blade when the fan blade longitudinally swings, and the second preset position is the uppermost position of the fan blade when the fan blade longitudinally swings.

Step S130, based on a second instruction, a second preset angle of the wind blade relative to a preset plane is obtained from the air conditioner.

In this embodiment, similar to the correspondence between the second preset position and the first preset position, correspondingly, the second preset angle corresponds to the first preset angle, and a person skilled in the art can understand the second preset angle according to the above description without performing creative labor, which is not described herein.

Step S140, the first preset angle and the second preset angle are sent to the client, so that the client generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle.

In this embodiment, the angle control bar may be a display bar with a preset length, where two end points of the display bar respectively correspond to a first preset angle and a second preset angle, and a user may obtain an angle corresponding to the position by specifying different positions on the angle control bar, so as to set a swing angle of the fan blade, thereby setting an air outlet mode of the fan blade, and finally realizing flexible control of an actual swing range of the fan blade.

According to the method provided by the embodiment of the invention, through the range of the air conditioner fan blade which is characterized by the first preset angle and the second preset angle and can be actually swung, so that the client side can generate and display the angle control strip with the angle range between the first preset angle and the second preset angle, and finally the flexible control of the air supply position of the air conditioner according to the angle control strip is realized, and the purpose of flexibly controlling the air supply position of the air conditioner by combining the range of the air conditioner fan blade which can be actually swung is achieved.

In this embodiment, in order to improve the efficiency of controlling the air supply position of the air conditioner by the user, the embodiment of the present invention further provides an implementation manner of analyzing the history angle configured by the user to obtain the recommended angle, referring to fig. 6, fig. 6 is a flow chart of another control method applied to the air supply position of the air conditioner of the cloud server, which is provided by the present invention, and the method further includes the following steps:

step S150, obtaining a historical angle configured by a user in a preset period, wherein the historical angle is an angle of the fan blade set by the user based on an angle control bar during working.

In the present embodiment, the preset period may be set as needed, for example, the last week, the last month, or the like. The historical angle is an angle set by the user during the operation of the split blade in a preset period, for example, in the last week, the historical angles set by the user in 7 days from monday to sunday are respectively: 20 °, 50 °, 20 °, 30 °, 50 °.

It should be noted that, the angle of the fan blade set by the user based on the angle control bar during operation may be a fixed angle or an angle range, when the angle is a fixed angle, the fan blade is fixed at the fixed angle, and when the angle is an angle range, the fan blade swings within the angle range.

Step S160, analyzing the historical angle to obtain a recommended angle.

In this embodiment, the recommended angle obtained by analyzing the historical angle is usually the angle most suitable for the user to set, and the user sets according to the recommended angle, or directly controls the wind blade to work according to the recommended angle after the air conditioner is preset to be started, so that the user can efficiently control the air conditioner.

In this embodiment, the manner of analyzing the history angle may be: the most recently set historical angle is used as a recommended angle, or the historical angle with the largest setting times in a preset period is used as the recommended angle, and the historical angle can be input into a preset recommended model so as to output the recommended angle which is most suitable for the use habit of the user.

In this embodiment, in order to make the recommended angle more in line with the habit of the user, when the data amounts of the historical angles are different, different analysis modes may be adopted, so the embodiment of the present invention provides an implementation manner for analyzing the historical angles according to the historical angles of the different data amounts, where the manner may be:

First, if the number of the history angles is smaller than a preset value, the target history angle with the largest occurrence number in the history angles is used as a recommended angle.

In the present embodiment, the preset value may be set according to an actual scene, for example, the preset value is set to 10.

As another embodiment, the number of the historical angles greater than the preset angle threshold may be counted, and if the number is greater than the preset number, the preset angle threshold is used as the recommended angle.

And if the number of the historical angles is larger than or equal to a preset value, acquiring the setting time and the corresponding running mode of the air conditioner when each historical angle is set, and determining the recommended angle according to all the historical angles and the corresponding setting time and running mode.

In this embodiment, when the data amount of the history angle is larger, the analysis may be performed from more dimensions, including, but not limited to, a time period in which the user sets the angle, an operation mode of the air conditioner, and the like, so that the recommended angle more conforms to the usage habit of the user. And analyzing the normal setting of the historical angle and taking the historical angle as a recommended angle when the operation mode of the air conditioner is a heating mode and the time period of the user setting angle is a dining time, so that the air conditioner can be recommended to be set when the current time is a preset dining time and the operation mode is the heating mode, and the fan blades work according to the recommended angle, thereby quickly realizing the setting requirement of the user.

Step S170, controlling the air blades of the air conditioner to work according to the recommended angle.

In this embodiment, the recommended angle may be a fixed angle or an angle range, and when the recommended angle is a fixed angle, the fan blade is fixed at the recommended angle, and when the recommended angle is an angle range, the fan blade swings within a range represented by the recommended angle.

In this embodiment, after the client 30 generates and displays the angle control bar according to the first preset angle and the second preset angle obtained by the above steps, in order to enable the user to perform angle configuration based on the angle control bar and finally achieve the purpose of controlling the air supply position of the air conditioner, the embodiment of the present invention further provides a control method of the air supply position of the air conditioner applied to the client 30, please refer to fig. 7, fig. 7 is a flow chart of a control method of the air supply position of the air conditioner applied to the client, which includes the following steps:

step S200, receiving a selection operation of a user for selecting an air outlet mode based on an angle control bar displayed by a client, wherein the angle control bar is generated according to a first preset angle and a second preset angle sent by a cloud server, and the acquisition modes of the first preset angle and the second preset angle are as follows: receiving a first instruction sent by a client, wherein the first instruction is used for confirming that a fan blade of an air conditioner is at a first preset position; acquiring a first preset angle of the wind blade relative to a preset plane from the air conditioner based on a first instruction; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the wind blade is at a second preset position; based on the second instruction, a second preset angle of the wind blade relative to a preset plane is obtained from the air conditioner.

In this embodiment, the air-out mode includes at least the following three modes: the wind blade device comprises a fixed-point wind outlet mode, a range swing wind outlet mode and a full swing wind outlet mode, wherein the position of the wind blade in the fixed-point wind outlet mode is in a fixed angle, the fixed angle can be set through an angle control bar, the wind blade in the range swing wind outlet mode swings in a specified range, the full swing wind outlet mode is a special case of the range swing wind outlet mode, the wind blade in the full swing wind outlet mode swings in a preset range, and the preset range is a range between a first preset angle and a second preset angle.

Step S210, determining the air outlet mode of the air blade according to the air outlet mode.

Step S220, the air outlet mode is sent to the cloud server, so that the cloud server controls the fan blades of the air conditioner to outlet air according to the air outlet mode.

In this embodiment, the air outlet mode in the fixed-point air outlet mode may be represented by a fixed angle, and at this time, the cloud controller controls the fan blade of the air conditioner to swing to the fixed angle; the range swing air outlet mode and the air outlet mode in the full swing air outlet mode can be characterized by two angles, and at the moment, the cloud controller controls the wind blades of the air conditioner to swing between the two angles.

Based on fig. 7, the embodiment of the application further provides a specific implementation manner for determining the air outlet mode of the air blade in different air outlet modes.

First, describing a specific implementation manner of determining an air outlet mode of an air blade when the air outlet mode is a fixed-point air outlet mode, referring to fig. 8, fig. 8 is a flowchart of another control method for an air conditioner air supply position applied to a client, and step S210 includes the following sub-steps:

step S210-10, calculating a first target angle according to the first target position, the first preset angle, the second preset position and the second preset angle.

In this embodiment, as a specific implementation manner, the first target angle corresponding to the first target position may be calculated according to the distance between the first preset position and the second preset position and the angle difference between the first preset angle and the second preset angle. Referring to fig. 9, fig. 9 is an exemplary diagram of an operation in a fixed-point air outlet mode provided by the present application, where a range swing, a fixed-point air outlet mode, and a full swing air outlet mode in fig. 9 correspond to a range swing air outlet mode, a fixed-point air outlet mode, and a full swing air outlet mode in an embodiment of the present application, a left swing air and a right swing air correspond to respective angle control bars, circles on the left swing air and the right swing air angle control bars represent balls, a user slides the balls to a first target position by sliding the balls left and right on the angle control bars, the corresponding angle of the first target position is 90 °, at this time, the angle of the wind blades of the left and right swing air is 90 °, the circles on the angle control bars of the upper and lower swing air represent balls, the user slides the balls to another first target position by sliding the balls up and down on the angle control bars, the corresponding angle of the first target position is 95 °, and at this time, the angle of the wind blades of the upper and lower swing air is 95 °.

And step S210-11, setting the air outlet mode of the air blade to be fixed at the position of the first target angle.

Next, describing a specific implementation manner of determining an air outlet mode of an air blade when the air outlet mode is the range swing air outlet mode, referring to fig. 10, fig. 10 is a flowchart of another control method for an air conditioner air supply position applied to a client, and step S210 further includes the following sub-steps:

step S210-20, calculating a second target angle according to the second target position, the first preset angle, the second preset position and the second preset angle.

Sub-step S210-21, calculating a third target angle according to the third target position, the first preset angle, the second preset position and the second preset angle.

In this embodiment, the calculation manner of the second target angle and the third target angle is the same as that of the first target angle, which is not described herein, for comparison with the fixed point air outlet mode, please refer to fig. 11, fig. 11 is an operation example diagram in the range swing air outlet mode provided by the present application, the range swing, fixed point air outlet mode and full swing air outlet mode in fig. 11 correspond to the range swing air outlet mode, fixed point air outlet mode and full swing air outlet mode in the embodiment of the present application respectively, the left and right swing air and the up and down swing air correspond to respective angle control bars respectively, the left and right swing air and the up and down swing air in fig. 11 correspond to respective angle control bars respectively, in which, in order to make comparison with the fixed point air outlet mode, two circles on the left and right swing air represent two balls, each ball determines a target position, the user determines the second target position and the third target position by sliding the two balls left and right, at this time, the two positions in fig. 11 correspond to the second target angle and the third target angle respectively, the left and right swing air blade swings between 90 ° and 120 ° and the up and down swing air respectively, which is not described herein.

And step S210-22, setting the air outlet mode of the air blade to swing between the second target angle and the third target angle.

Finally, describing a specific implementation manner of determining the air outlet mode of the air blade when the air outlet mode is the full swing air outlet mode, referring to fig. 12, fig. 12 is a flowchart of another control method for the air supply position of the air conditioner applied to the client, and step S210 further includes the following sub-steps:

and S210-30, setting the air outlet mode of the wind blade to swing between a first preset angle and a second preset angle.

In this embodiment, since the full-swing air-out mode is similar to the range-swing air-out mode, the difference is that the user does not need to specify a target position in the full-swing air-out mode, and does not need to calculate a specified angle according to the target position, and only the air-out mode needs to be selected as the full-swing air-out mode, because the first preset angle and the second preset angle are known in the full-swing air-out mode. Of course, the user may also select the positions of the two endpoints of the angle control bar as the first preset position and the second preset position, and calculate the first preset angle and the second preset angle according to the first preset position and the second preset position, which is not limited in the present invention.

In order to execute the above embodiments and the corresponding steps applied to the cloud server 20 in each possible implementation manner, an implementation manner of the control device for the air supply position of the air conditioner is given below. Referring to fig. 13, fig. 13 is a schematic functional block diagram of a control device 100 for a first air conditioner air supply position according to the present invention. The control device 100 for the air supply position of the first air conditioner is applied to the cloud server 20, and it should be noted that, in the embodiment of the present invention, the basic principle and the technical effects of the control device for the air supply position of the first air conditioner are the same as those of the embodiment of the foregoing method, and for brevity, reference may be made to the corresponding content of the embodiment of the foregoing method for a part not mentioned in the present embodiment.

The following describes the control device 100 for the air supply position of the first air conditioner with reference to fig. 3 and 6, where the control device 100 for the air supply position of the first air conditioner includes: the device comprises a first receiving module 110, an obtaining module 120, a first sending module 130 and a recommending module 140.

The first receiving module 110 is configured to receive a first instruction sent by the client, where the first instruction is used to confirm that the fan blade of the air conditioner is at a first preset position.

The first receiving module 110 is further configured to receive a second instruction sent by the client, where the second instruction is used to confirm that the wind blade is at a second preset position.

The obtaining module 120 is configured to obtain, based on the first instruction, a first preset angle of the wind blade relative to a preset plane from the air conditioner.

The obtaining module 120 is further configured to obtain, based on the second instruction, a second preset angle of the wind blade with respect to the preset plane from the air conditioner.

As a specific embodiment, the obtaining module 120 is further configured to obtain a historical angle configured by the user in a preset period, where the historical angle is an angle of the fan blade set by the user based on the angle control bar during operation.

The first sending module 130 is configured to send the first preset angle and the second preset angle to the client, so that the client generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle.

A recommendation module 140, configured to: analyzing the historical angle to obtain a recommended angle; and controlling the fan blades of the air conditioner to work according to the recommended angle.

As one specific embodiment, the recommendation module 140 is specifically configured to: if the number of the history angles is smaller than a preset value, taking the target history angle with the largest occurrence number in the history angles as a recommended angle; if the number of the historical angles is larger than or equal to a preset value, the setting time and the corresponding running mode of the air conditioner when each historical angle is set are obtained, and the recommended angle is determined according to all the historical angles and the corresponding setting time and running mode.

In order to execute the corresponding steps applied to the client 30 in the foregoing embodiments and various possible embodiments, another implementation of the method for controlling the air supply position of the air conditioner is given below. Referring to fig. 14, fig. 14 is a functional block diagram of a control device 200 for a second air conditioner air supply position according to the present invention. The control device 200 for the air supply position of the second air conditioner is applied to the client 30, and it should be noted that, in the embodiment of the present invention, the basic principle and the technical effects of the control device for the air supply position of the second air conditioner are the same as those of the embodiment of the foregoing method, and for brevity, reference is made to the corresponding content of the embodiment of the foregoing method. Next, referring to fig. 7, 8, 10 and 12, the control device 200 for the air supply position of the second air conditioner will be described, where the control device 200 for the air supply position of the second air conditioner includes: the second receiving module 210, the determining module 220 and the second transmitting module 230.

The second receiving module 210 is configured to receive a selection operation of selecting an air outlet mode based on an angle control bar displayed by a client, where the angle control bar is generated according to a first preset angle and a second preset angle sent by the cloud server, and the first preset angle and the second preset angle are obtained by: receiving a first instruction sent by a client, wherein the first instruction is used for confirming that a fan blade of an air conditioner is at a first preset position; acquiring a first preset angle of the wind blade relative to a preset plane from the air conditioner based on a first instruction; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the wind blade is at a second preset position; based on the second instruction, a second preset angle of the wind blade relative to a preset plane is obtained from the air conditioner.

The determining module 220 is configured to determine an air outlet mode of the wind blade according to the air outlet mode.

As a specific embodiment, the air-out mode includes a fixed-point air-out mode, and the selecting operation includes an operation of selecting a first target position on the angle control bar by a user; the determining module 220 is specifically configured to: calculating a first target angle according to the first target position, the first preset angle, the second preset position and the second preset angle; the wind outlet mode of the wind blade is set to be fixed at the position of the first target angle.

As a specific implementation manner, the air outlet mode further comprises a range swing air outlet mode, and the selected operation comprises a second target position and a third target position selected by a user on the angle control bar; the determining module 220 is specifically further configured to: calculating a second target angle according to the second target position, the first preset angle, the second preset position and the second preset angle; calculating a third target angle according to the third target position, the first preset angle, the second preset position and the second preset angle; the wind outlet mode of the wind blade is set to swing between a second target angle and a third target angle.

As a specific embodiment, the air-out mode further includes a full swing air-out mode, and the determining module 220 is specifically further configured to: the wind outlet mode of the wind blade is set to swing between a first preset angle and a second preset angle.

The second sending module 230 is configured to send the air outlet mode to the cloud server, so that the cloud server controls the fan blade of the air conditioner to outlet air according to the air outlet mode.

The embodiment of the invention also provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements a control method of an air conditioner air supply position applied to a cloud server as described above, or implements a control method of an air conditioner air supply position applied to a client as described above.

In summary, an embodiment of the present invention provides a method, a device, a computer device and a storage medium for controlling an air supply position of an air conditioner, where the method applied to a cloud server includes: receiving a first instruction sent by a client, wherein the first instruction is used for confirming that a fan blade of an air conditioner is at a first preset position; acquiring a first preset angle of the wind blade relative to a preset plane from the air conditioner based on a first instruction; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the wind blade is at a second preset position; acquiring a second preset angle of the wind blade relative to a preset plane from the air conditioner based on a second instruction; and sending the first preset angle and the second preset angle to the client so that the client generates and displays an angle control bar with the angle range between the first preset angle and the second preset angle. Compared with the prior art, the embodiment of the invention has the advantages that the range of the fan blade of the air conditioner, which is characterized by the first preset angle and the second preset angle, can be actually swung, so that the client can generate and display the angle control strip with the angle range between the first preset angle and the second preset angle, and finally, the flexible control of the air supply position of the air conditioner according to the angle control strip is realized.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention should be assessed accordingly to that of the appended claims.

Claims (10)

1. The method is characterized by being applied to a cloud server, wherein the cloud server is in communication connection with an air conditioner and a client, and the method comprises the following steps: receiving a first instruction sent by the client, wherein the first instruction is used for confirming that a fan blade of the air conditioner is at a first preset position, and the first preset position represents a first preset edge position to which the fan blade can swing when swinging according to a first preset direction;

based on the first instruction, a first preset angle of the fan blade relative to a preset plane is obtained from the air conditioner;

receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the fan blade is at a second preset position, and the second preset position represents a second preset edge position to which the fan blade can swing when swinging according to a second preset direction;

Based on the second instruction, a second preset angle of the fan blade relative to a preset plane is obtained from the air conditioner, and the first preset angle and the second preset angle represent the range in which the fan blade of the air conditioner can actually swing;

the first preset angle and the second preset angle are sent to the client, so that the client generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle, a user can perform angle configuration based on the angle control bar, and the air supply position of the air conditioner is controlled according to the angle configuration;

when the fixed-point air-out mode is selected based on the angle control bar displayed by the client, the fixed-point air-out mode is selected, the fixed-point air-out mode comprises the operation of selecting a first target position on the angle control bar by a user, and the client determines the air-out mode of the fan blade according to the air-out mode in the following manner: calculating a first target angle corresponding to the first target position according to the distance between the first preset position and the second preset position and the angle difference between the first preset angle and the second preset angle; and setting the air outlet mode of the air blade to be fixed at the position of the first target angle.

2. The method for controlling a supply air position of an air conditioner according to claim 1, further comprising:

acquiring a historical angle configured by a user in a preset period, wherein the historical angle is an angle of the fan blade set by the user based on the angle control bar during working;

analyzing the historical angle to obtain a recommended angle;

and controlling the fan blades of the air conditioner to work according to the recommended angle.

3. The method for controlling a blowing position of an air conditioner according to claim 2, wherein the history angle is plural, and the step of analyzing the history angle to obtain the recommended angle includes:

if the number of the history angles is smaller than a preset value, taking the target history angle with the largest occurrence frequency in the history angles as a recommended angle;

if the number of the historical angles is greater than or equal to the preset value, acquiring the setting time when each historical angle is set and the corresponding running mode of the air conditioner, and determining the recommended angle according to all the historical angles and the corresponding setting time and running mode.

4. The method is characterized by being applied to a client, wherein the client is in communication connection with a cloud server, and the cloud server is in communication connection with the air conditioner, and the method comprises the following steps:

Receiving a selection operation of a user for selecting an air outlet mode based on an angle control bar displayed by the client, wherein the angle control bar is generated according to a first preset angle and a second preset angle sent by the cloud server, so that the user performs angle configuration based on the angle control bar, and further controls the air supply position of the air conditioner according to the angle configuration, and the acquisition modes of the first preset angle and the second preset angle are as follows: receiving a first instruction sent by the client, wherein the first instruction is used for confirming that the fan blade of the air conditioner is at a first preset position; based on the first instruction, a first preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the fan blade is at a second preset position; based on the second instruction, a second preset angle of the fan blade relative to a preset plane is obtained from the air conditioner, the first preset position represents a first preset edge position to which the fan blade can swing when swinging according to a first preset direction, the second preset position represents a second preset edge position to which the fan blade can swing when swinging according to a second preset direction, the first preset angle and the second preset angle represent the actual swinging range of the fan blade of the air conditioner, the air outlet mode comprises a fixed-point air outlet mode, and the selected operation comprises an operation of selecting a first target position on the angle control bar by a user;

Determining an air outlet mode of the fan blade according to the air outlet mode;

the air outlet mode is sent to the cloud server, so that the cloud server controls the fan blades of the air conditioner to outlet air according to the air outlet mode;

when the air outlet mode is a fixed-point air outlet mode, the step of determining the air outlet mode of the fan blade according to the air outlet mode comprises the following steps:

calculating a first target angle corresponding to the first target position according to the distance between the first preset position and the second preset position and the angle difference between the first preset angle and the second preset angle;

and setting the air outlet mode of the air blade to be fixed at the position of the first target angle.

5. The method of claim 4, wherein the air outlet mode further comprises a range swing air outlet mode, the selected operation comprising a user selecting a second target position and a third target position at the angle control bar; the step of determining the air outlet mode of the fan blade according to the air outlet mode comprises the following steps:

calculating a second target angle according to the second target position, the first preset angle, the second preset position and the second preset angle;

Calculating a third target angle according to the third target position, the first preset angle, the second preset position and the second preset angle;

and setting the air outlet mode of the air blade to swing between the second target angle and the third target angle.

6. The method of claim 4, wherein the air outlet mode further comprises a full swing air outlet mode, and the step of determining the air outlet mode of the fan blade according to the air outlet mode comprises:

and setting the air outlet mode of the air blade to swing between the first preset angle and the second preset angle.

7. The utility model provides a controlling means of air conditioner air supply position which characterized in that is applied to high in the clouds server, high in the clouds server and air conditioner are led to and all communication connection of customer end, the device includes: the first receiving module is used for receiving a first instruction sent by the client, wherein the first instruction is used for confirming that a fan blade of the air conditioner is positioned at a first preset position, and the first preset position represents a first preset edge position to which the fan blade can swing when swinging according to a first preset direction;

The acquisition module is used for acquiring a first preset angle of the fan blade relative to a preset plane from the air conditioner based on the first instruction;

the first receiving module is further configured to receive a second instruction sent by the client, where the second instruction is used to confirm that the fan blade is at a second preset position, and the second preset position represents a second preset edge position to which the fan blade can swing when swinging in a second preset direction;

the acquiring module is further configured to acquire, from the air conditioner, a second preset angle of the fan blade relative to a preset plane based on the second instruction, where the first preset angle and the second preset angle represent a range in which the fan blade of the air conditioner can actually swing;

the first sending module is used for sending the first preset angle and the second preset angle to the client so that the client generates and displays an angle control bar with an angle range between the first preset angle and the second preset angle, so that a user can perform angle configuration based on the angle control bar, and the air supply position of the air conditioner is controlled according to the angle configuration;

When the fixed-point air-out mode is selected based on the angle control bar displayed by the client, the fixed-point air-out mode is selected, the fixed-point air-out mode comprises the operation of selecting a first target position on the angle control bar by a user, and the client determines the air-out mode of the fan blade according to the air-out mode in the following manner: calculating a first target angle corresponding to the first target position according to the distance between the first preset position and the second preset position and the angle difference between the first preset angle and the second preset angle; and setting the air outlet mode of the air blade to be fixed at the position of the first target angle.

8. The utility model provides a controlling means of air conditioner air supply position which characterized in that is applied to the customer end, customer end and high in the clouds server communication connection, high in the clouds server and air conditioner communication connection, the device includes:

the second receiving module is configured to receive a selection operation of selecting an air outlet mode by a user based on an angle control bar displayed by the client, where the angle control bar is generated according to a first preset angle and a second preset angle sent by the cloud server, so that the user performs angle configuration based on the angle control bar, and further controls an air supply position of the air conditioner according to the angle configuration, and an acquisition mode of the first preset angle and the second preset angle is as follows: receiving a first instruction sent by the client, wherein the first instruction is used for confirming that the fan blade of the air conditioner is at a first preset position; based on the first instruction, a first preset angle of the fan blade relative to a preset plane is obtained from the air conditioner; receiving a second instruction sent by the client, wherein the second instruction is used for confirming that the fan blade is at a second preset position; based on the second instruction, a second preset angle of the fan blade relative to a preset plane is obtained from the air conditioner, the first preset position represents a first preset edge position to which the fan blade can swing when swinging according to a first preset direction, the second preset position represents a second preset edge position to which the fan blade can swing when swinging according to a second preset direction, the first preset angle and the second preset angle represent the actual swinging range of the fan blade of the air conditioner, the air outlet mode comprises a fixed-point air outlet mode, and the selected operation comprises an operation of selecting a first target position on the angle control bar by a user;

The determining module is used for determining the air outlet mode of the fan blade according to the air outlet mode;

the second sending module is used for sending the air outlet mode to the cloud server so that the cloud server controls the fan blades of the air conditioner to outlet air according to the air outlet mode;

the determining module is specifically configured to: calculating a first target angle corresponding to the first target position according to the distance between the first preset position and the second preset position and the angle difference between the first preset angle and the second preset angle; and setting the air outlet mode of the air blade to be fixed at the position of the first target angle.

9. A computer device comprising a memory and a processor, wherein the memory stores a computer program, which when executed by the processor implements the method of controlling a supply air position of an air conditioner according to any one of claims 1 to 3 or implements the method of controlling a supply air position of an air conditioner according to any one of claims 4 to 6.

10. A computer-readable storage medium having a computer program stored thereon, characterized in that,

the computer program, when executed by a processor, implements the method for controlling a supply air position of an air conditioner according to any one of claims 1 to 3, or implements the method for controlling a supply air position of an air conditioner according to any one of claims 4 to 6.