CN105864976B - Linkage control method and system of household electrical appliance and server - Google Patents

Abstract

The invention discloses a linkage control method and a system of household appliances and a server, wherein the household appliances comprise an air conditioner and a fan, and the linkage control method comprises the following steps: receiving a user instruction, wherein the user instruction comprises a linkage instruction and a scene instruction; the server establishes a linkage relation between the air conditioner and the fan according to the linkage instruction; the server acquires current environmental parameters of the environment where the air conditioner and the fan are located, and generates a control instruction according to the current environmental parameters and the scene instruction so as to perform linkage control on the air conditioner and the fan. The method can carry out linkage control on the air conditioner and the fan according to the current environmental parameters and scene instructions so as to realize quick circulation and quick cooling of air and maintain a comfortable, energy-saving, living-in and less-intervention intelligent and comfortable environmental space.

Description

Linkage control method and system for home appliances, and server

technical field

The invention relates to the technical field of intelligent control, in particular to a linkage control method of household electrical appliances, a linkage control system of household electrical appliances and a server.

Background technique

With the continuous improvement of users' intelligent living standards, the linkage control between household appliances is gradually increasing. For example, when a user gets up at 8 o'clock in the morning, the curtains and windows will be opened automatically, and then the speakers in the living room will be turned on accordingly. The rear air conditioner is also turned off etc.

The linkage control in the related art is mainly to control the sequential opening and closing of household appliances, and the linkage effect is not very ideal.

Contents of the invention

The present invention aims to solve one of the technical problems in the related art at least to a certain extent. Therefore, an object of the present invention is to propose a linkage control method for household appliances, which can perform linkage control on air conditioners and fans according to current environmental parameters and scene instructions, so as to achieve rapid air circulation and rapid cooling and maintain a comfortable and energy-saving environment. , Liveable, intelligent and comfortable environment space with less intervention.

Another object of the present invention is to provide a home appliance linkage control system.

Another object of the present invention is to propose a server.

To achieve the above object, an embodiment of an aspect of the present invention proposes a linkage control method for home appliances, the home appliances include an air conditioner and a fan, and the method includes the following steps: receiving a user instruction, wherein the user instruction includes linkage instruction and scene instruction; the server establishes the linkage relationship between the air conditioner and the fan according to the linkage instruction; the server acquires the current environmental parameters of the environment where the air conditioner and the fan are located, and The current environment parameter and the scene command are used to generate a control command to perform linkage control on the air conditioner and the fan.

The linkage control method for household electrical appliances in the embodiment of the present invention firstly receives user instructions, including linkage instructions and scene instructions, and then the server establishes the linkage relationship between the air conditioner and the fan according to the linkage instruction, and obtains the environment where the air conditioner and the fan are located. Current environmental parameters, and generate control commands based on current environmental parameters and scene commands to perform linkage control on air conditioners and fans, so as to achieve rapid air circulation and rapid cooling, and maintain a comfortable, energy-saving, livable, intelligent and comfortable environment with less intervention space.

According to an embodiment of the present invention, the user instruction is received by a control terminal, and the control terminal communicates with the server to send the user instruction to the server.

According to an embodiment of the present invention, the server receives the current environmental parameters detected by the air conditioner and/or the fan, or the server obtains the current environmental parameters of the environment where the air conditioner and the fan are located through the Internet .

According to an embodiment of the present invention, the current environment parameter includes indoor environment temperature, and generating a control instruction according to the current environment parameter and the scene instruction to perform linkage control on the air conditioner and the fan includes: When the server judges that the user is in the bedroom and enters a sleep state according to the scene instruction, judge the indoor ambient temperature; if the indoor ambient temperature is greater than or equal to the first temperature threshold, control the air conditioner to enter the sleep mode and Cooling operation at the first set temperature, while controlling the fan to enter the sleep wind mode and shake the head at the first set angle; if the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, control The air conditioner enters the sleep operation mode and operates at the first set temperature for cooling, and at the same time controls the fan to be in an off state; if the indoor ambient temperature is less than the second temperature threshold and greater than or equal to the third temperature threshold, control The air conditioner is in the off state, and at the same time control the fan to enter the sleep wind mode and shake its head at a first set angle; if the indoor ambient temperature is less than the third temperature threshold, control the air conditioner and the fan are closed.

According to an embodiment of the present invention, the current environment parameter includes indoor environment temperature, and generating a control instruction according to the current environment parameter and the scene instruction to perform linkage control on the air conditioner and the fan includes: When the server judges that the user is in the living room according to the scene instruction, judge the indoor ambient temperature; if the indoor ambient temperature is greater than or equal to a first temperature threshold, control the air conditioner to operate at a second set temperature for cooling, At the same time, the fan is controlled to operate at the first preset gear of normal wind, and shakes its head at the first set angle; if the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the third temperature threshold, then control the The air conditioner operates at a first set temperature for cooling, while controlling the fan to be in an off state, wherein the first set temperature is lower than the second set temperature; if the indoor ambient temperature is lower than the third temperature threshold, control the air conditioner to be in the off state, and at the same time control the fan to run at the second preset gear of normal wind and shake its head at the first set angle, wherein the second preset gear is smaller than the First preset gear.

According to an embodiment of the present invention, the household appliance further includes a humidifier and an air purifier, the humidifier sends the detected current indoor ambient humidity to the server, and the air purifier sends the detected current indoor humidity to the server. The air quality information is sent to the server, and the server controls the humidifier and the fan according to the current indoor ambient humidity and the current indoor air quality information while performing linkage control on the air conditioner and the fan. The air purifier performs linkage control.

According to an embodiment of the present invention, the server also acquires video images of the environment where the air conditioner and the fan are located, and pushes the video images to the control terminal for playback.

According to an embodiment of the present invention, the above-mentioned linkage control method for household electrical appliances further includes: monitoring the physiological parameters of the user, and sending the physiological parameters of the user to the server; A physiological parameter adjusts the control instruction.

In order to achieve the above purpose, another embodiment of the present invention proposes a home appliance linkage control system, including an air conditioner, a fan, and a server, wherein the server is used to establish the The linkage relationship between the air conditioner and the fan; the server is also used to obtain the current environmental parameters of the environment where the air conditioner and the fan are located, and according to the current environmental parameters and the scene in the user instruction The instruction generates a control instruction to perform linkage control on the air conditioner and the fan.

In the home appliance linkage control system of the embodiment of the present invention, the server establishes the linkage relationship between the air conditioner and the fan according to the linkage instruction received from the user, and obtains the current environmental parameters of the environment where the air conditioner and the fan are located, and according to The current environmental parameters and the scene instructions in the user instructions generate control instructions to perform linkage control on the air conditioner and fan, so as to achieve rapid air circulation and rapid cooling, and maintain a comfortable, energy-saving, livable, intelligent and comfortable environment space with less intervention.

According to an embodiment of the present invention, the above-mentioned home appliance linkage control system further includes a control terminal, the control terminal is used to receive the user instruction, and communicate with the server to send the user instruction to the said server.

According to an embodiment of the present invention, the server receives the current environmental parameters detected by the air conditioner and/or the fan, or the server obtains the current environmental parameters of the environment where the air conditioner and the fan are located through the Internet .

According to an embodiment of the present invention, the current environmental parameters include indoor ambient temperature, wherein the server judges the indoor ambient temperature when judging that the user is in a bedroom and enters a sleep state according to the scene instruction; if the If the indoor ambient temperature is greater than or equal to the first temperature threshold, the server controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan to enter the sleep wind mode and shake its head at the first set angle ; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, the server controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, while controlling the fan If the indoor ambient temperature is less than the second temperature threshold and greater than or equal to the third temperature threshold, the server controls the air conditioner to be in the off state, and at the same time controls the fan to enter the sleep wind mode and use the first Shake the head at a set angle; if the indoor ambient temperature is lower than the third temperature threshold, the server controls the air conditioner and the fan to be off.

According to an embodiment of the present invention, the current environment parameters include indoor environment temperature, wherein the server judges the indoor environment temperature when judging that the user is in the living room according to the scene instruction; if the indoor environment temperature is greater than is equal to the first temperature threshold, the server controls the air conditioner to operate at the second set temperature, and at the same time controls the fan to run at the first preset gear of normal wind and shake its head at the first set angle; if The indoor ambient temperature is less than the first temperature threshold and greater than or equal to the third temperature threshold, the server controls the air conditioner to operate at the first set temperature for cooling, and at the same time controls the fan to be turned off, wherein the The first set temperature is lower than the second set temperature; if the indoor ambient temperature is lower than the third temperature threshold, the server controls the air conditioner to be off, and controls the fan to operate normally. The second preset gear operates and shakes the head at a first set angle, wherein the second preset gear is smaller than the first preset gear.

According to an embodiment of the present invention, the above-mentioned home appliance linkage control system further includes a humidifier and an air purifier, the humidifier sends the detected current indoor ambient humidity to the server, and the air purifier detects The received current indoor air quality information is sent to the server, and the server performs linkage control on the air conditioner and the fan at the same time, according to the current indoor ambient humidity and the current indoor air quality information. The humidifier and the air purifier are linked and controlled.

According to an embodiment of the present invention, the server is further configured to obtain video images of the environment where the air conditioner and the fan are located, and push the video images to the control terminal for playback.

According to an embodiment of the present invention, the above-mentioned home appliance linkage control system further includes a monitoring device, the monitoring device is used to monitor the user's physiological parameters, and send the user's physiological parameters to the server, so The server adjusts the control instruction according to the physiological parameters of the user.

To achieve the above object, another embodiment of the present invention proposes a server, including: an acquisition module, configured to acquire user instructions, wherein the user instructions include linkage instructions and scene instructions; a communication module, configured to The linkage instruction establishes a communication connection with the air conditioner and the fan respectively, so as to establish the linkage relationship between the air conditioner and the fan; the processing module is used to obtain the current status of the environment where the air conditioner and the fan are located. Environmental parameters, and generate control instructions according to the current environmental parameters and the scene instructions to perform linkage control on the air conditioner and the fan.

The server in the embodiment of the present invention acquires user instructions through the acquisition module, including linkage instructions and scene instructions, and the communication module respectively establishes communication connections with the air conditioner and the fan according to the linkage instructions, so as to establish the linkage relationship between the air conditioner and the fan , the processing module obtains the current environmental parameters of the environment where the air conditioner and fan are located, and generates control instructions according to the current environmental parameters and scene instructions to perform linkage control on the air conditioner and fan, so as to achieve rapid air circulation and rapid cooling and maintain a comfortable, Energy-saving, livable, intelligent and comfortable environment space with less intervention.

According to an embodiment of the present invention, the obtaining module obtains the user instruction by communicating with the control terminal.

According to an embodiment of the present invention, the processing module receives the current environmental parameters detected by the air conditioner and/or the fan, or the processing module obtains the current environment parameters of the air conditioner and the fan through the Internet. Environmental parameters.

According to an embodiment of the present invention, the current environmental parameters include indoor ambient temperature, wherein the processing module judges the indoor ambient temperature when judging that the user is in a bedroom and enters a sleep state according to the scene instruction; if the If the indoor ambient temperature is greater than or equal to the first temperature threshold, the processing module controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan to enter the sleep wind mode and operate at the first set temperature. Angle shakes the head; if the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, the processing module controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, while controlling The fan is in the off state; if the indoor ambient temperature is less than the second temperature threshold and greater than or equal to the third temperature threshold, the processing module controls the air conditioner to be in the off state, and at the same time controls the fan to enter the sleep wind mode. mode and shake the head at the first set angle; if the indoor ambient temperature is lower than the third temperature threshold, the processing module controls both the air conditioner and the fan to be off.

According to an embodiment of the present invention, the current environment parameters include indoor environment temperature, wherein the processing module judges the indoor environment temperature when judging that the user is in the living room according to the scene instruction; if the indoor environment temperature greater than or equal to the first temperature threshold, the processing module controls the air conditioner to operate at the second set temperature for cooling, and at the same time controls the fan to operate at the first preset gear of normal wind and shake its head at the first set angle ; if the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the third temperature threshold, the processing module controls the air conditioner to operate at the first set temperature for cooling, and at the same time controls the fan to be turned off, Wherein, the first set temperature is lower than the second set temperature; if the indoor ambient temperature is lower than the third temperature threshold, the processing module controls the air conditioner to be in an off state, and controls the The fan operates at a second preset gear of normal wind and shakes its head at a first preset angle, wherein the second preset gear is smaller than the first preset gear.

According to an embodiment of the present invention, the processing module further acquires information about the current indoor ambient humidity and the current indoor air quality, and while performing linkage control on the air conditioner and the fan, according to the current indoor ambient humidity and the current indoor air quality information, The current indoor air quality information performs linkage control on the humidifier and the air purifier.

According to an embodiment of the present invention, the processing module further acquires video images of the environment where the air conditioner and the fan are located, and pushes the video images to the control terminal for playback.

According to an embodiment of the present invention, the processing module further acquires physiological parameters of the user, and adjusts the control instruction according to the physiological parameters of the user.

Description of drawings

Fig. 1 is a flowchart of a linkage control method for household electrical appliances according to an embodiment of the present invention.

Fig. 2-Fig. 3 are the APP program interface of the linkage control of household electrical appliances according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a home appliance linkage control system according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a home appliance linkage control system according to another embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a home appliance linkage control system according to yet another embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a server according to an embodiment of the present invention.

Detailed ways

Embodiments of the present invention are described in detail below, examples of which are shown in the drawings, wherein the same or similar reference numerals designate the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the figures are exemplary and are intended to explain the present invention and should not be construed as limiting the present invention.

The following describes the linkage control method for household electrical appliances, the linkage control system for household electrical appliances and the server according to the embodiments of the present invention with reference to the accompanying drawings.

Fig. 1 is a flow chart of a linkage control method for household appliances according to an embodiment of the present invention, wherein the household appliances include an air conditioner and a fan. As shown in FIG. 1, the linkage control method of the household appliances includes the following steps:

S1. Receive a user instruction, where the user instruction includes a linkage instruction and a scene instruction.

According to an embodiment of the present invention, the control terminal receives the user instruction, and the control terminal communicates with the server to send the user instruction to the server.

S2, the server establishes the linkage relationship between the air conditioner and the fan according to the linkage instruction.

Specifically, when the user needs the linkage control of the air conditioner and the fan, the control terminal (such as a mobile phone, a tablet computer, a personal computer, etc.) ) program sends a linkage command to the server, and after receiving the linkage command, the server communicates with the fan and the air conditioner respectively through the Internet to establish a linkage relationship between the air conditioner and the fan. After the air conditioner and the fan successfully establish the linkage relationship, the server will feed back the successful linkage signal to the control terminal for display, and then the user can select a scene according to his own needs, such as the user sleeping in the bedroom or the user just returning home, etc. After the selection is completed, the control terminal will A scene instruction corresponding to the selected scene is sent to the server.

S3, the server obtains the current environment parameters of the environment where the air conditioner and the fan are located, and generates a control instruction according to the current environment parameter and the scene instruction to perform linkage control on the air conditioner and the fan.

Specifically, after the server receives the scene instruction, the server obtains the current environmental parameters of the environment where the air conditioner and the fan are located, such as indoor ambient temperature, indoor ambient humidity, and indoor air quality, etc., and then the server Generate control instructions for linked control of air conditioners and fans. For example, the current environment parameters, scene instructions, home appliances and control instructions corresponding to home appliances can be correspondingly stored in the server in advance. After receiving the scene instructions, the server obtains the corresponding home appliances and According to the control instructions corresponding to the home appliances, the server then controls the corresponding home appliances according to the control instructions, including the opening and closing of the fan, the wind speed of the fan, the angle of the shaking head of the fan, the opening and closing of the air conditioner, and the wind speed of the air conditioner, etc., so that according to the user The use scene performs linkage control on the fan and air conditioner to accelerate the rapid circulation of air, rapid cooling, etc., and turns on and off the fan or air conditioner under appropriate indoor ambient temperature and humidity conditions, which can not only ensure the comfort of users , improve user experience, and can achieve the purpose of energy saving.

According to an embodiment of the present invention, the server receives the current environmental parameters detected by the air conditioner and/or the fan, or the server obtains the current environmental parameters of the environment where the air conditioner and the fan are located through the Internet.

That is to say, the server can use the current environmental parameters detected by the air conditioner as the current environmental parameters for linkage control, or use the current environmental parameters detected by the fan as the current environment parameters for linkage control, or use the current environmental parameters detected by the air conditioner and The current environmental parameters detected by the fan are used as the current environmental parameters of the linkage control, and the current environmental parameters of the environment where the air conditioner and the fan are located can also be obtained through the Internet.

According to an embodiment of the present invention, the current environmental parameters include the indoor ambient temperature, and generating control instructions according to the current environmental parameters and scene instructions to perform linkage control on the air conditioner and the fan includes: the server judges that the user is in the bedroom and enters a sleep state according to the scene instructions , to determine the indoor ambient temperature; if the indoor ambient temperature is greater than or equal to the first temperature threshold, control the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time control the fan to enter the sleep wind mode and shake the head at the first set angle ; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, then control the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, while controlling the fan to be off; if the indoor ambient temperature is lower than the second If the temperature threshold is greater than or equal to the third temperature threshold, the air conditioner is controlled to be off, and the fan is controlled to enter the sleep wind mode and shake its head at the first set angle; if the indoor ambient temperature is less than the third temperature threshold, the air conditioner and the fan are controlled are closed. In this way, the purpose of rapid cooling can be achieved, the actual needs of users can be met, and the energy saving effect can be achieved. Wherein, the first to third temperature thresholds, the first set temperature and the first set angle can be set according to user requirements, as shown in Table 1 for details.

Table 1

According to an embodiment of the present invention, the current environment parameters include the indoor environment temperature, and generating control instructions according to the current environment parameters and scene instructions to perform linkage control on the air conditioner and the fan includes: judging the indoor environment when the server judges that the user is in the living room according to the scene instructions temperature; if the indoor ambient temperature is greater than or equal to the first temperature threshold, control the air conditioner to operate at the second set temperature for cooling, and at the same time control the fan to run at the first preset gear of normal wind and shake its head at the first set angle; if When the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the third temperature threshold, the air conditioner is controlled to operate at the first set temperature for cooling, and at the same time, the fan is controlled to be turned off, wherein the first set temperature is lower than the second set temperature; If the indoor ambient temperature is lower than the third temperature threshold, the air conditioner is controlled to be turned off, and the fan is controlled to run at the second preset gear of normal wind and shake its head at the first set angle. In this way, the purpose of rapid cooling can be achieved, the actual needs of users can be met, and the energy saving effect can be achieved. Wherein, the second preset gear is smaller than the first preset gear, and the second set temperature, the first preset gear and the second preset gear can be set according to user requirements. The details are shown in Table 2.

Table 2

According to an embodiment of the present invention, the home appliance further includes a humidifier and an air purifier, the humidifier sends the detected current indoor ambient humidity to the server, the air purifier sends the detected current indoor air quality information to the server, and the server While performing linkage control on the air conditioner and the fan, it also performs linkage control on the humidifier and the air purifier according to the current indoor ambient humidity and the current indoor air quality information.

That is to say, corresponding home appliances, such as humidifiers and air purifiers, can be added according to user needs, so as to further improve the comfort brought by linkage control to users. When the household appliances include humidifiers and air purifiers, etc., the server can receive the current indoor ambient humidity detected by the humidifier, and receive the current indoor air quality information detected by the air purifier, and then according to the current indoor ambient humidity, current indoor air quality The information performs linkage control on the humidifier and the air purifier.

Specifically, as shown in Table 3, when the indoor ambient humidity is less than the first humidity threshold, the humidifier is controlled to operate at the first set humidity; when the indoor ambient humidity is greater than or equal to the second humidity threshold, the humidifier is controlled to be turned off. When the indoor air quality information such as PM2.5 (fine particles) is greater than or equal to the first air quality threshold, the control purifier is turned on; when the indoor air quality information such as PM2.5 is less than the second air quality threshold, the control purifier is turned off. In order to maintain a comfortable, energy-saving and livable environment, the user experience is greatly improved. Wherein, the first humidity threshold is less than the second humidity threshold, the first air quality threshold is greater than the second air quality threshold, and the first to second humidity thresholds, the first set humidity, and the first to second air quality thresholds can be set according to user needs set up.

table 3

The linkage control method for household electrical appliances of the present invention will be described below in conjunction with a specific example of the present invention.

Before the user needs the linkage control of the air conditioner and the fan, the air conditioner can be activated through the QR code or barcode, that is, the model of the air conditioner that may be linked with the fan is stored in the control terminal. When the user needs the linkage control of the air conditioner and the fan, the user can first turn on the fan and the air conditioner through the remote control, or communicate with the smart switch set on the power supply end of the fan and the air conditioner through the control terminal, so as to turn on the fan and the air conditioner through the smart switch switch on.

After the fan and the air conditioner are turned on, as shown in Figure 2, the user can click "Select Air Conditioner" in the air conditioner column to select the air conditioner that needs linkage control, as shown in Figure 3, in the pop-up air conditioner selection list window Displays the model of the air conditioner that can be controlled in linkage at present. After the user selects the air conditioner with the model KFR-35GW and clicks the "OK" button, the linkage relationship between the fan and the KFR-35GW air conditioner is bound, and then the user After clicking the "Open" button in the linkage column, the linkage command is sent to the server. If there is no air conditioner that can be linked to control in the air conditioner selection list window, the air conditioner selection list window will display "No air conditioner that can be linked, you need to use Midea smart air conditioner to use the linkage function", and it is forbidden to start the linkage control function, and the linkage bar will be "Associate air conditioner first" is displayed.

After receiving the linkage instruction, the server establishes communication connections with the air conditioner and the fan respectively through the Internet, so as to establish the linkage relationship between the air conditioner and the fan. If the linkage relationship is successfully established, the server will feed back the linkage success signal to the control terminal for display, as shown in Figure 2, which displays "KFR-35GW is connected"; if the linkage relationship is not successfully established, the server will feed back the linkage failure signal to If the control terminal displays "air conditioner linkage not connected", it will remind the user. At this time, the user can cancel the linkage control by clicking the "Cancel" button.

After the linkage relationship is successfully established, the user clicks on the scene bar to select a scene. After the scene selection is completed, the control terminal sends the scene instruction corresponding to the scene selected by the user to the server. After receiving the scene instruction, the server receives the current environmental parameters detected by the air conditioner and/or the fan, or obtains the current environmental parameters of the environment where the air conditioner and the fan are located through the Internet. Then, according to the current environmental parameters and scene instructions, the server controls the fan and the air conditioner according to the linkage rules corresponding to Table 3, so that the information exchange, mutual understanding, communication and mutual control between the air conditioner and the fan can be achieved, and the air can be quickly Circulation, rapid cooling, and maintaining a comfortable, energy-saving, livable, and less-intervention smart and comfortable environment space greatly improves the user experience.

During the linkage control process, if the fan or air conditioner has abnormal conditions such as power failure, the server will also feed back the abnormal status information to the control terminal to remind the user, so that the user can keep abreast of the current linkage control status. When the user needs to end the linkage control, he can close the linkage control through the "Close" button in the linkage bar. In addition, when the fan and the air conditioner are linked, if the user closes the APP program, the user will be reminded.

It should be noted that, in the embodiment of the present invention, one fan can be linked with one air conditioner, and one air conditioner can be linked with multiple fans. When the linkage control is turned on and off, the server will also synchronize the linkage status to the air conditioner. When the air conditioner is linked with multiple fans at the same time, the air conditioner will store the model and related information of the currently connected fans in the form of a list. If the linkage is canceled control, delete the fan model and related information.

According to an embodiment of the present invention, the server also obtains video images of the environment where the air conditioner and the fan are located, and pushes the video images to the control terminal for playback.

Specifically, the video image of the environment where the air conditioner and fan are located can be obtained through the camera device, and then the video image is sent to the server through the Internet. After the server processes the video image information, the video image is sent to the control terminal. Play the video. For example, when the user is not at home, he can check the sleeping conditions of the children at home through the mobile phone, so as to make the user more at ease. Or, send data such as the user's sleep state and sleep quality to the control terminal through face recognition technology.

According to an embodiment of the present invention, the above linkage control method for household appliances further includes: monitoring the user's physiological parameters, and sending the user's physiological parameters to the server; the server adjusts the control instruction according to the user's physiological parameters.

Specifically, the user's physiological parameters can be monitored through somatosensory, including the user's body temperature, posture, expression, and impatience, etc., and then the user's physiological parameters are sent to the server, and the server adjusts the wind speed and angle of the air conditioner and fan according to the user's physiological parameters , or turn on and off the air conditioner or fan, etc., to achieve the purpose of self-adaptation. For example, when the user is sleeping, the fan and the air conditioner can be adjusted according to the user's physiological parameters, thereby providing the user with a comfortable and quiet indoor environment, thereby improving the user's sleep quality and sleep time.

To sum up, the linkage control method for household electrical appliances in the embodiment of the present invention first receives user instructions, including linkage instructions and scene instructions, and then the server establishes the linkage relationship between the air conditioner and the fan according to the linkage instructions, and obtains the air conditioner and The current environmental parameters of the environment where the fan is located, and generate control instructions based on the current environmental parameters and scene instructions to perform linkage control on the air conditioner and fan, so as to achieve rapid air circulation and rapid cooling and maintain a comfortable, energy-saving, livable environment with less intervention Intelligent and comfortable environment space.

Fig. 4 is a schematic structural diagram of a home appliance linkage control system according to an embodiment of the present invention. As shown in FIG. 4 , the home appliance linkage control system includes an air conditioner 10 , a fan 20 and a server 30 .

Among them, the server 30 is used to establish the linkage relationship between the air conditioner 10 and the fan 20 according to the linkage instruction received from the user, and obtain the current environment parameters of the environment where the air conditioner 10 and the fan 20 are located, and according to the current environment parameters A control instruction is generated with the scene instruction in the user instruction to perform linkage control on the air conditioner 10 and the fan 20 .

As shown in FIG. 4 , the above-mentioned home appliance linkage control system further includes a control terminal 40 for receiving user instructions and communicating with the server 30 to send the user instructions to the server 30 .

Specifically, when the user needs the linkage control of the air conditioner 10 and the fan 20, the control terminal 40 (such as a mobile phone, a tablet computer, a personal computer, etc.) The APP program sends a linkage command to the server 30, and the server 30 communicates with the fan 20 and the air conditioner 10 through the Internet after receiving the linkage command to establish a linkage relationship between the air conditioner 10 and the fan 20. After the air conditioner 10 and the fan 20 have successfully established a linkage relationship, the server 30 will feed back a successful linkage signal to the control terminal 40 for display, and then the user selects a scene according to his own needs, such as the user sleeping in the bedroom or the user just returning home, etc. After the selection is completed , the control terminal 40 sends the scene instruction corresponding to the selected scene to the server 30 .

After the server 30 receives the scene instruction, the server 30 obtains the current environmental parameters of the environment where the air conditioner 10 and the fan 20 are located, such as indoor ambient temperature, indoor ambient humidity, and indoor air quality, etc. The scenario command generates a control command to perform linkage control on the air conditioner 10 and the fan 20 . For example, the current environment parameters, scene instructions, home appliances and control instructions corresponding to home appliances can be correspondingly stored in the server 30 in advance. After receiving the scene instructions, the server 30 obtains the corresponding home appliances by querying according to the current environment parameters and scene instructions. The control instructions corresponding to the equipment and the household appliances, and then the server 30 controls the corresponding household appliances according to the control instructions, including the opening and closing of the fan 20, the wind speed of the fan 20, the shaking angle of the fan 20, the opening and closing of the air conditioner 10 and the air conditioner 10 wind speed, etc., so as to perform linkage control on the fan and air conditioner according to the user's usage scenario, so as to accelerate the rapid circulation of air, rapid cooling, etc., and turn on and off the fan or air conditioner under suitable indoor ambient temperature, humidity and other conditions , not only can ensure the comfort of the user, improve the user experience, but also achieve the purpose of energy saving.

According to an embodiment of the present invention, the server 30 receives the current environmental parameters detected by the air conditioner 10 and/or the fan 20, or the server 30 obtains the current environmental parameters of the environment where the air conditioner 10 and the fan 20 are located through the Internet.

According to one embodiment of the present invention, as shown in Table 1, the current environmental parameters include indoor ambient temperature, wherein, when the server 30 judges that the user is in a bedroom and enters a sleep state according to the scene instruction, the indoor ambient temperature is judged; if the indoor ambient temperature is greater than or equal to The first temperature threshold, the server 30 then controls the air conditioner 10 to enter the sleep operation mode and operates with cooling at the first set temperature, and simultaneously controls the fan 20 to enter the sleep wind mode and shakes its head at the first set angle; if the indoor ambient temperature is lower than the first set temperature temperature threshold and greater than or equal to the second temperature threshold, the server 30 will control the air conditioner 10 to enter the sleep mode and operate at the first set temperature for cooling, while controlling the fan 20 to be in an off state; if the indoor ambient temperature is less than the second temperature threshold and greater than equal to the third temperature threshold, the server 30 controls the air conditioner 10 to be in an off state, and simultaneously controls the fan 20 to enter the sleeping wind mode and shakes its head at a first set angle; if the indoor ambient temperature is less than the third temperature threshold, the server 30 controls the air conditioner 10 and fan 20 are all in off state. In this way, the purpose of rapid cooling can be achieved, the actual needs of users can be met, and the energy saving effect can be achieved.

According to an embodiment of the present invention, as shown in Table 2, the current environmental parameters include the indoor environment temperature, wherein, when the server 30 judges that the user is in the living room according to the scene instruction, the indoor environment temperature is judged; if the indoor environment temperature is greater than or equal to the first temperature threshold , the server 30 controls the air conditioner 10 to operate at the second set temperature for cooling, and at the same time controls the fan 20 to run at the first preset gear of normal wind and shake its head at the first set angle; if the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the third temperature threshold, the server 30 controls the air conditioner 10 to operate at the first set temperature for cooling, and at the same time controls the fan 20 to be in an off state, wherein the first set temperature is less than the second set temperature; if the indoor ambient temperature is less than the third temperature threshold, the server 30 controls the air conditioner 10 to be in the off state, and at the same time controls the fan 20 to run at the second preset gear of normal wind and shake its head at the first set angle, wherein the second preset gear is less than First preset gear. In this way, the purpose of rapid cooling can be achieved, the actual needs of users can be met, and the energy saving effect can be achieved.

According to an embodiment of the present invention, as shown in FIG. 5, the above-mentioned home appliance linkage control system further includes a humidifier 50 and an air purifier 60. The humidifier 50 sends the detected current indoor ambient humidity to the server 30, and the air The purifier 60 sends the detected current indoor air quality information to the server 30. While the server 30 performs linkage control on the air conditioner 10 and the fan 20, it also controls the humidifier 50 and the humidifier 50 according to the current indoor ambient humidity and the current indoor air quality information. The air cleaner 60 performs linkage control.

That is to say, corresponding household electrical appliances, such as humidifier 50 and air purifier 60 , can be added according to user needs, so as to further improve the comfort brought by the linkage control to the user. When the home appliance includes humidifier 50 and air cleaner 60, etc., server 30 can receive the current indoor ambient humidity detected by humidifier 30, and receive the current indoor air quality information detected by air cleaner 60, and then according to the current indoor ambient humidity , The current indoor air quality information performs linkage control on the humidifier 50 and the air cleaner 60 . The details are shown in Table 3, and will not be repeated here.

The home appliance linkage control system of the present invention will be described below in conjunction with a specific example of the present invention.

Before the user needs the linkage control of the air conditioner 10 and the fan 20 , the air conditioner 10 can be activated through a two-dimensional code or barcode, that is, the model of the air conditioner 10 that may be linked with the fan 20 is stored in the control terminal 40 . When the user needs the linkage control of the air conditioner 10 and the fan 20, the user can first turn on the fan 20 and the air conditioner 10 through the remote control, and can also communicate with the smart switch provided at the power supply end of the fan 20 and the air conditioner 10 through the control terminal 40 to Turn on the fan 20 and the air conditioner 10 by the smart switch.

After the fan 20 and the air conditioner 10 are turned on, as shown in Figure 2, the user can select the air conditioner 10 that requires linkage control by clicking "Select Air Conditioner" in the air conditioner column, as shown in Figure 3, select the air conditioner in the pop-up The list window shows the models of the air conditioners 10 that can be linked and controlled at present. After the user selects the air conditioner 10 with the model KFR-35GW and clicks the "OK" button, the fan 20 and the KFR-35GW air conditioner will be bound. 10 linkage relationship, and then the user sends a linkage instruction to the server 30 after clicking the "open" button in the linkage column. If there is no air conditioner 10 that can be linked to control in the air conditioner selection list window, the air conditioner selection list window will display "No air conditioner that can be linked, you need to use Midea smart air conditioner to use the linkage function", and it is forbidden to start the linkage control function. "Associate air conditioner first" will be displayed.

After receiving the linkage instruction, the server 30 respectively establishes communication connections with the air conditioner 10 and the fan 20 through the Internet, so as to establish the linkage relationship between the air conditioner 10 and the fan 20 . If the linkage relationship is successfully established, the server 30 will feed back a linkage success signal to the control terminal 40 for display, as shown in Figure 2, which displays "KFR-35GW is connected"; if the linkage relationship is not successfully established, the server 30 will fail the linkage The signal is fed back to the control terminal 40, and if "air conditioner linkage not connected" is displayed to remind the user, the user can click the "cancel" button to cancel the linkage control.

After the linkage relationship is successfully established, the user clicks on the scene bar to select a scene. After the scene selection is completed, the control terminal 40 sends the scene instruction corresponding to the scene selected by the user to the server 30 . After receiving the scene instruction, the server 30 receives the current environmental parameters detected by the air conditioner 10 and/or the fan 20 , or obtains the current environmental parameters of the environment where the air conditioner 10 and the fan 20 are located through the Internet. Then, the server 30 controls the fan 20 and the air conditioner 10 in accordance with the linkage rules corresponding to Table 3 according to the current environmental parameters and scene instructions, so that the intercommunication, mutual understanding, communication and mutual control of information between the air conditioner 10 and the fan 20 , to achieve rapid air circulation, rapid cooling, and maintain a comfortable, energy-saving, livable, intelligent and comfortable environment space with less intervention, which greatly improves the user experience.

During the linkage control process, if the fan 20 or the air conditioner 10 has abnormal conditions such as power failure, the server 30 will also feed back the abnormal status information to the control terminal 40 to remind the user, so that the user can know the current linkage control status in time. When the user needs to end the linkage control, he can close the linkage control through the "Close" button in the linkage bar. In addition, when the fan 20 and the air conditioner 10 are in the linked state, if the user closes the APP program, the user will be reminded.

It should be noted that, in the embodiment of the present invention, one fan 20 can be linked with one air conditioner 10 , and one air conditioner 10 can be linked with multiple fans 20 . When the linkage control is turned on and off, the server 30 will also synchronize the linkage status to the air conditioner 10. When the air conditioner 10 is linked with multiple fans 20 at the same time, the air conditioner 10 will store the model and model number of the currently connected fans 20 in the form of a list. For related information, if the linkage control is canceled, the model number and related information of the fan 20 will be deleted.

According to an embodiment of the present invention, the server 30 is also used to obtain video images of the environment where the air conditioner 10 and the fan 20 are located, and push the video images to the control terminal 40 for playback.

Specifically, the video image of the environment where the air conditioner 10 and the fan 20 are located can be obtained by the camera device, and then the video image is sent to the server 30 through the Internet, and the server 30 processes the video image information, and then the video image is sent to the control terminal 40 , the user can play the video according to their needs. For example, when the user is not at home, he can check the sleeping conditions of the children at home through the mobile phone, so as to make the user more at ease. Alternatively, data such as the user's sleep state and sleep quality are sent to the control terminal 40 through face recognition technology.

According to an embodiment of the present invention, as shown in FIG. 6, the above-mentioned home appliance linkage control system further includes a monitoring device 70, which is used to monitor the user's physiological parameters and send the user's physiological parameters to the server 30, The server 30 adjusts the control instructions according to the physiological parameters of the user.

Specifically, the user's physiological parameters can be monitored through the body sensing device, including the user's body temperature, body posture, expression, and irritability, etc., and then the user's physiological parameters are sent to the server 30, and the server 30 adjusts the air conditioner 10 according to the user's physiological parameters. The wind speed and angle of the fan 20, or turn on and off the air conditioner 10 or the fan 20, etc., to achieve the purpose of self-adaptation. For example, when the user is sleeping, the fan 20 and the air conditioner 10 can be adjusted according to the physiological parameters of the user, thereby providing the user with a comfortable and quiet indoor environment, thereby improving the user's sleep quality and sleep time.

In the home appliance linkage control system of the embodiment of the present invention, the server establishes the linkage relationship between the air conditioner and the fan according to the linkage instruction received from the user, and obtains the current environmental parameters of the environment where the air conditioner and the fan are located, and according to The current environmental parameters and the scene instructions in the user instructions generate control instructions to perform linkage control on the air conditioner and fan, so as to achieve rapid air circulation and rapid cooling, and maintain a comfortable, energy-saving, livable, intelligent and comfortable environment space with less intervention.

Fig. 7 is a schematic structural diagram of a server according to an embodiment of the present invention. As shown in FIG. 7 , the server includes: an acquisition module 101 , a communication module 102 and a processing module 103 .

Specifically, the obtaining module 101 is used to obtain user instructions, and the user instructions include linkage instructions and scene instructions. The communication module 102 is configured to respectively establish communication connections with the air conditioner and the fan according to the linkage instruction, so as to establish a linkage relationship between the air conditioner and the fan. The processing module 103 is used to obtain the current environmental parameters of the environment where the air conditioner and the fan are located, and generate control instructions according to the current environmental parameters and scene instructions to perform linkage control on the air conditioner and the fan.

Wherein, the obtaining module 101 obtains user instructions by communicating with the control terminal.

Specifically, when the user needs the linkage control of the air conditioner and the fan, the control terminal (such as a mobile phone, tablet computer, personal computer, etc.) can first establish communication with the server through the Internet, and then the user can send the linkage control through the APP program in the control terminal. The command is sent to the acquisition module 101, and after receiving the linkage command, the communication module 102 communicates with the fan and the air conditioner respectively through the Internet to establish a linkage relationship between the air conditioner and the fan. After the linkage relationship between the air conditioner and the fan is successfully established, the processing module 103 will feed back the successful linkage signal to the control terminal for display, and then the user selects a scene according to his own needs, such as the user sleeping in the bedroom or the user just returning home, etc. After the selection is completed, the control The terminal sends the scene instruction corresponding to the selected scene to the acquiring module 101 .

After receiving the scene instruction, the processing module 103 obtains the current environmental parameters of the environment where the air conditioner and the fan are located, such as indoor ambient temperature, indoor ambient humidity, and indoor air quality, etc., and then the processing module 103 Generate control instructions for linked control of air conditioners and fans. For example, the current environment parameters, scene instructions, home appliances and control instructions corresponding to the home appliances can be correspondingly stored in the database of the processing module 103 in advance, and the processing module 103 can use query etc. The corresponding household appliances and the control instructions corresponding to the household appliances are obtained by means of the method, and then the processing module 103 controls the corresponding household appliances according to the control instructions, including the opening and closing of the fan, the wind speed of the fan, the shaking angle of the fan, the opening and closing of the air conditioner, and the air conditioner. The wind speed of the air conditioner, etc., so as to perform linkage control on the fan and air conditioner according to the user's usage scenario, so as to accelerate the rapid circulation of air, rapid cooling, etc., and turn on and off the fan or air conditioner under suitable indoor ambient temperature, humidity and other conditions , not only can ensure the comfort of the user, improve the user experience, but also achieve the purpose of energy saving.

According to an embodiment of the present invention, the processing module 103 receives the current environmental parameters detected by the air conditioner and/or the fan, or the processing module 103 obtains the current environmental parameters of the environment where the air conditioner and the fan are located through the Internet.

According to an embodiment of the present invention, as shown in Table 1, the current environmental parameters include indoor ambient temperature, wherein, when the processing module 103 judges that the user is in a bedroom and enters a sleep state according to the scene instruction, judge the indoor ambient temperature; if the indoor ambient temperature is greater than is equal to the first temperature threshold, the processing module 103 controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan to enter the sleep wind mode and shake the head at the first set angle; if the indoor ambient temperature is lower than the first temperature threshold and greater than or equal to the second temperature threshold, the processing module 103 controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, while controlling the fan to be off; if the indoor ambient temperature is less than the second temperature threshold and greater than or equal to The third temperature threshold, the processing module 103 controls the air conditioner to be in an off state, and simultaneously controls the fan to enter the sleep wind mode and shakes its head at a first set angle; if the indoor ambient temperature is less than the third temperature threshold, the processing module 103 controls the air conditioner and The fans are all off. In this way, the purpose of rapid cooling can be achieved, the actual needs of users can be met, and the energy saving effect can be achieved.

According to an embodiment of the present invention, as shown in Table 2, the current environmental parameters include indoor environmental temperature, wherein, when the processing module 103 judges that the user is in the living room according to the scene instruction, determine the indoor environmental temperature; if the indoor environmental temperature is greater than or equal to the first temperature threshold, the processing module 103 controls the air conditioner to operate at the second set temperature for cooling, and at the same time controls the fan to run at the first preset gear of normal wind and shake its head at the first set angle; if the indoor ambient temperature is less than the first temperature threshold and is greater than or equal to the third temperature threshold, the processing module 103 controls the air conditioner to operate at the first set temperature for cooling, and at the same time controls the fan to be in the off state, wherein the first set temperature is lower than the second set temperature; if the indoor ambient temperature is lower than The third temperature threshold, the processing module 103 controls the air conditioner to be in the off state, and at the same time controls the fan to run at the second preset gear of normal wind and shake its head at the first set angle, wherein the second preset gear is smaller than the first Default gear. In this way, the purpose of rapid cooling can be achieved, the actual needs of users can be met, and the energy saving effect can be achieved.

According to an embodiment of the present invention, the processing module 103 also obtains information about the current indoor ambient humidity and current indoor air quality, and controls the humidification according to the current indoor ambient humidity and current indoor air quality information while performing linkage control on the air conditioner and the fan. Air purifiers and air purifiers are linked to control.

That is to say, corresponding home appliances, such as humidifiers and air purifiers, can be added according to user needs, so as to further improve the comfort brought by linkage control to users. When the household appliances include humidifiers and air purifiers, etc., the processing module 103 can receive the current indoor ambient humidity detected by the humidifier, and receive the current indoor air quality information detected by the air purifier, and then according to the current indoor ambient humidity, the current indoor The air quality information performs linkage control on the humidifier and the air purifier, as shown in Table 3, and will not be repeated here.

The server of the present invention will be described below in conjunction with a specific example of the present invention.

Before the user needs the linkage control of the air conditioner and the fan, the air conditioner can be activated through the QR code or barcode, that is, the model of the air conditioner that may be linked with the fan is stored in the control terminal. When the user needs the linkage control of the air conditioner and the fan, the user can first turn on the fan and the air conditioner through the remote control, or communicate with the smart switch set on the power supply end of the fan and the air conditioner through the control terminal, so as to turn on the fan and the air conditioner through the smart switch switch on.

After the fan and the air conditioner are turned on, as shown in Figure 2, the user can click "Select Air Conditioner" in the air conditioner column to select the air conditioner that needs linkage control, as shown in Figure 3, in the pop-up air conditioner selection list window Displays the model of the air conditioner that can be controlled in linkage at present. After the user selects the air conditioner with the model KFR-35GW and clicks the "OK" button, the linkage relationship between the fan and the KFR-35GW air conditioner is bound, and then the user After clicking the “Open” button in the linkage column, the linkage instruction is sent to the acquiring module 101 . If there is no air conditioner that can be linked to control in the air conditioner selection list window, the air conditioner selection list window will display "No air conditioner that can be linked, you need to use Midea smart air conditioner to use the linkage function", and it is forbidden to start the linkage control function, and the linkage bar will be "Associate air conditioner first" is displayed.

After receiving the linkage instruction, the communication module 102 respectively establishes communication connections with the air conditioner and the fan through the Internet, so as to establish a linkage relationship between the air conditioner and the fan. If the linkage relationship is successfully established, the processing module 103 will feed back a linkage success signal to the control terminal for display, as shown in Figure 2, which displays "KFR-35GW is connected"; if the linkage relationship is not successfully established, then the processing module 103 will linkage The failure signal is fed back to the control terminal, such as displaying "air conditioner linkage not connected" to remind the user, at this time the user can cancel the linkage control by clicking the "Cancel" button.

After the linkage relationship is successfully established, the user selects a scene by clicking on the scene column. After the scene selection is completed, the control terminal sends the scene command corresponding to the scene selected by the user to the acquiring module 101 . After receiving the scene instruction, the processing module 103 receives the current environmental parameters detected by the air conditioner and/or the fan, or obtains the current environmental parameters of the environment where the air conditioner and the fan are located through the Internet. Then, the processing module 103 controls the fan and the air conditioner according to the linkage rules corresponding to Table 3 according to the current environmental parameters and scene instructions, so that the information communication, mutual understanding, communication and mutual control between the air conditioner and the fan are realized, and air The rapid circulation, rapid cooling, and maintenance in a comfortable, energy-saving, livable, and less-intervention smart and comfortable environment space greatly improve the user experience.

During the linkage control process, if the fan or air conditioner has abnormal conditions such as power failure, the processing module 103 will also feed back the abnormal status information to the control terminal to remind the user, so that the user can know the current linkage control status in time. When the user needs to end the linkage control, he can close the linkage control through the "Close" button in the linkage bar. In addition, when the fan and the air conditioner are linked, if the user closes the APP program, the user will be reminded.

It should be noted that, in the embodiment of the present invention, one fan can be linked with one air conditioner, and one air conditioner can be linked with multiple fans. When the linkage control is turned on and off, the processing module 103 will also synchronize the linkage status to the air conditioner. When the air conditioner is linked with multiple fans at the same time, the air conditioner will store the model and related information of the currently connected fans in the form of a list. If If linkage control is cancelled, the fan model and related information will be deleted.

According to an embodiment of the present invention, the processing module 103 also acquires video images of the environment where the air conditioner and the fan are located, and pushes the video images to the control terminal for playback.

Specifically, the video image of the environment where the air conditioner and the fan are located can be obtained by the camera device, and then the video image is sent to the processing module 103 through the Internet. After the processing module 103 processes the video image information, the video image is sent to the control terminal. The user can play the video image as required. For example, when the user is not at home, he can check the sleeping conditions of the children at home through the mobile phone, so as to make the user more at ease. Or, send data such as the user's sleep state and sleep quality to the control terminal through face recognition technology.

According to an embodiment of the present invention, the processing module 103 also acquires the physiological parameters of the user, and adjusts the control instruction according to the physiological parameters of the user.

Specifically, the user's physiological parameters can be monitored through somatosensory, including the user's body temperature, posture, expression, and impatience, etc., and then the user's physiological parameters are sent to the processing module 103, and the processing module 103 adjusts the air conditioner and fan according to the user's physiological parameters. The wind speed and angle, or turn on and off the air conditioner or fan, etc., to achieve the purpose of self-adaptation. For example, when the user is sleeping, the fan and the air conditioner can be adjusted according to the user's physiological parameters, thereby providing the user with a comfortable and quiet indoor environment, thereby improving the user's sleep quality and sleep time.

The server in the embodiment of the present invention acquires user instructions through the acquisition module, including linkage instructions and scene instructions, and the communication module respectively establishes communication connections with the air conditioner and the fan according to the linkage instructions, so as to establish the linkage relationship between the air conditioner and the fan , the processing module obtains the current environmental parameters of the environment where the air conditioner and fan are located, and generates control instructions according to the current environmental parameters and scene instructions to perform linkage control on the air conditioner and fan, so as to achieve rapid air circulation and rapid cooling and maintain a comfortable, Energy-saving, livable, intelligent and comfortable environment space with less intervention.

In the description of the present invention, terms such as "installation", "connection", "connection" and "fixation" should be interpreted in a broad sense unless otherwise clearly specified and limited. Disconnected connection, or integrated; may be mechanically connected, may also be electrically connected; may be directly connected, may also be indirectly connected through an intermediary, may be an internal communication between two components or an interactive relationship between two components, unless otherwise There are clear limits. Those of ordinary skill in the art can understand the specific meanings of the above terms in the present invention according to specific situations.

In the description of this specification, descriptions referring to the terms "one embodiment", "some embodiments", "example", "specific examples", or "some examples" mean that specific features described in connection with the embodiment or example , structure, material or characteristic is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples. In addition, those skilled in the art can combine and combine different embodiments or examples and features of different embodiments or examples described in this specification without conflicting with each other.

Although the embodiments of the present invention have been shown and described above, it can be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, those skilled in the art can make the above-mentioned The embodiments are subject to changes, modifications, substitutions and variations.

Claims (21)

1. A linkage control method for household electrical appliances, characterized in that, the household electrical appliances include an air conditioner and a fan, and the method comprises the following steps: receiving a user instruction, wherein the user instruction includes a linkage instruction and a scene instruction; The server establishes a linkage relationship between the air conditioner and the fan according to the linkage instruction; The server obtains the current environment parameters of the environment where the air conditioner and the fan are located, and generates a control instruction according to the current environment parameter and the scene instruction to perform linkage control on the air conditioner and the fan. The current environmental parameters include indoor ambient temperature, and the generation of control instructions according to the current environmental parameters and the scene instructions to perform linkage control on the air conditioner and the fan includes: When the server judges that the user is in the bedroom and enters a sleep state according to the scene instruction, judge the indoor environment temperature; If the indoor ambient temperature is greater than or equal to the first temperature threshold, control the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time control the fan to enter the sleep wind mode and shake the head at the first set angle ; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, control the air conditioner to enter a sleep mode and operate at the first set temperature for cooling, while controlling the fan to be in an off state; If the indoor ambient temperature is less than the second temperature threshold and greater than or equal to the third temperature threshold, control the air conditioner to be in an off state, and control the fan to enter the sleep wind mode and shake its head at a first set angle; If the indoor ambient temperature is lower than the third temperature threshold, both the air conditioner and the fan are controlled to be in an off state. 2. The linkage control method for household electrical appliances according to claim 1, wherein the user instruction is received by a control terminal, and the control terminal communicates with the server to send the user instruction to the server. 3. The linkage control method for household electrical appliances according to claim 1, wherein the server receives the current environmental parameters detected by the air conditioner and/or the fan, or the server obtains the air conditioner parameters through the Internet. The current environmental parameters of the environment where the controller and the fan are located. 4. The linkage control method for household electrical appliances according to claim 1, wherein the current environment parameters include indoor environment temperature, and the control instruction is generated according to the current environment parameters and the scene instruction to control the The linked control of the air conditioner and the fan includes: The server judges the indoor ambient temperature when judging that the user is in the living room according to the scene instruction; If the indoor ambient temperature is greater than or equal to the first temperature threshold, the air conditioner is controlled to operate at the second set temperature for cooling, and at the same time, the fan is controlled to operate at the first preset gear of normal wind and at the first setting Angle shaking head; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to a third temperature threshold, control the air conditioner to operate at a first set temperature for cooling, and control the fan to be in an off state, wherein the second a set temperature is lower than the second set temperature; If the indoor ambient temperature is lower than the third temperature threshold, the air conditioner is controlled to be in an off state, and the fan is controlled to operate at a second preset gear of normal wind and shake its head at a first set angle, wherein , the second preset gear is smaller than the first preset gear. 5. The linkage control method for household electrical appliances according to any one of claims 1-4, characterized in that the household electrical appliances further include a humidifier and an air purifier, and the humidifier detects that the current indoor environment Humidity is sent to the server, and the air purifier sends the detected current indoor air quality information to the server, and the server performs linkage control on the air conditioner and the fan, and also according to the The current indoor ambient humidity and the current indoor air quality information perform linkage control on the humidifier and the air purifier. 6. The linkage control method for household appliances according to claim 2, wherein the server also obtains video images of the environment where the air conditioner and the fan are located, and pushes the video images to the Control the terminal to play. 7. The linkage control method for household appliances according to claim 1, further comprising: monitoring the physiological parameters of the user, and sending the physiological parameters of the user to the server; The server adjusts the control instruction according to the physiological parameters of the user. 8. A home appliance linkage control system, characterized in that it includes an air conditioner, a fan and a server, wherein, The server is configured to establish a linkage relationship between the air conditioner and the fan according to the linkage instruction in the received user instruction; The server is also used to obtain the current environmental parameters of the environment where the air conditioner and the fan are located, and generate control instructions according to the current environmental parameters and the scene instructions in the user instructions to control the air conditioner and the air conditioner. The fan is linked and controlled, and the current environmental parameters include the indoor ambient temperature, wherein, When the server judges that the user is in the bedroom and enters a sleep state according to the scene instruction, judge the indoor environment temperature; If the indoor ambient temperature is greater than or equal to the first temperature threshold, the server controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan to enter the sleep wind mode and operate at the first set temperature. Shake head at a fixed angle; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, the server controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan to be at Disabled; If the indoor ambient temperature is less than the second temperature threshold and greater than or equal to the third temperature threshold, the server controls the air conditioner to be in the off state, and at the same time controls the fan to enter the sleep wind mode and set the temperature at the first set angle. shook his head; If the indoor ambient temperature is lower than the third temperature threshold, the server controls both the air conditioner and the fan to be off. 9. The home appliance linkage control system according to claim 8, further comprising a control terminal, the control terminal is used to receive the user instruction, and communicate with the server to transfer the user instruction sent to the server. 10. The home appliance linkage control system according to claim 8, wherein the server receives the current environmental parameters detected by the air conditioner and/or the fan, or the server obtains the air conditioner parameters through the Internet and the current environmental parameters of the environment where the fan is located. 11. The home appliance linkage control system according to claim 8, wherein the current environmental parameters include indoor ambient temperature, wherein, The server judges the indoor ambient temperature when judging that the user is in the living room according to the scene instruction; If the indoor ambient temperature is greater than or equal to the first temperature threshold, the server controls the air conditioner to operate at the second set temperature for cooling, and at the same time controls the fan to operate at the first preset gear of normal wind and at the second preset temperature. Shake your head at a set angle; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to a third temperature threshold, the server controls the air conditioner to operate at the first set temperature for cooling, and at the same time controls the fan to be off, wherein, The first set temperature is lower than the second set temperature; If the indoor ambient temperature is lower than the third temperature threshold, the server controls the air conditioner to be in the off state, and at the same time controls the fan to run at the second preset gear of normal wind and at the first set angle Shaking the head, wherein the second preset gear is smaller than the first preset gear. 12. The home appliance linkage control system according to any one of claims 8-11, further comprising a humidifier and an air purifier, the humidifier sends the detected current indoor ambient humidity to the The server, the air purifier sends the detected current indoor air quality information to the server, and the server performs linkage control on the air conditioner and the fan, and also according to the current indoor ambient humidity and The current indoor air quality information performs linkage control on the humidifier and the air purifier. 13. The home appliance linkage control system according to claim 9, wherein the server is further configured to obtain video images of the environment where the air conditioner and the fan are located, and push the video images to all The above-mentioned control terminal plays. 14. The home appliance linkage control system according to claim 8, further comprising a monitoring device, the monitoring device is used to monitor the physiological parameters of the user, and send the physiological parameters of the user to the a server, the server adjusts the control instruction according to the physiological parameters of the user. 15. A server, characterized in that, comprising: An acquisition module, configured to acquire user instructions, wherein the user instructions include linkage instructions and scene instructions; A communication module, configured to respectively establish communication connections with the air conditioner and the fan according to the linkage instruction, so as to establish a linkage relationship between the air conditioner and the fan; A processing module, configured to obtain current environmental parameters of the environment where the air conditioner and the fan are located, and generate a control instruction according to the current environmental parameter and the scene instruction to perform linkage control on the air conditioner and the fan , the current environmental parameters include indoor ambient temperature, where, The processing module judges the indoor ambient temperature when judging that the user is in a bedroom and entering a sleep state according to the scene instruction; If the indoor ambient temperature is greater than or equal to the first temperature threshold, the processing module controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan to enter the sleep mode and operate at the first temperature. Set the angle to shake the head; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to the second temperature threshold, the processing module controls the air conditioner to enter the sleep mode and operate at the first set temperature for cooling, and at the same time controls the fan is closed; If the indoor ambient temperature is less than the second temperature threshold and greater than or equal to the third temperature threshold, the processing module controls the air conditioner to be in the off state, and at the same time controls the fan to enter the sleep wind mode and use the first setting Angle shaking head; If the indoor ambient temperature is lower than the third temperature threshold, the processing module controls both the air conditioner and the fan to be off. 16. The server according to claim 15, wherein the obtaining module obtains the user instruction by communicating with a control terminal. 17. The server according to claim 15, wherein the processing module receives current environmental parameters detected by the air conditioner and/or the fan, or the processing module obtains the air conditioner and the The current environmental parameters of the environment where the fan is located. 18. The server according to claim 15, wherein the current environmental parameters include indoor ambient temperature, wherein, The processing module judges the indoor ambient temperature when judging that the user is in the living room according to the scene instruction; If the indoor ambient temperature is greater than or equal to the first temperature threshold, the processing module controls the air conditioner to operate at the second set temperature for cooling, and at the same time controls the fan to operate at the first preset gear of normal wind, and The first setting angle shakes the head; If the indoor ambient temperature is less than the first temperature threshold and greater than or equal to a third temperature threshold, the processing module controls the air conditioner to operate at the first set temperature for cooling, and at the same time controls the fan to be off, wherein , the first set temperature is less than the second set temperature; If the indoor ambient temperature is lower than the third temperature threshold, the processing module controls the air conditioner to be in the off state, and at the same time controls the fan to operate at the second preset gear of normal wind, and at the first setting Angle shaking, wherein the second preset gear is smaller than the first preset gear. 19. The server according to any one of claims 15-18, wherein the processing module further acquires current indoor ambient humidity and current indoor air quality information, and performs an operation on the air conditioner and the fan At the same time of linkage control, linkage control is performed on the humidifier and the air purifier according to the current indoor ambient humidity and the current indoor air quality information. 20. The server according to claim 16, wherein the processing module further acquires video images of the environment where the air conditioner and the fan are located, and pushes the video images to the control terminal for playback . 21. The server according to claim 15, wherein the processing module further acquires physiological parameters of the user, and adjusts the control instruction according to the physiological parameters of the user.