WO2016058366A1 - Procédé de commande d'appareil domestique intelligent et centre de commande domestique - Google Patents

Procédé de commande d'appareil domestique intelligent et centre de commande domestique Download PDF

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Publication number
WO2016058366A1
WO2016058366A1 PCT/CN2015/078531 CN2015078531W WO2016058366A1 WO 2016058366 A1 WO2016058366 A1 WO 2016058366A1 CN 2015078531 W CN2015078531 W CN 2015078531W WO 2016058366 A1 WO2016058366 A1 WO 2016058366A1
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WIPO (PCT)
Prior art keywords
smart home
control
home appliance
module
smart
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PCT/CN2015/078531
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English (en)
Chinese (zh)
Inventor
宋德超
李和辉
胡永辉
彭磊
谢新
代双亮
刘为
柯栋
胡松青
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珠海格力电器股份有限公司
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Publication of WO2016058366A1 publication Critical patent/WO2016058366A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L65/00Network arrangements, protocols or services for supporting real-time applications in data packet communication
    • H04L65/40Support for services or applications

Definitions

  • the invention belongs to the technical field of home appliance control, and in particular relates to a control method of a smart home appliance and a home control center.
  • Smart home appliances are home appliances that are formed by introducing microprocessors, sensor technology, and network communication technologies into home appliances. Smart home appliances can receive user control commands in the home or remotely. At present, there are more and more types of smart home appliances appearing in the user's home, such as smart TVs, smart refrigerators, and smart air conditioners.
  • an object of the present invention is to provide a method for controlling a smart home appliance, which can control a smart home appliance through a home control center.
  • the invention also discloses a home control center.
  • the present invention provides the following technical solutions:
  • the invention discloses a control method of a smart home appliance, wherein the control method is applied to a home control center, the home control center is placed in a smart home system, and the smart home system further comprises a control terminal interacting with the home control center
  • the home control center includes a smart home control module and a routing module, and the smart home control module and the routing module can perform data interaction, and the smart home appliance can perform data interaction with the routing module, where the control method includes:
  • the routing module receives a control instruction, and sends the control instruction to the smart home control module, where the control instruction carries a home appliance identifier;
  • the smart home control module parses the control command to obtain a home appliance carried by the control command Identifying, by the device identifier, the target home appliance according to the home appliance identifier, processing the control command as a home appliance control signal adapted to the target home appliance, and transmitting the home appliance control signal and the home appliance identifier to the routing module;
  • the routing module sends the received home appliance control signal to the smart home appliance characterized by the home appliance identification.
  • the smart home control module includes a control chip and an external memory connected to the control chip, and the control method further includes: the routing module receives operation data fed back by the smart home appliance, and sends the operation data to the
  • the smart home control module includes: the operating data includes a home appliance identifier of the smart home appliance; the smart home control module receives the running data sent by the routing module, and stores the running data to the external memory.
  • the smart home control module further includes: if the running data includes user demand data, the smart home control module sends the user demand data To the routing module, wherein the user demand data includes fault information, control signal response information, and home appliance operating parameters;
  • the routing module transmits the user demand data to the cloud server and the control terminal.
  • the user demand data further includes electrical information for the household appliance and running time information of the household appliance.
  • the smart home control module further includes: the smart home control module uses a running data of the smart home appliance to search for a corresponding control mode of the smart home appliance; the smart home The control module generates a home appliance control signal adapted to the smart home appliance based on the control mode, and transmits the home appliance control signal and the home appliance identifier to the routing module.
  • the control method further includes: the smart home control module reads from the external memory Taking data, sending the data to the routing module; the routing module outputting the data to the plurality of smart home appliances.
  • the method further includes: after receiving the registration request of the smart home appliance, the routing module sends the registration request to the smart home control module, where the registration request carries device related information,
  • the device-related information includes the home appliance identification and type information of the smart home appliance;
  • the smart home control module parses the registration request, obtains type information of the smart home appliance carried by the registration request, and determines according to the type information of the smart home appliance Whether the smart home appliance is identifiable If the device is an identifiable device, the device-related information of the smart home appliance is recorded to complete registration, and if it is an unrecognizable device, the registration fails.
  • the service registration is performed, including:
  • the smart home control module searches for a communication APP (application) adapted to the registered smart home appliance. If there is a corresponding communication APP locally, the service registration is successful; if there is no matching communication APP locally, the smart home control module will send The message is found in the cloud to find a matching communication APP. If the cloud does not find the corresponding communication APP, the service registration fails. If the cloud has a corresponding communication APP, the communication APP is downloaded, and the service registration is successful.
  • a communication APP application
  • the smart home control module searches for a communication APP adapted to the registered smart home appliance, and the smart home control module searches the external memory for a communication APP adapted with the registered smart home appliance.
  • the smart home system further includes a cloud server that interacts with the home control center, and the smart home control module searches for a communication APP that is adapted to the registered smart home appliance, including: the smart home control module
  • the routing module sends a program query request, where the program query request includes type information of the smart home appliance that has been registered; the routing module transmits the program query request to the cloud server, and receives the communication APP fed back by the cloud server. Sending the communication APP to the smart home control module.
  • the smart home system further includes a cloud server that interacts with the home control center, and the routing module receives the control instruction, including:
  • the routing module receives the control command sent by the control terminal; or the routing module receives the control command sent by the cloud server, and the control command sent by the cloud server to the routing module is sent by the control terminal to the Cloud server.
  • the invention also discloses a home control center, the home control center is placed in a smart home system, the smart home system further comprising a control terminal interacting with the home control center;
  • the home control center includes a smart home control module and a routing module, and the routing module includes a plurality of network ports or wireless interfaces, and the smart home appliance can perform data interaction with the routing module;
  • the routing module receives a control command, and sends the control command to the smart home control module, where the control command carries a home appliance identifier, and then receives the home sent by the smart home control module. And electrically detecting the electrical control signal and the home appliance control signal, and sending the home appliance control signal to the smart home appliance characterized by the home appliance identifier;
  • the smart home control module parses the control command, obtains a home appliance identifier carried by the control command, determines a target home appliance according to the home appliance identifier, and processes the control command into a home appliance control adapted to the target home appliance And transmitting, by the signal, the home appliance control signal and the home appliance identifier to the routing module.
  • the smart home control module includes: a control chip; a plurality of peripheral interfaces connected to the control chip; the routing module includes: a routing chip; a plurality of network ports connected to the routing chip and/or multiple Wireless interface.
  • the peripheral interface connected to the control chip comprises a USB universal serial bus interface, a memory interface, a flash memory interface, a radio frequency interface and a high definition multimedia interface;
  • the network port connected to the routing chip comprises a plurality of Gigabit Ethernet ports
  • the wireless interface connected to the routing chip includes a wifi wireless fidelity interface and a zigbee zigbee module interface.
  • the smart home control module further includes an external memory connected to the control chip; the routing module is further configured to receive operation data fed back by the smart home appliance, and send the operation data to the smart home control module
  • the operating data includes a home appliance identifier of the smart home appliance; the smart home control module is further configured to receive the running data sent by the routing module, and store the running data to the external memory.
  • the smart home control module is further configured to send the user requirement data to the routing module, where the user requirement data includes fault information and control Signal response information; the routing module is further configured to transmit the user demand data to the cloud server and the control terminal.
  • the smart home control module is further configured to use a running data of the smart home appliance to search for a corresponding control mode of the smart home appliance, and then generate a home appliance control signal adapted to the smart home appliance based on the control mode, The home appliance control signal and the home appliance identifier are sent to the routing module;
  • the smart home control module is further configured to perform data mining analysis by using running data of the smart home appliance to obtain an optimal control mode of the smart home appliance, and then generate a home appliance control signal adapted to the smart home appliance based on the optimal control mode. And transmitting the home appliance control signal and the home appliance identifier to the routing module to implement automatic control of the smart home appliance.
  • the smart home control module is further configured to perform data mining analysis by using running data of the smart home appliance, and obtain an optimal control mode of the smart home appliance, and then generate and adapt the smart home appliance based on the optimal control mode.
  • the home appliance control signal transmits the home appliance control signal and the home appliance identification to the routing module to implement automatic control of the smart home appliance.
  • the smart home control module is further configured to read data from the external memory, Sending the data to the routing module, the routing module is further configured to output the data to the plurality of smart home appliances.
  • the routing module is further configured to: after receiving the registration request of the smart home appliance, send the registration request to the smart home control module, where the registration request carries device related information, where the device is related
  • the information includes the home appliance identification and type information of the smart home appliance
  • the smart home control module is further configured to parse the registration request, obtain type information of the smart home appliance carried by the registration request, and according to the type information of the smart home appliance Determining whether the smart home appliance is an identifiable device, if it is an identifiable device, recording device related information of the smart home appliance to complete registration, and if it is an unrecognizable device, determining that the registration fails.
  • the smart home control module After the smart home control module completes registration of a smart home appliance, it is also used to find a communication APP adapted to the smart home appliance that has been registered. If there is a corresponding communication APP locally, the service registration is successful; if there is no local Matching communication APP, the smart home control module will send a message to the cloud to find a matching communication APP. If the cloud does not find the corresponding communication APP, the service registration fails. If the cloud has a corresponding communication APP, download the communication APP, and the service registration success. .
  • the control method of the smart home appliance disclosed by the present invention is applied to a home control center mainly including a smart home control module and a routing module, and the smart home control module and the routing module can perform data interaction, and The smart home appliance can exchange data with the smart home control module through the routing module.
  • the routing module After receiving the control instruction, the routing module sends the control instruction to the smart home control module, and the smart home control module determines the target home appliance, and processes the received control command into a home appliance control signal adapted to the target home appliance, and the smart home control After the module sends the home appliance control command and the home appliance device identification of the target home appliance to the routing module, the routing module sends the home appliance control command to the smart home appliance characterized by the home appliance identification, that is, sends the home appliance control command to the target home appliance to realize the smart function. Control of home appliances.
  • the home control center uses dual-chip control, so that the network speed of the home network will not be affected during the control of the smart home appliances.
  • the home control center disclosed by the present invention can receive control commands sent by the user to implement control of the smart home appliance.
  • FIG. 1 is a schematic structural view of a home control center according to the present disclosure
  • FIG. 2 is a flowchart of a method for controlling a smart home appliance according to the present disclosure
  • FIG. 3 is a flowchart of another method for controlling a smart home appliance according to the present disclosure.
  • FIG. 4 is a flowchart of a process for registering a newly added smart home appliance according to the present disclosure
  • FIG. 5 is a schematic structural diagram of another home control center according to the present disclosure.
  • FIG. 6 is a schematic diagram of an application scenario of a home control center according to the present disclosure.
  • the invention discloses a control method for a smart home appliance, which is applied to a home control center, and can control a smart home appliance through a home control center.
  • the home control center is placed in a smart home system, and the smart home system further includes a control terminal that interacts with the home control center.
  • the home control center includes a smart home control module and a routing module, wherein the smart home control module and the routing module are capable of data interaction, and the smart home appliance can perform data interaction with the routing module.
  • FIG. 1 shows a structure of a home control center, including a smart home control module 100 and a routing module 200.
  • the routing module 200 includes a plurality of network ports and/or multiple wireless interfaces, and the smart home appliance can communicate with the network port or the wireless interface.
  • the routing module 200 performs data interaction.
  • FIG. 2 is a flowchart of a method for controlling a smart home appliance according to the present disclosure.
  • the control includes:
  • Step S21 The routing module receives the control instruction, and sends the control instruction to the smart home control module, where the control instruction carries the home appliance identifier.
  • the control command received by the routing module carries the home appliance identifier, and the smart appliance represented by the home appliance identifier is the operation target of the control operation.
  • the routing module can receive control commands sent by the user through the control terminal.
  • Step S22 The smart home control module analyzes the control command, obtains the home appliance identifier carried by the control command, determines the target home appliance according to the home appliance identifier, processes the control command into a home appliance control signal adapted to the target home appliance, and uses the home appliance control signal and the home appliance The identity is sent to the routing module.
  • Step S23 The routing module sends the received home appliance control signal to the smart home appliance characterized by the home appliance identification.
  • the smart home control module parses the received control command to obtain the home appliance identifier carried by the control command, and then the smart home control module determines the target home appliance by using the home appliance identifier, and processes the received control command into the home appliance adapted to the target home appliance. After the control signal, the home appliance control signal and the home appliance identification are sent to the routing module, and the routing module sends the home appliance control signal to the target home appliance to control the target home appliance.
  • the control method of the smart home appliance disclosed by the invention is applied to a home control center mainly comprising a smart home control module and a routing module, and the smart home control module and the routing module can perform data interaction.
  • the routing module After receiving the control instruction, the routing module sends the control instruction to the smart home control module, and the smart home control module determines the target home appliance, and processes the received control command into a home appliance control signal adapted to the target home appliance, and the smart home control
  • the routing module sends the home appliance control command and the home appliance device identification of the target home appliance to the routing module
  • the routing module sends the home appliance control command to the smart home appliance characterized by the home appliance identification, that is, sends the home appliance control command to the target home appliance to realize the smart function. Control of home appliances.
  • the home control center uses dual-chip control, so that the network speed of the home network will not be affected during the control of the smart home appliances.
  • the smart home system may further include a cloud server, and the routing module 200 may receive control commands in two ways.
  • the control terminal when the control terminal is close to the home control center (currently the indoor mode), the user sends a control command to the home control center through the control terminal. That is, the routing module 200 receives the control command sent by the control terminal, wherein the control terminal can be a portable device such as a mobile phone.
  • the user sends a control command to the cloud server through the control terminal, and then the cloud server sends a control command to the routing module 200. That is, the routing module 200 receives the control command sent by the cloud server, where the control command sent by the cloud server to the routing module is sent by the control terminal to the cloud server.
  • the cloud server is also an integral part of the smart home system.
  • the smart home control module 200 can be implemented based on the Android system, to the extent that the manufacturer can develop the Android-based control program according to the own home appliance, and the routing module 100 can be based on openWRT (embedded Linux distribution) OS implementation.
  • openWRT embedded Linux distribution
  • FIG. 3 is a flowchart of another method for controlling a smart home appliance according to the present disclosure.
  • the smart home control module of the home control center includes a control chip and an external memory connected to the control chip, such as a hard disk.
  • the control method includes:
  • Step S31 The routing module receives the control instruction, and sends the control instruction to the smart home control module, where the control instruction carries the home appliance identifier.
  • Step S32 The smart home control module analyzes the control command, obtains the home appliance identifier carried by the control command, determines the target home appliance according to the home appliance identifier, processes the control command into a home appliance control signal adapted to the target home appliance, and uses the home appliance control signal and the home appliance The identity is sent to the routing module.
  • Step S33 The routing module sends the received home appliance control signal to the smart home appliance characterized by the home appliance identification.
  • Step S34 The routing module receives the running data fed back by the smart home appliance, and sends the running data to the smart home control module.
  • the operating data fed back by the smart home appliance includes the home appliance identifier of the smart home appliance.
  • Step S35 The smart home control module receives the running data sent by the routing module, and stores the running data to the external memory.
  • the routing module receives the running data fed back by the smart home appliance, and then the routing module sends the running data of the smart home appliance to the smart home control module.
  • the smart home control module stores the running data of the smart home appliance to the external memory, so that the user can view the running state of the smart home appliance.
  • the smart home appliance fails, the user can find the cause of the fault through the running data stored in the external memory.
  • steps S34 and S35 are not limited to that shown in FIG. In the implementation, steps S31 to S33 are sequentially performed, steps S34 and S35 are sequentially performed, and the execution order of steps S31 to S33 and steps S34 to S35 is determined by the timing of receiving the control instruction and the operation data.
  • the smart home control module receives the running data sent by the routing module, the following steps are also included:
  • the smart home control module sends the user demand data to the routing module, wherein the user demand data includes fault information and control signal response information; the routing module transmits the user demand data to the cloud server and controls terminal.
  • the smart home appliance when the smart home appliance fails, the running data fed back by the smart home appliance includes fault information.
  • the routing module After the routing module transmits the fault information to the cloud server, the cloud server may provide different processing solutions according to the fault information, such as notifying the maintenance personnel. Home repair, or inform the user of the fault condition by SMS, after the routing module transmits the control signal response information to the control terminal, the user can determine whether the previous operation was successful.
  • the user demand data further includes home appliance power information and home appliance running time information.
  • the user can know the power consumption of the home appliance through the electricity information of the home appliance, and understand the running time of the home appliance through the running time information of the home appliance.
  • the smart home control module uses the operating data of the smart home appliance to find a corresponding control mode of the smart home appliance; the smart home control module generates a home appliance control signal adapted to the smart home appliance based on the control mode, and sends the home appliance control signal and the home appliance device identifier to the routing module. Thereafter, the routing module sends the received home appliance control signal to the smart home appliance characterized by the home appliance identification.
  • the smart home control module of the home control center pre-stores the control mode of each smart home appliance.
  • the smart home control module receives the running data of the smart home appliance, it can find the data according to the running data.
  • the corresponding control mode of the home appliance is then generated based on the control mode to generate an adapted home appliance control signal, and the routing module sends the home appliance control signal to the corresponding smart home appliance to realize automatic control of the smart home appliance.
  • the control mode of the smart home appliance it is possible to optimize the operation of the smart home appliance, such as reducing the power consumption of the smart home appliance, or adjusting the temperature of the smart air conditioner to provide a more suitable indoor temperature.
  • the smart home control module can perform data mining analysis using the operating data of the smart home appliance to obtain an optimal control mode of the smart home appliance, and then generate a home appliance control signal adapted to the smart home appliance based on the optimal control mode, and the The home appliance control signal and the home appliance identification are sent to the routing module to implement automatic control of the smart home appliance.
  • the smart home control module reads data from the external memory and sends the data to the routing module;
  • the routing module outputs data to multiple smart appliances.
  • the smart TV and the smart phone communicate with the routing module through the dual-frequency wifi interface of the routing module, if the user sends a request for obtaining the video one to the home control center through the smart TV and the smart phone.
  • the smart home control module reads the video one from the external memory, and then the video module outputs the video to the dual-frequency wifi interface, so that the smart TV and the smart phone acquire the video one.
  • the home control center disclosed by the present invention can also perform registration processing on the newly added smart home appliance, and the process thereof is as shown in FIG. 4, including:
  • Step S41 After receiving the registration request of the smart home appliance, the routing module sends the registration request to the smart home control module.
  • the registration request carries device related information, and the device related information includes the home appliance identification and type information of the smart home appliance;
  • Step S42 The smart home control module parses the registration request, and obtains the type information of the smart home appliance carried by the registration request.
  • Step S43 The smart home control module determines whether the smart home appliance is an identifiable device according to the type information of the smart home appliance. If it is an identifiable device, step S44 is performed; otherwise, the process ends.
  • Step S44 The smart home control module records device related information of the smart home appliance to complete registration.
  • the smart home control module when the smart home control module includes a radio frequency interface, and the radio frequency interface is connected with the radio frequency module, and the smart home appliance is also provided with the radio frequency module, the smart home control module can also receive the registration request sent by the smart home appliance through the radio frequency module.
  • the communication APP adapted to the smart home appliance that has been registered is found. If there is a corresponding communication APP locally, the service registration is successful; if there is no matching communication APP locally, the smart home control module will send a message to the cloud to find a matching communication APP. If the cloud does not find the corresponding communication APP, the service registration fails. If the cloud has a corresponding communication APP, download the communication APP and the service registration is successful.
  • the smart home control module can find a communication APP adapted to the smart home appliance that has been registered, and can adopt various methods.
  • the smart home control module searches the external memory for a communication APP that is adapted to the registered smart home appliance.
  • the external memory of the smart home control module stores a plurality of APPs. After completing registration of a smart home appliance, the communication program adapted to the smart home appliance can be found in the external memory.
  • the smart home control module sends a program query request to the routing module, where the program query request includes type information of the smart home appliance that has been registered; the routing module transmits the program query request to the cloud server, and receives the communication APP fed back by the cloud server, The communication app is sent to the smart home control module.
  • the smart home control module after completing the registration of a smart home appliance, the smart home control module first searches for the communication with the smart home appliance in the external memory. APP, if not found, performs the second process to obtain the adapted communication APP from the cloud server.
  • the smart home control module can query the cloud server through the routing module according to the preset time interval to determine whether the program installed by each smart home appliance has an updated version. When there is a newer version, the smart home control module pushes the user through the routing module. Relevant information so that users can choose to update or not update according to their needs. When the user selects the update, the home control center downloads the relevant program from the cloud server and transmits it to the corresponding smart home appliance to complete the program update.
  • FIG. 1 is a schematic structural diagram of a home control center disclosed by the present invention.
  • the home control center includes a smart home control module 100 and a routing module 200.
  • the routing module 200 includes a plurality of network ports and/or a plurality of wireless interfaces, and the smart home appliance can perform data interaction with the routing module 200.
  • the routing module 200 is further configured to receive the control instruction, send the control instruction to the smart home control module 100, and then receive the home appliance control signal and the home appliance identifier sent by the smart home control module 100, and send the home appliance control signal to the home appliance identification identifier.
  • the control command received by the routing module 200 carries the home appliance identifier, and the smart appliance represented by the home appliance identifier is the operation target of the current control operation.
  • the smart home control module 100 parses the received control command, obtains the home appliance identifier carried by the control command, determines the target home appliance according to the home appliance identifier, processes the control command into a home appliance control signal adapted to the target home appliance, and then sets the home appliance control signal And the home appliance identifier is sent to the routing module 200, so that the routing module 200 sends the home appliance control signal to the corresponding smart home appliance, thereby implementing control of the target home appliance.
  • the home control center disclosed by the invention is applied to a smart home system, wherein the internal smart home control module and the routing module can perform data interaction, and the smart home appliance can perform data interaction with the routing module.
  • the routing module After receiving the control instruction, the routing module sends the control instruction to the smart home control module, and the smart home control module determines the target home appliance, and processes the received control command into a home appliance control signal adapted to the target home appliance, and the smart home control
  • the routing module sends the home appliance control command and the home appliance device identification of the target home appliance to the routing module
  • the routing module sends the home appliance control command to the smart home appliance characterized by the home appliance identification, that is, sends the home appliance control command to the target home appliance to realize the smart function. Control of home appliances.
  • the smart home system may further include a cloud server, and the routing module 200 may receive control commands in two ways.
  • the control terminal when the control terminal is close to the home control center (currently the indoor mode), the user sends a control command to the home control center through the control terminal. That is, the routing module 200 receives the control command sent by the control terminal, wherein the control terminal can be a portable device such as a mobile phone.
  • the user sends a control command to the cloud server through the control terminal, and then the cloud server sends a control command to the routing module 200. That is, the routing module 200 receives a control command sent by the cloud server, where the cloud The control command sent by the server to the routing module is sent by the control terminal to the cloud server.
  • the cloud server is also an integral part of the smart home system.
  • the smart home control module 200 can be implemented based on the Android system, to the extent that the manufacturer can develop the Android-based control program according to the own home appliance, and the routing module 100 can be based on openWRT (embedded Linux distribution) OS implementation.
  • openWRT embedded Linux distribution
  • FIG. 5 is another schematic structural diagram of a home control center according to the present disclosure.
  • the home control center includes a smart home control module 100 and a routing module 200.
  • the smart home control module 100 includes a control chip 101 and a plurality of peripheral interfaces connected to the control chip 101.
  • the peripheral interfaces connected to the control chip 101 include USB (Universal Serial Bus) interfaces 102 and 103, a memory interface 104 (specifically, a DDR3 interface, DDR3 is a memory specification), and a flash interface 105 (specifically, EMMC). Flash interface), RF (Radio Frequency) interface 106 and HDMI (High Definition Multimedia Interface) 107.
  • the routing module 200 includes a routing chip 201, a plurality of network ports connected to the routing chip 201, and a plurality of wireless interfaces connected to the routing chip 201.
  • the network port connected to the routing chip 201 includes Gigabit Ethernet ports 202, 203, and 204
  • the wireless interface connected to the routing chip 201 includes a wifi (Wireless Fidelity) interface 205 and a zigbee module interface 206.
  • the wifi interface 205 can employ a dual band wifi interface, such as the 2.4/5 GHz WiFi interface of FIG.
  • the smart home appliance having the wifi module can perform data interaction with the routing chip 200 through the wifi interface 205.
  • a smart home with a zigbee module can interact with the routing module 200 via the zigbee module interface 206.
  • the smart home appliance having the network port can be connected to any one of the routing modules 200 through the network cable to perform data interaction with the routing module 200.
  • Other devices in the smart home system such as the control terminal and the cloud server, can also interact with the routing module 200 through a matching network port or wireless interface.
  • peripheral interface the network port, and the wireless interface in FIG. 5 are only an example, and the types and the number of the peripheral interfaces, the network ports, and the wireless interfaces in the implementation are not limited thereto.
  • the routing module 200 includes multiple network ports and multiple wireless interfaces, and other devices in the smart home appliance and the smart home system can pass through the network port or the wireless interface and routing.
  • the module 200 performs data interaction.
  • the smart home control module 100 includes a plurality of peripheral interfaces, and the smart home control module 100 can perform data interaction with other electronic devices through the peripheral interface.
  • the home control center uses dual-chip control, so that the network speed of the home network will not be affected during the control of the smart home appliances.
  • the smart home control module 100 can also receive the control terminal through the RF module. Control instruction. If the smart home appliance is also provided with the radio frequency module, the smart home control module 100 can also send the home appliance control signal to the target home appliance through the radio frequency module after processing the control command as the home appliance control signal adapted to the target home appliance.
  • the smart home control module 100 of the home control center shown in FIG. 5 further includes an external memory 108 connected to the control chip 101, and the external memory 108 is preferably a hard disk.
  • the routing module 200 is further configured to receive the running data fed back by the smart home appliance, and send the received running data to the smart home control module 100.
  • the smart home control module 100 is further configured to receive the operational data sent by the routing module 200 and store the received operational data to the external memory 108.
  • the operating data fed back by the smart home appliance includes the home appliance identifier of the smart home appliance.
  • the user can determine the running status of the smart home appliance by viewing the running data stored in the external memory 108. When the smart home appliance fails, the user can use the running data stored by the external memory 108 to find the cause of the fault.
  • the smart home control module 100 includes an RF interface, and the RF interface is connected with a radio frequency module, and the smart home appliance is also provided with the radio frequency module, the smart home control module 100 can directly receive the feedback of the smart home appliance through the radio frequency module. Operating data.
  • the smart home control module 100 is further configured to send the user requirement data to the routing module 200, and the routing module 200 transmits the received user requirement data to the cloud server and the control terminal.
  • the user demand data includes fault information and control signal response information.
  • the running data fed back by the smart home appliance includes fault information.
  • the routing module 200 may provide different processing solutions according to the fault information, such as a notification.
  • the maintenance personnel performs on-site maintenance, or informs the user of the fault condition through a short message.
  • the routing module 200 transmits the control signal response information to the control terminal, the user can determine whether the previous operation is successful.
  • the user demand data may further include electrical information for the household appliance and running time information of the household appliance.
  • the user can know the power consumption of the home appliance through the electricity information of the home appliance, and understand the running time of the home appliance through the running time information of the home appliance.
  • the smart home control module 100 can also use the running data of the smart home appliance to find a corresponding control mode of the smart home appliance, and then generate a home appliance control signal adapted to the smart home appliance based on the control mode, and the home appliance control signal
  • the control signal and the home appliance identification are sent to the routing module 200.
  • the routing module 200 transmits the received home appliance control signal to the smart home appliance characterized by the home appliance identification.
  • the smart home control module 100 of the home control center prestores a control mode of each smart home appliance. After the smart home control module 100 receives the running data of the smart home appliance, it can search for the corresponding control mode of the home appliance according to the running data, and then based on the The control mode generates an adapted home appliance control signal, and the routing module 200 transmits the home appliance control signal to the corresponding smart home appliance to realize automatic control of the smart home appliance.
  • the control mode of the smart home appliance it is possible to optimize the operation of the smart home appliance, such as reducing the power consumption of the smart home appliance, or adjusting the temperature of the smart air conditioner to provide a more suitable indoor temperature.
  • the smart home control module 100 is further configured to perform data mining analysis using the operating data of the smart home appliance to obtain an optimal control mode of the smart home appliance, and then generate a home appliance control signal adapted to the smart home appliance based on the optimal control mode, and the home appliance control signal is The control signal and the identification of the home appliance are sent to the routing module to realize automatic control of the smart home appliance.
  • the smart home control module 100 in the above-mentioned home control center of the present invention is further configured to: read from the external memory 108 The data is fetched and the read data is sent to the routing module 200.
  • the routing module 200 is further configured to output the received data to a plurality of smart home appliances to implement data sharing.
  • the home control center disclosed by the present invention can also perform registration processing on the newly added smart home appliance.
  • the routing module 200 is further configured to: after receiving the registration request of the smart home appliance, send the registration request to the smart home control module 100, where the registration request carries device related information, and the device related information includes the home appliance identifier of the smart home appliance. And type information.
  • the home control module 100 is further configured to parse the registration request, obtain the type information of the smart home appliance carried by the registration request, determine whether the smart home appliance is an identifiable device according to the type information of the smart home appliance, and record the smart home appliance device if it is an identifiable device. The related information is registered, and if it is an unrecognizable device, it is determined that the registration has failed.
  • the smart home control module 100 when the smart home control module 100 includes an RF interface, and the RF interface is connected with a radio frequency module, and the smart home appliance is also provided with the radio frequency module, the smart home control module can also receive the registration request sent by the smart home appliance through the radio frequency module. .
  • the smart home control module 100 is further configured to search for a communication APP adapted to the smart home appliance that has been registered, and perform service registration. Specifically, the smart home control module 100 searches for a communication APP adapted to the registered smart home appliance. If the adapted communication APP is found, the service registration is successful, and if the adapted communication APP is not found, the service registration fails. .
  • the smart home control module 100 searches for a communication APP that is adapted to the smart home appliance that has been registered, and can adopt various methods.
  • the smart home control module 100 searches the external memory 108 for a communication APP that is adapted to the registered smart home appliance.
  • the external memory 108 of the smart home control module 100 stores a plurality of APPs. After completing registration of a smart home appliance, the external memory 108 can be used to find a communication APP adapted to the smart home appliance.
  • the smart home control module 100 sends a program query request to the routing module 200, and then receives the communication APP sent by the routing module 200, wherein the program query request includes type information of the smart home appliance that has been registered.
  • the routing module 200 transmits the received program query request to the cloud server, and then receives the communication APP fed back by the cloud server, and sends the communication APP to the smart home control module 100.
  • the smart home control module 100 first searches for the smart home appliance in the external memory 108 after completing the registration of a smart home appliance.
  • the matching communication APP if not found, performs the second processing process to obtain the adapted communication APP from the cloud server.
  • the smart home control module 100 can query the cloud server through the routing module 200 according to the preset time interval to determine whether the program installed by each smart home appliance has an updated version. When there is an updated version, the smart home control module 100 passes the routing module. 200 pushes relevant information to the user for use Users choose to update or not update according to their needs. When the user selects the update, the home control center downloads the relevant program from the cloud server and transmits it to the corresponding smart home appliance to complete the program update.
  • FIG. 6 is a schematic diagram of an application scenario of a home control center according to the present disclosure.
  • the frequency band of the computer and other smart home appliances can be separated by using the 802.11ac protocol, and the computer uses the 5 GHz frequency band.
  • Other smart appliances use the 2.4GHz band to ensure the computer's Internet speed.
  • the access control system can be connected to the home LAN to achieve access control security control.
  • the home control center of the present invention also has a hard disk protection function, which can protect the memory when the home control center is tilted or greatly vibrated.

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  • Multimedia (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Selective Calling Equipment (AREA)

Abstract

L'invention concerne un procédé de commande d'appareil domestique intelligent destiné à un centre de commande domestique ; au cours de ce procédé de commande : un module routeur reçoit une instruction de commande et transmet l'instruction de commande à un module de commande domestique intelligent, l'instruction de commande portant un identifiant de dispositif d'appareil domestique ; le module de commande domestique intelligent analyse l'instruction de commande pour obtenir l'identifiant de dispositif d'appareil domestique que porte l'instruction de commande, détermine l'appareil domestique cible selon l'identifiant de dispositif d'appareil domestique, traite l'instruction de commande en un signal de commande d'appareil domestique compatible avec l'appareil domestique cible, et transmet le signal de commande d'appareil domestique et l'identifiant de dispositif d'appareil domestique au module routeur ; le module routeur transmet le signal de commande d'appareil domestique reçu à l'appareil domestique intelligent que l'identifiant de dispositif d'appareil domestique représente de sorte à permettre la commande de l'appareil domestique intelligent. De plus, le centre de commande domestique utilise une commande à double puce de sorte que la vitesse du réseau domestique ne soit pas affectée pendant le processus de commande d'appareil domestique intelligent. L'invention concerne également un centre de commande domestique.
PCT/CN2015/078531 2014-10-15 2015-05-08 Procédé de commande d'appareil domestique intelligent et centre de commande domestique WO2016058366A1 (fr)

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