CN113154645B - A kind of air conditioning control method and smart watch - Google Patents

Abstract

The embodiment of the present invention discloses an air conditioner control method and a mobile terminal. The method includes: establishing a communication connection with the air conditioner; acquiring a parameter adjustment value input by a user through a crown of a smart watch; The parameter adjustment command of the parameter adjustment value, the parameter adjustment command is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. The embodiment of the present invention is beneficial to improve the convenience of adjusting the parameters of the air conditioner and improve the user experience.

Description

A kind of air conditioning control method and smart watch

technical field

The present invention relates to the field of electronic technology, in particular to an air conditioning control method, a mobile terminal, a server and a system.

Background technique

With the development of microelectronics technology, watches that could only be used to tell the time in the past now have built-in intelligent systems that can be connected to the Internet through smartphones or home networks to display caller information, text messages, emails, news and weather information. .

The traditional remote control of the air conditioner is cumbersome, and users need to find the remote control themselves, or control the air conditioner through the mobile phone, but when adjusting the parameters of the air conditioner through the application installed in the mobile phone, the corresponding application needs to be opened, and the mobile phone is easily misused by others. .

SUMMARY OF THE INVENTION

Embodiments of the present invention provide an air conditioning control method, a mobile terminal, a server, and a system, so as to improve the convenience of air conditioning parameter adjustment and improve user experience.

A first aspect of the embodiments of the present invention discloses an air conditioning control method, including:

establish a communication connection with the air conditioner;

Obtain the parameter adjustment value input by the user through the crown of the smart watch;

A parameter adjustment instruction carrying the parameter adjustment value is sent to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

A second aspect of the embodiments of the present invention discloses a smart watch, including:

a communication unit for establishing a communication connection with the air conditioner;

an acquisition unit, used to acquire the parameter adjustment value input by the user through the crown of the smart watch;

A sending unit, configured to send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current state of the air conditioner according to the parameter adjustment value working parameters.

In the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value carrying the parameter adjustment value to the air conditioner through the communication connection instruction, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and is generally not used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Description of drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings used in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained from these drawings without any creative effort.

1 is a schematic flowchart of an air conditioning control method disclosed in an embodiment of the present invention;

2 is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention;

3 is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention;

4 is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention;

5 is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention;

6 is a schematic structural diagram of a smart watch disclosed in an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of another smart watch disclosed in an embodiment of the present invention.

Detailed ways

In order to make those skilled in the art better understand the solutions of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only Embodiments are part of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

The terms "first", "second", "third" and "fourth" in the description and claims of the present invention and the above drawings are used to distinguish different objects, rather than to describe a specific order. Furthermore, the terms "comprising" and "having", and any variations thereof, are intended to cover non-exclusive inclusion. For example, a process, method, system, product or device comprising a series of steps or units is not limited to the listed steps or units, but optionally also includes unlisted steps or units, or optionally also includes For other steps or units inherent to these processes, methods, products or devices.

Reference herein to an "embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the present invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor a separate or alternative embodiment that is mutually exclusive with other embodiments. It is explicitly and implicitly understood by those skilled in the art that the embodiments described herein may be combined with other embodiments.

The smart watch described in the embodiments of the present invention refers to a wearable device with a crown, and the crown may include any one of the following structures: a joystick, a trackball, and a side touch screen; the system of the smart watch refers to the system of the device. The operating system may include, but is not limited to: Android system, Windows system, IOS (a mobile operating system developed by Apple), and the like. The air conditioner described in the embodiment of the present invention can communicate with the smart watch through wireless communication methods such as Bluetooth and Wi-Fi, and accept the parameter adjustment instruction sent by the smart watch, and adjust the working parameters of the air conditioner according to the parameter adjustment instruction. The operating parameters of the air conditioner may be, for example, target temperature, operating frequency, operating mode, and the like.

Please refer to FIG. 1. FIG. 1 is a schematic flowchart of an air conditioning control method disclosed in an embodiment of the present invention. As shown in FIG. 1 , the air conditioning control method may include the following steps.

S101, establish a communication connection with the air conditioner.

In the embodiment of the present invention, the specific implementation manner of establishing the communication connection between the smart watch and the air conditioner may be: establishing a communication connection with the air conditioner according to the user's operation instruction; or, when it is detected that the user is in a sleep state, Establishing a communication connection with the air conditioner, wherein the detecting that the user is in a sleep state includes: detecting that the user's heart rate value matches the heart rate value of the user's sleep state, or detecting that the user's pulse matches the user's sleep state. match, or, it is detected that the body surface temperature of the user matches the body surface temperature of the sleep state of the user.

S102, obtain the parameter adjustment value input by the user through the crown of the smart watch.

In one embodiment, the crown of the smart watch includes a joystick, and the implementation manner of the smart watch acquiring the parameter adjustment value input by the user through the crown of the smart watch may be:

The above-mentioned smart watch can obtain the toggle parameters of the toggle operation of the joystick of the crown of the smart watch by the user, and determine the parameter adjustment value input by the user according to the above-mentioned toggle parameters, and the above-mentioned toggle parameters include at least one of the following toggle parameters. Type: toggle times, toggle frequency.

In a specific implementation, the above-mentioned smart watch obtains the toggle parameters of the toggle operation of the joystick of the crown of the smart watch by the user, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above-mentioned toggle parameters may be:

In the case where the above-mentioned toggle parameters include the above-mentioned toggle times, the smart watch can obtain the toggle times of the user's toggle operation on the joystick of the crown of the smart watch, and calculate the above-mentioned toggle times according to the above-mentioned toggle times and a preset calculation strategy. The adjustment reference value of the toggle operation, the above adjustment reference value is used as the parameter adjustment value.

For example, the above parameter adjustment value is the temperature adjustment value. The default calculation strategy is to multiply the temperature adjustment reference value by 1. Assuming that the number of toggles is 5 times, the smart watch can calculate the number of toggles and multiplying by 1. The strategy calculates the adjustment reference value of the above toggle operation as 5 degrees, and uses the calculated 5 degrees as the parameter adjustment value.

or,

In the case that the above-mentioned toggle parameters include the above-mentioned toggle frequency, the above-mentioned smart watch can obtain the toggle duration of M times of toggle operations performed by the user on the joystick of the crown of the smart watch. The duration determines the toggle frequency of the toggle operation, the adjustment reference value of the toggle operation is calculated according to the toggle frequency and the preset calculation strategy, and the adjustment reference value is used as the parameter adjustment value, and the M is a positive integer.

For example, assuming that the parameter adjustment value is the operating frequency adjustment value of the air conditioner (the operating frequency adjustment range of the compressor of a general inverter air conditioner is 20Hz to 150Hz), assuming that the smart watch obtains 10 times the user clicks the joystick on the crown of the smart watch The toggle time of the toggle operation is 4 seconds, and the toggle frequency is 2.5Hz. Assuming that the preset calculation strategy is multiplied by 10, the adjustment reference value can be calculated to be 25Hz, and the 25Hz calculated above is used as the air conditioner. Parameter adjustment value for frequency.

In another embodiment, the crown of the smart watch includes a trackball, and the implementation manner of the smart watch acquiring the parameter adjustment value input by the user through the crown of the smart watch may be:

The above-mentioned smart watch can obtain the rolling parameters of the user's rolling operation of the trackball of the crown of the smart watch, and determine the parameter adjustment value input by the user according to the above-mentioned rolling parameters. roll angle.

In a specific implementation, the above-mentioned smart watch obtains the rolling parameters of the user's rolling operation of the trackball of the crown of the smart watch, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above-mentioned rolling parameters may be:

In the case where the above-mentioned scrolling parameters include the above-mentioned number of times of scrolling, the above-mentioned smart watch may obtain the number of times of scrolling of the trackball of the crown of the smart watch by the user, and calculate the adjustment reference of the above-mentioned scrolling operation according to the above-mentioned number of times of scrolling and the preset calculation strategy value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of temperature, the smart watch can obtain the number N of scrolling operations of the trackball on the crown of the smart watch by the user, according to the N and the preset calculation strategy (such as multiplying by 1). ) Calculate the adjustment reference value of the above-mentioned scrolling operation as N*1=N degrees, and use the calculated N degrees as the parameter adjustment value of the air conditioner temperature.

or,

In the case that the above-mentioned toggle parameters include the above-mentioned scroll angle, the above-mentioned smart watch can obtain the scroll angle of the user's scroll operation of the trackball of the crown of the smart watch, and generate the above-mentioned adjustment of the above-mentioned scroll operation according to the above-mentioned scroll angle and the preset calculation strategy Reference value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of temperature, the smart watch can obtain the rolling angle α of the user's rolling operation of the trackball on the crown of the smart watch. The reference adjustment value of the temperature calculated with the preset calculation strategy is (α/20) degrees, and the calculated (α/20) degrees are used as the parameter adjustment value of the air conditioner temperature.

In yet another embodiment, the crown of the smart watch includes a side touch screen, and the smart watch obtains the parameter adjustment value input by the user through the crown of the smart watch. The implementation method may be:

The above-mentioned smart watch can obtain the touch parameters of the user's touch operation on the side touch screen of the crown of the smart watch, and determine the parameter adjustment value input by the user according to the above-mentioned touch parameters, and the above-mentioned touch parameters include at least one of the following toggle parameters. One: touch times, touch strength and touch frequency;

or,

The above-mentioned smart watch can obtain the sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, and determine the parameter adjustment value input by the user according to the above-mentioned sliding parameters, and the above-mentioned sliding parameters include at least one of the following sliding parameters: the number of times of sliding: , swipe strength, swipe speed, and touch distance.

In a specific implementation, the above-mentioned smart watch obtains the sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, and the specific implementation method of determining the parameter adjustment value input by the user according to the above-mentioned sliding parameters may be:

In the case where the above-mentioned touch parameters include the above-mentioned number of touches, the above-mentioned smart watch can obtain the number of touches of the user's touch operation on the side touch screen of the crown of the smartwatch, and calculate the number of touches according to the above-mentioned number of touches and a preset calculation strategy For the adjustment reference value of the touch operation, the adjustment reference value is used as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the above-mentioned smart watch obtains 5 touches of the user's touch operation on the side touch screen of the crown of the smart watch. The number of times and the preset calculation strategy (multiplied by 1) are used to obtain an adjustment reference value of the temperature of the air conditioner of 5 degrees, and the calculated 5 degrees are used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned touch parameters include the above-mentioned touch force, the above-mentioned smart watch can obtain the touch force of the user's touch operation on the side touch screen of the smart watch's crown, and generate the adjustment of the above-mentioned sliding operation according to the above-mentioned touch force Reference value, take the above adjustment reference value as the parameter adjustment value;

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the above-mentioned smart watch obtains a touch force of 5N for the user's touch operation on the side touch screen of the smart watch's crown, and the smart watch can obtain the touch force according to the above-mentioned touch operation. The adjustment reference value of the above-mentioned sliding operation of the force generation is 5 degrees, and the calculated 5 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned touch parameters include the above-mentioned touch frequency, the above-mentioned smart watch can obtain the touch frequency of the user's touch operation on the side touch screen of the smart watch's crown, and generate the touch frequency according to the above-mentioned touch frequency and the preset calculation strategy. For the adjustment reference value of the touch operation, the adjustment reference value is used as the parameter adjustment value.

For example, suppose that the parameter adjustment value is the adjustment value of the operating frequency of the air conditioner (the operating frequency adjustment range of the compressor of the inverter air conditioner is generally 20Hz to 150Hz). The touch frequency of the control operation is 2.5Hz. Assuming that the preset calculation strategy is multiplied by 10, the adjustment reference value can be calculated as 25Hz, and the 25Hz calculated above is used as the parameter adjustment value of the air conditioner operating frequency.

In a specific implementation, the above-mentioned smart watch obtains the sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, and the specific implementation method of determining the parameter adjustment value input by the user according to the above-mentioned sliding parameters may be:

In the case where the above-mentioned sliding parameter includes the above-mentioned number of times of sliding, the above-mentioned smart watch can obtain the number of times of sliding operations performed by the user on the side touch screen of the crown of the smart watch, and calculate the adjustment of the above-mentioned sliding operation according to the above-mentioned number of times of sliding and a preset calculation strategy Reference value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the above-mentioned parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the above-mentioned smart watch obtains two times of sliding operations on the side touch screen of the smart watch's crown. 2 times and the preset calculation strategy (multiplied by 1) to obtain an adjustment reference value of the temperature of the air conditioner of 2 degrees, and use the calculated 2 degrees as a parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned sliding parameters include the above-mentioned sliding force, the above-mentioned smart watch can obtain the sliding force of the user's sliding operation on the side touch screen of the smart watch's crown, and generate the adjustment reference value of the above-mentioned sliding operation according to the above-mentioned sliding force. Adjust the reference value as the parameter adjustment value. The above-mentioned sliding force may be the average value of the sampling force of several sampling points on the sliding track of the user's sliding operation on the side touch screen of the crown of the smart watch sampled by the smart watch.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the smart watch obtains the sliding force of the user's sliding operation on the side touch screen of the crown of the smart watch is 3.4N, then the smart watch can adjust the sliding force according to the sliding force of 3.4N. The adjustment reference value for generating the above sliding operation is 3 degrees, and the calculated 3 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned sliding parameters include the above-mentioned sliding distance, the above-mentioned smart watch can obtain the sliding distance of the user's sliding operation on the side touch screen of the smart watch's crown, generate the adjustment reference value of the above-mentioned sliding operation according to the above-mentioned sliding distance, and use the above-mentioned sliding operation Adjust the reference value as the parameter adjustment value. The above sliding distance may be the track length value of the sliding track of the user's sliding operation on the side touch screen of the crown of the smart watch, or may be the length of the sliding track of the user's sliding operation on the side touch screen of the crown of the smart watch. The length value of the straight-line distance between the starting position and the ending position is not specifically limited in the embodiment of the present invention.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, and the smart watch obtains a sliding distance of 13mm (mm) for the user's sliding operation on the side touch screen of the crown of the smart watch, the smart watch can follow the above sliding operation. The adjustment reference value for the above-mentioned sliding operation at a distance of 13 mm is 3 degrees (13-10=3), and the calculated 3 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the sliding parameter includes the sliding speed, obtain the sliding speed of the user's sliding operation on the side touch screen of the crown of the smart watch, generate the adjustment reference value of the sliding operation according to the sliding speed, and set the The above adjustment reference value is used as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, and the smart watch obtains a sliding speed of 5mm/s for the user's sliding operation on the side touch screen of the crown of the smart watch, the smart watch can adjust the sliding speed according to the sliding speed. A speed of 5 mm/s generates an adjustment reference value of 5 degrees for the sliding operation, and the calculated 5 degrees is used as a parameter adjustment value of the temperature of the air conditioner.

S103: Send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and is generally not used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Please refer to FIG. 2 , which is a schematic flowchart of an air conditioning control method disclosed in an embodiment of the present invention. As shown in FIG. 2 , the air conditioning control method may include the following steps.

S201, establish a communication connection with the air conditioner.

In the embodiment of the present invention, the specific implementation manner of establishing the communication connection between the smart watch and the air conditioner may be: establishing a communication connection with the air conditioner according to the user's operation instruction; or, when it is detected that the user is in a sleep state, Establishing a communication connection with the air conditioner, wherein the detecting that the user is in a sleep state includes: detecting that the user's heart rate value matches the heart rate value of the user's sleep state, or detecting that the user's pulse matches the user's sleep state. match, or, it is detected that the body surface temperature of the user matches the body surface temperature of the sleep state of the user.

S202: Acquire the toggle parameters of the toggle operation of the joystick of the crown of the smart watch by the user, where the toggle parameters include at least one of the following toggle parameters: toggle times and toggle frequency.

S203: Determine the parameter adjustment value input by the user according to the above toggle parameter.

In the embodiment of the present invention, the above-mentioned smart watch obtains the toggle parameters of the toggle operation of the joystick of the crown of the smart watch by the user, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above-mentioned toggle parameters may be:

In the case where the above-mentioned toggle parameters include the above-mentioned toggle times, the smart watch can obtain the toggle times of the user's toggle operation on the joystick of the crown of the smart watch, and calculate the above-mentioned toggle times according to the above-mentioned toggle times and a preset calculation strategy. The adjustment reference value of the toggle operation, the above adjustment reference value is used as the parameter adjustment value.

For example, the above parameter adjustment value is the temperature adjustment value. The default calculation strategy is to multiply the temperature adjustment reference value by 1. Assuming that the number of toggles is 5 times, the smart watch can calculate the number of toggles and multiplying by 1. The strategy calculates the adjustment reference value of the above toggle operation as 5 degrees, and uses the calculated 5 degrees as the parameter adjustment value.

or,

In the case that the above-mentioned toggle parameters include the above-mentioned toggle frequency, the above-mentioned smart watch can obtain the toggle duration of M times of toggle operations performed by the user on the joystick of the crown of the smart watch. The duration determines the toggle frequency of the toggle operation, the adjustment reference value of the toggle operation is calculated according to the toggle frequency and the preset calculation strategy, and the adjustment reference value is used as the parameter adjustment value, and the M is a positive integer.

For example, assuming that the parameter adjustment value is the operating frequency adjustment value of the air conditioner (the operating frequency adjustment range of the compressor of a general inverter air conditioner is 20Hz to 150Hz), assuming that the smart watch obtains 10 times the user clicks the joystick on the crown of the smart watch The toggle time of the toggle operation is 4 seconds, and the toggle frequency is 2.5Hz. Assuming that the preset calculation strategy is multiplied by 10, the adjustment reference value can be calculated to be 25Hz, and the 25Hz calculated above is used as the air conditioner. Parameter adjustment value for frequency.

S204: Send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and is generally not used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Please refer to FIG. 3 , which is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention. As shown in FIG. 3 , the air conditioning control method may include the following steps.

S301, establish a communication connection with the air conditioner.

In the embodiment of the present invention, the specific implementation manner of establishing the communication connection between the smart watch and the air conditioner may be: establishing a communication connection with the air conditioner according to the user's operation instruction; or, when it is detected that the user is in a sleep state, Establishing a communication connection with the air conditioner, wherein the detecting that the user is in a sleep state includes: detecting that the user's heart rate value matches the heart rate value of the user's sleep state, or detecting that the user's pulse matches the user's sleep state. match, or, it is detected that the body surface temperature of the user matches the body surface temperature of the sleep state of the user.

S302: Acquire a scrolling parameter of a user's scrolling operation of the trackball of the crown of the smart watch, where the scrolling parameter includes at least one of the following scrolling parameters: the number of times of scrolling and the scrolling angle.

S303: Determine the parameter adjustment value input by the user according to the above-mentioned scroll parameter.

In the embodiment of the present invention, the above-mentioned smart watch obtains the rolling parameters of the user's rolling operation of the trackball of the crown of the smart watch, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above-mentioned rolling parameters may be:

In the case where the above-mentioned scrolling parameter includes the above-mentioned number of times of scrolling, the above-mentioned smart watch can obtain the number of times of scrolling of the trackball of the crown of the smart watch by the user, and calculate the adjustment reference of the above-mentioned scrolling operation according to the above-mentioned number of times of scrolling and the preset calculation strategy value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of temperature, the smart watch can obtain the number N of scrolling operations of the trackball on the crown of the smart watch by the user, according to the N and the preset calculation strategy (such as multiplying by 1). ) Calculate the adjustment reference value of the above-mentioned scrolling operation as N*1=N degrees, and use the calculated N degrees as the parameter adjustment value of the air conditioner temperature.

or,

In the case that the above-mentioned toggle parameters include the above-mentioned scroll angle, the above-mentioned smart watch can obtain the scroll angle of the user's scroll operation of the trackball of the crown of the smart watch, and generate the above-mentioned adjustment of the above-mentioned scroll operation according to the above-mentioned scroll angle and the preset calculation strategy Reference value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of temperature, the smart watch can obtain the rolling angle α of the user's rolling operation of the trackball on the crown of the smart watch. The reference adjustment value of the temperature calculated with the preset calculation strategy is (α/20) degrees, and the calculated (α/20) degrees are used as the parameter adjustment value of the air conditioner temperature.

S304: Send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and generally will not be used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Please refer to FIG. 4 , which is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention. As shown in FIG. 4 , the air conditioning control method may include the following steps.

S401, establishing a communication connection with the air conditioner.

In the embodiment of the present invention, the specific implementation manner of establishing the communication connection between the smart watch and the air conditioner may be: establishing a communication connection with the air conditioner according to the user's operation instruction; or, when it is detected that the user is in a sleep state, Establishing a communication connection with the air conditioner, wherein the detecting that the user is in a sleep state includes: detecting that the user's heart rate value matches the heart rate value of the user's sleep state, or detecting that the user's pulse matches the user's sleep state. match, or, it is detected that the body surface temperature of the user matches the body surface temperature of the sleep state of the user.

S402, acquiring touch parameters of a user's touch operation on the side touch screen of the crown of the smart watch, where the above touch parameters include at least one of the following toggle parameters: the number of touches, the touch strength, and the touch frequency;

S403: Determine the parameter adjustment value input by the user according to the above-mentioned touch parameters.

In the embodiment of the present invention, the smart watch obtains the touch parameters of the user's touch operation on the side touch screen of the crown of the smart watch, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above touch parameters may be:

In the case where the above-mentioned touch parameters include the above-mentioned number of touches, the above-mentioned smart watch can obtain the number of touches performed by the user for the touch operation on the side touch screen of the crown of the smartwatch, and calculate the number of touches according to the above-mentioned number of touches and a preset calculation strategy For the adjustment reference value of the above-mentioned touch operation, the above-mentioned adjustment reference value is used as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the above-mentioned smart watch obtains 5 touches of the user's touch operation on the side touch screen of the crown of the smart watch. The number of times and the preset calculation strategy (multiplied by 1) to obtain an adjustment reference value of the temperature of the air conditioner of 5 degrees, and the calculated 5 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned touch parameters include the above-mentioned touch force, the above-mentioned smart watch can obtain the touch force of the user's touch operation on the side touch screen of the smart watch's crown, and generate the adjustment of the above-mentioned sliding operation according to the above-mentioned touch force Reference value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the above-mentioned smart watch obtains a touch force of 5N for the user's touch operation on the side touch screen of the smart watch's crown, and the smart watch can obtain the touch force according to the above-mentioned touch operation. The adjustment reference value of the above-mentioned sliding operation of the force generation is 5 degrees, and the calculated 5 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned touch parameters include the above-mentioned touch frequency, the above-mentioned smart watch can obtain the touch frequency of the user's touch operation on the side touch screen of the smart watch's crown, and generate the touch frequency according to the above-mentioned touch frequency and the preset calculation strategy. For the adjustment reference value of the touch operation, the adjustment reference value is used as the parameter adjustment value.

For example, suppose that the parameter adjustment value is the adjustment value of the operating frequency of the air conditioner (the operating frequency adjustment range of the compressor of the inverter air conditioner is generally 20Hz to 150Hz). The touch frequency of the control operation is 2.5Hz. Assuming that the preset calculation strategy is multiplied by 10, the adjustment reference value can be calculated as 25Hz, and the 25Hz calculated above is used as the parameter adjustment value of the air conditioner operating frequency.

S404: Send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and is generally not used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Please refer to FIG. 5. FIG. 5 is a schematic flowchart of another air conditioning control method disclosed in an embodiment of the present invention. As shown in FIG. 5 , the air conditioning control method may include the following steps.

S501, establish a communication connection with the air conditioner.

In the embodiment of the present invention, the specific implementation manner of establishing the communication connection between the smart watch and the air conditioner may be: establishing a communication connection with the air conditioner according to the user's operation instruction; or, when it is detected that the user is in a sleep state, Establishing a communication connection with the air conditioner, wherein the detecting that the user is in a sleep state includes: detecting that the user's heart rate value matches the heart rate value of the user's sleep state, or detecting that the user's pulse matches the user's sleep state. match, or, it is detected that the body surface temperature of the user matches the body surface temperature of the sleep state of the user.

S502: Acquire sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, where the sliding parameters include at least one of the following sliding parameters: number of times of sliding, sliding force, sliding speed, and touch distance.

S503: Determine the parameter adjustment value input by the user according to the above sliding parameter.

In the embodiment of the present invention, the above-mentioned smart watch obtains the sliding parameter of the user's sliding operation on the side touch screen of the crown of the smart watch, and the specific implementation method of determining the parameter adjustment value input by the user according to the above-mentioned sliding parameter may be:

In the case where the above-mentioned sliding parameter includes the above-mentioned number of times of sliding, the above-mentioned smart watch can obtain the number of times of sliding operations performed by the user on the side touch screen of the crown of the smart watch, and calculate the adjustment of the above-mentioned sliding operation according to the above-mentioned number of times of sliding and the preset calculation strategy Reference value, take the above adjustment reference value as the parameter adjustment value.

For example, assuming that the above-mentioned parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, and the above-mentioned smart watch obtains the user's sliding operation on the side touch screen of the crown of the smart watch as 2 times, the smart watch can adjust the number of touches according to the number of touches. 2 times and the preset calculation strategy (multiplied by 1) to obtain an adjustment reference value of the temperature of the air conditioner of 2 degrees, and use the calculated 2 degrees as a parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned sliding parameters include the above-mentioned sliding force, the above-mentioned smart watch can obtain the sliding force of the user's sliding operation on the side touch screen of the smart watch's crown, and generate the adjustment reference value of the above-mentioned sliding operation according to the above-mentioned sliding force. Adjust the reference value as the parameter adjustment value. The above-mentioned sliding force may be the average value of the sampling force of several sampling points on the sliding track of the user's sliding operation on the side touch screen of the crown of the smart watch sampled by the smart watch.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, the smart watch obtains the sliding force of the user's sliding operation on the side touch screen of the crown of the smart watch is 3.4N, then the smart watch can adjust the sliding force according to the sliding force of 3.4N. The adjustment reference value for generating the above sliding operation is 3 degrees, and the calculated 3 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned sliding parameters include the above-mentioned sliding distance, the above-mentioned smart watch can obtain the sliding distance of the user's sliding operation on the side touch screen of the smart watch's crown, and generate the adjustment reference value of the above-mentioned sliding operation according to the above-mentioned sliding distance. Adjust the reference value as the parameter adjustment value. The above sliding distance may be the track length value of the sliding track of the user's sliding operation on the side touch screen of the crown of the smart watch, or may be the length of the sliding track of the user's sliding operation on the side touch screen of the crown of the smart watch. The length value of the straight-line distance between the starting position and the ending position is not specifically limited in the embodiment of the present invention.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, and the smart watch obtains a sliding distance of 13mm (mm) for the user's sliding operation on the side touch screen of the crown of the smart watch, the smart watch can follow the above sliding operation. The adjustment reference value for the above-mentioned sliding operation at a distance of 13 mm is 3 degrees (13-10=3), and the calculated 3 degrees is used as the parameter adjustment value of the temperature of the air conditioner.

or,

In the case where the above-mentioned sliding parameters include the above-mentioned sliding speed, the sliding speed of the user's sliding operation on the side touch screen of the crown of the smart watch is obtained, the adjustment reference value of the above-mentioned sliding operation is generated according to the above-mentioned sliding speed, and the above-mentioned adjustment reference value is used as Parameter adjustment value.

For example, assuming that the parameter adjustment value is the parameter adjustment value of the temperature of the air conditioner, and the smart watch obtains a sliding speed of 5mm/s for the user's sliding operation on the side touch screen of the crown of the smart watch, the smart watch can adjust the sliding speed according to the sliding speed. A speed of 5 mm/s generates an adjustment reference value of 5 degrees for the sliding operation, and the calculated 5 degrees is used as a parameter adjustment value for the temperature of the air conditioner.

S504: Send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and generally will not be used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Please refer to FIG. 6 , which is a schematic structural diagram of a smart watch disclosed in an embodiment of the present invention. As shown in FIG. 6, the smart watch includes a communication unit 601, an acquisition unit 602, and a transmission unit 603, wherein:

The above-mentioned communication unit 601 is used to establish a communication connection with the air conditioner;

The above obtaining unit 602 is used to obtain the parameter adjustment value input by the user through the crown of the smart watch;

In the embodiment of the present invention, the above-mentioned crown includes a joystick, and the above-mentioned obtaining unit 602 is specifically used for:

Acquire the toggle parameters for the toggle operation of the joystick of the crown of the smart watch by the user, and determine the parameter adjustment value input by the user according to the toggle parameters. The toggle parameters include at least one of the following toggle parameters: toggle Number of times, toggle frequency.

The above-mentioned crown includes a trackball, and the above-mentioned obtaining unit 602 is specifically used for:

The scrolling parameters of the user's scrolling operation of the trackball of the crown of the smart watch are obtained, and the parameter adjustment value input by the user is determined according to the scrolling parameters, and the scrolling parameters include at least one of the following scrolling parameters: scrolling times and scrolling angles.

The above-mentioned crown includes a side touch screen, and the above-mentioned obtaining unit 602 is specifically used for:

Acquire the touch parameters of the user's touch operation on the side touch screen of the crown of the smart watch, and determine the parameter adjustment value input by the user according to the above touch parameters, and the above touch parameters include at least one of the following toggle parameters: touch The number of touches, the touch area, the touch force and the touch frequency;

or,

Obtain the sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, and determine the parameter adjustment value input by the user according to the sliding parameters. The sliding parameters include at least one of the following sliding parameters: number of times of sliding, sliding strength, Swipe speed and touch distance.

The sending unit 603 is configured to send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjustment value.

It can be understood that the functions of each functional module of the smart watch in the embodiment of the present invention can be specifically implemented according to the method in the above method embodiment, and the specific implementation process can refer to the relevant description of the above method embodiment, which is not repeated here.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and is generally not used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

Please refer to FIG. 7 , which is a schematic structural diagram of another smart watch disclosed in an embodiment of the present invention. As shown in the figure, the smart watch in this embodiment of the present invention includes: at least one processor 701 , such as a CPU, at least one receiver 703 , at least one memory 704 , at least one transmitter 705 , and at least one communication bus 702 . Among them, the communication bus 702 is used to realize the connection and communication between these components. Wherein, the receiver 703 and the transmitter 705 of the apparatus in this embodiment of the present invention may be wired transmission ports, or may be wireless devices, such as including an antenna device, for signaling or data communication with other node devices. The memory 704 may be high-speed RAM memory or non-volatile memory, such as at least one disk memory. The memory 704 can optionally also be at least one storage device located away from the aforementioned processor 701 . A set of program codes are stored in the memory 704, and the processor 701 is used to call the program codes stored in the memory to perform the following operations:

establish a communication connection with the air conditioner;

Obtain the parameter adjustment value input by the user through the crown of the smart watch;

A parameter adjustment instruction carrying the parameter adjustment value is sent to the air conditioner through the communication connection, and the parameter adjustment instruction is used to instruct the air conditioner to adjust the current operating parameters of the air conditioner according to the parameter adjustment value.

Optionally, in this embodiment of the present invention, the crown includes a joystick, and the processor 701 can obtain the parameter adjustment value input by the user through the crown of the smart watch. The toggle parameter of the toggle operation of the joystick of the crown, the parameter adjustment value input by the user is determined according to the above toggle parameter, and the above toggle parameter includes at least one of the following toggle parameters: toggle times, toggle frequency .

In a specific implementation, the above-mentioned processor 701 obtains the toggle parameters of the toggle operation of the joystick of the crown of the smart watch by the user, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above toggle parameters may be:

In the case where the toggle parameter includes the toggle times, the processor 701 may acquire the toggle times of the user's toggle operation on the joystick of the crown of the smart watch, according to the toggle times and the preset number of toggles. The calculation strategy calculates the adjustment reference value of the toggle operation, and uses the adjustment reference value as the parameter adjustment value;

or,

In the case where the toggle parameter includes the toggle frequency, the processor 701 may acquire the toggle duration of M times of toggle operations performed by the user on the joystick of the crown of the smart watch, and according to the M toggles The toggle duration of the operation determines the toggle frequency of the toggle operation, calculates the adjustment reference value of the toggle operation according to the toggle frequency and the preset calculation strategy, and uses the adjustment reference value as the parameter adjustment value, so Said M is a positive integer.

Optionally, in this embodiment of the present invention, the above-mentioned crown includes a trackball, and the above-mentioned processor 701 can obtain the parameter adjustment value input by the user through the crown of the smart watch. The rolling parameters of the rolling operation of the trackball of the crown, the parameter adjustment value input by the user is determined according to the above-mentioned rolling parameters, and the above-mentioned rolling parameters include at least one of the following rolling parameters: the number of times of rolling and the rolling angle.

In a specific implementation, the above-mentioned processor 701 obtains the rolling parameters of the user's rolling operation of the trackball of the crown of the smart watch, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above-mentioned rolling parameters may be:

In the case where the scroll parameter includes the number of times of scrolling, the processor 701 may acquire the number of times of scrolling performed by the user on the trackball of the crown of the smart watch, and calculate the number of times of scrolling and the preset calculation strategy according to the number of times of scrolling. the adjustment reference value of the scrolling operation, using the adjustment reference value as the parameter adjustment value;

or,

In the case where the toggle parameter includes the scroll angle, the processor 701 may obtain the scroll angle of the user's scroll operation on the trackball of the crown of the smart watch, and generate the scroll angle according to the scroll angle and the preset calculation strategy. The adjustment reference value of the scroll operation is used as the parameter adjustment value.

Optionally, in this embodiment of the present invention, the above-mentioned crown includes a side touch screen, and the above-mentioned processor 701 can obtain the parameter adjustment value input by the user through the crown of the smart watch. The touch parameter of the touch operation of the touch screen on the side of the crown of the watch, the parameter adjustment value input by the user is determined according to the above touch parameter, and the above touch parameter includes at least one of the following toggle parameters: the number of touches, the number of touches control strength and touch frequency; or,

The above-mentioned processor 701 can obtain the sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, and determine the parameter adjustment value input by the user according to the above-mentioned sliding parameters, and the above-mentioned sliding parameters include at least one of the following sliding parameters: times, swipe strength, swipe speed, and touch distance.

In a specific implementation, the above-mentioned processor 701 obtains the touch parameters of the user's touch operation on the side touch screen of the crown of the smart watch, and the specific implementation manner of determining the parameter adjustment value input by the user according to the above-mentioned touch parameters may be:

In the case where the touch parameter includes the number of touches, the processor 701 may acquire the number of touches performed by the user for the touch operation on the side touch screen of the crown of the smart watch, according to the number of touches and the preset number of touches. Designing an arithmetic strategy to calculate an adjustment reference value of the touch operation, and using the adjustment reference value as a parameter adjustment value;

or,

In the case where the touch parameter includes the touch force, the processor 701 may acquire the touch force of the user's touch operation on the side touch screen of the crown of the smart watch, and generate the touch force according to the touch force. The adjustment reference value of the sliding operation, and the adjustment reference value is used as the parameter adjustment value;

or,

The processor 701 may also acquire the touch duration of M touch operations performed by the user on the joystick of the crown of the smart watch, and determine the touch frequency of the touch operation according to the touch duration of the M touch operations. , calculate the adjustment reference value of the toggle operation according to the touch frequency and the preset calculation strategy, use the adjustment reference value as a parameter adjustment value, and the M is a positive integer.

In a specific implementation, the above processor 701 obtains the sliding parameters of the user's sliding operation on the side touch screen of the crown of the smart watch, and the specific implementation method of determining the parameter adjustment value input by the user according to the above sliding parameters may be:

In the case where the sliding parameter includes the number of times of sliding, the processor 701 may acquire the number of times of sliding operations performed by the user on the side touch screen of the crown of the smart watch, and calculate the number of times of sliding according to the number of times of sliding and a preset calculation strategy. The adjustment reference value of the sliding operation, and the adjustment reference value is used as the parameter adjustment value;

or,

In the case where the sliding parameter includes the sliding force, the processor 701 may obtain the sliding force of the user's sliding operation on the side touch screen of the crown of the smart watch, and generate the adjustment of the sliding operation according to the sliding force. reference value, the adjustment reference value is used as the parameter adjustment value;

or,

In the case where the sliding parameter includes the sliding distance, the processor 701 may acquire the sliding distance of the user's sliding operation on the side touch screen of the crown of the smart watch, and generate the adjustment of the sliding operation according to the sliding distance reference value, the adjustment reference value is used as the parameter adjustment value;

or,

In the case where the sliding parameter includes the sliding speed, the processor 701 may acquire the sliding speed of the user's sliding operation on the side touch screen of the crown of the smart watch, and generate the adjustment of the sliding operation according to the sliding speed A reference value, and the adjustment reference value is used as a parameter adjustment value.

Optionally, in this embodiment of the present invention, a specific implementation manner for the above-mentioned processor 701 to establish a communication connection with the air conditioner may be: establishing a communication connection with the above-mentioned air conditioner according to an operation instruction of a user; or, when it is detected that the user is sleeping In the case of the above-mentioned air conditioner, establishing a communication connection with the above air conditioner, wherein the above-mentioned detecting that the user is in a sleep state includes: detecting that the user's heart rate value matches the heart rate value of the user's sleeping state, or detecting that the user's pulse is consistent with the user's heart rate value. The pulse of the sleep state is matched, or, it is detected that the body surface temperature of the user matches the body surface temperature of the user's sleep state.

It can be understood that the functions of each functional module of the smart watch in the embodiment of the present invention can be specifically implemented according to the method in the above method embodiment, and the specific implementation process can refer to the relevant description of the above method embodiment, which is not repeated here.

It can be seen that, in the embodiment of the present invention, the smart watch first establishes a communication connection with the air conditioner, secondly, obtains the parameter adjustment value input by the user through the crown of the smart watch, and finally sends the parameter adjustment value to the air conditioner through the communication connection. The parameter adjustment instruction of the value, the parameter adjustment instruction is used to instruct the air conditioner to adjust the current working parameters of the air conditioner according to the parameter adjustment value. It can be seen that the user can conveniently control the parameter adjustment of the air conditioner through the crown of the smart watch, without looking for the remote control to adjust the parameters of the air conditioner, and the smart watch has a strong correlation with the user, and is generally not used by other users to cause misoperation, thus It is beneficial to improve the convenience and accuracy of air conditioning parameter adjustment and improve user experience.

It should be noted that, for the sake of simple description, the foregoing method embodiments are all expressed as a series of action combinations, but those skilled in the art should know that the present invention is not limited by the described action sequence. As in accordance with the present invention, certain steps may be performed in other orders or simultaneously. Secondly, those skilled in the art should also know that the embodiments described in the specification are all preferred embodiments, and the actions and modules involved are not necessarily required by the present invention.

In the above-mentioned embodiments, the description of each embodiment has its own emphasis. For parts that are not described in detail in a certain embodiment, reference may be made to the relevant descriptions of other embodiments.

Those of ordinary skill in the art can understand that all or part of the steps in the various methods of the above embodiments can be completed by instructing relevant hardware through a program, and the program can be stored in a computer-readable storage medium, and the storage medium can include: Flash disk, read-only memory (English: Read-Only Memory, referred to as: ROM), random access device (English: Random Access Memory, referred to as: RAM), magnetic disk or optical disk, etc.

The embodiments of the present invention have been introduced in detail above, and specific examples are used to illustrate the principles and implementations of the present invention. The descriptions of the above embodiments are only used to help understand the methods and core ideas of the present invention; at the same time, for Persons of ordinary skill in the art, according to the idea of the present invention, will have changes in the specific embodiments and application scope. To sum up, the contents of this specification should not be construed as limiting the present invention.

Claims (8)

1. An air conditioner control method, comprising:

establishing communication connection with an air conditioner;

acquiring a parameter adjustment value input by a user through a crown of the intelligent watch; sending a parameter adjusting instruction carrying the parameter adjusting value to the air conditioner through the communication connection, wherein the parameter adjusting instruction is used for instructing the air conditioner to adjust the current working parameter of the air conditioner according to the parameter adjusting value;

wherein, the crown includes the side touch-sensitive screen, it includes to acquire the parameter adjustment value that the user passes through the crown input of smart watch:

the method comprises the steps of obtaining sliding times of sliding operation of a user on a side touch screen of a crown of the smart watch, calculating an adjustment reference value of the sliding operation according to the sliding times and a preset calculation strategy, and using the adjustment reference value as a parameter adjustment value, wherein the preset calculation strategy is to set the sliding times as the adjustment reference value; or

Acquiring the dialing time of M times of dialing operation of an operating lever of a crown of an intelligent watch by a user, wherein the dialing frequency of the dialing operation depends on the dialing time of the M times of dialing operation, calculating an adjustment reference value of the dialing operation according to the dialing frequency and a preset calculation strategy, and taking the adjustment reference value as a parameter adjustment value, wherein M is a positive integer; or

Acquiring touch frequency of touch operation of a user on a side touch screen of a crown of an intelligent watch, generating an adjustment reference value of the touch operation according to the touch frequency and a preset calculation strategy, and taking the adjustment reference value as a parameter adjustment value; or

The method comprises the steps of obtaining a sliding distance of a sliding operation of a user on a side touch screen of a crown of the smart watch, generating an adjustment reference value of the sliding operation according to the sliding distance, and taking the adjustment reference value as a parameter adjustment value, wherein the sliding distance is a track length value of a sliding track of the sliding operation of the user on the side touch screen of the crown of the smart watch, or a linear distance length value of an initial position and an end position of the sliding track of the sliding operation of the user on the side touch screen of the crown of the smart watch.

2. The method of claim 1, wherein the crown comprises a joystick, and wherein obtaining parameter adjustment values entered by a user through a crown of a smart watch comprises:

the method comprises the steps of obtaining a dialing parameter of a user aiming at the dialing operation of an operating lever of a crown of the intelligent watch, and determining a parameter adjustment value input by the user according to the dialing parameter, wherein the dialing parameter comprises at least one of the following dialing parameters: dialing times and dialing frequency.

3. The method of claim 2, wherein obtaining a dial parameter of a dial operation of a user with respect to a joystick of a crown of a smart watch, the determining a user-entered parameter adjustment value from the dial parameter comprises:

under the condition that the toggle parameters comprise the toggle times, acquiring the toggle times of a user for the toggle operation of an operating lever of a crown of the smart watch, and calculating an adjustment reference value of the toggle operation according to the toggle times and a preset calculation strategy, wherein the adjustment reference value is used as a parameter adjustment value;

or,

and under the condition that the toggle parameters comprise the toggle frequency, acquiring the toggle time of M times of toggle operations of a user aiming at an operating lever of a crown of the intelligent watch, and calculating an adjustment reference value of the toggle operations according to the toggle frequency of the toggle operations and a preset calculation strategy, wherein the toggle frequency of the toggle operations depends on the toggle time of the M times of toggle operations, the adjustment reference value is used as a parameter adjustment value, and M is a positive integer.

4. The method of claim 1, wherein the crown comprises a trackball, and wherein obtaining the parameter adjustment value entered by the user through the crown of the smart watch comprises:

the method comprises the steps of obtaining a rolling parameter of a user for rolling operation of a track ball of a crown of the smart watch, and determining a parameter adjustment value input by the user according to the rolling parameter, wherein the rolling parameter comprises at least one of the following rolling parameters: number of scrolling, scrolling angle.

5. The method of claim 4, wherein obtaining a scroll parameter of a scrolling operation of a user with respect to a trackball of a crown of a smart watch, determining a user-entered parameter adjustment value from the scroll parameter comprises:

under the condition that the rolling parameters comprise the rolling times, obtaining the rolling times of rolling operation of a user for a trackball of a crown of the intelligent watch, calculating an adjustment reference value of the rolling operation according to the rolling times and a preset calculation strategy, and taking the adjustment reference value as a parameter adjustment value;

or,

and under the condition that the rolling parameters comprise the rolling angle, obtaining the rolling angle of the rolling operation of a user for a track ball of a crown of the intelligent watch, generating an adjustment reference value of the rolling operation according to the rolling angle and a preset calculation strategy, and taking the adjustment reference value as a parameter adjustment value.

6. A smart watch, comprising:

the communication unit is used for establishing communication connection with the air conditioner;

the acquiring unit is used for acquiring a parameter adjustment value input by a user through a crown of the smart watch;

a sending unit, configured to send a parameter adjustment instruction carrying the parameter adjustment value to the air conditioner through the communication connection, where the parameter adjustment instruction is used to instruct the air conditioner to adjust a current working parameter of the air conditioner according to the parameter adjustment value;

wherein, the crown includes the side touch-sensitive screen, it includes to acquire the parameter adjustment value that the user passes through the crown input of smart watch:

the method comprises the steps of obtaining sliding times of sliding operation of a user on a side touch screen of a crown of the smart watch, calculating an adjustment reference value of the sliding operation according to the sliding times and a preset calculation strategy, and using the adjustment reference value as a parameter adjustment value, wherein the preset calculation strategy is to set the sliding times as the adjustment reference value; or

Acquiring the dialing time length of M times of dialing operation of an operating lever of a crown of an intelligent watch by a user, wherein the dialing frequency of the dialing operation depends on the dialing time length of the M times of dialing operation, calculating an adjustment reference value of the dialing operation according to the dialing frequency and a preset calculation strategy, and taking the adjustment reference value as a parameter adjustment value, wherein M is a positive integer; or

Acquiring touch frequency of touch operation of a user on a side touch screen of a crown of an intelligent watch, generating an adjustment reference value of the touch operation according to the touch frequency and a preset calculation strategy, and taking the adjustment reference value as a parameter adjustment value; or

The method comprises the steps of obtaining a sliding distance of a sliding operation of a user on a side touch screen of a crown of the smart watch, generating an adjustment reference value of the sliding operation according to the sliding distance, and taking the adjustment reference value as a parameter adjustment value, wherein the sliding distance is a track length value of a sliding track of the sliding operation of the user on the side touch screen of the crown of the smart watch, or a linear distance length value of an initial position and an end position of the sliding track of the sliding operation of the user on the side touch screen of the crown of the smart watch.

7. A computer-readable storage medium, characterized in that it stores a computer program which, when executed by hardware, is able to implement the method of any one of claims 1 to 5.

8. A smart watch, comprising:

a processor and at least one memory;

a set of program code is stored in the memory and the processor is configured to call the program code stored in the memory for performing the method of any of claims 1 to 5.

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