CN108333953B - Multi-network integrated intelligent home system and control method of air box (sensor) - Google Patents

Abstract

The invention relates to a multi-network integrated intelligent home system and a control method of an air box (sensor). Many nets fuse wisdom home system, including gate machine, indoor set, management server, cloud server, mobile terminal, lock, intelligent household electrical appliances, voice interaction robot, new trend control panel and sensor, zigBee switch, wherein: the entrance machine, the indoor machine, the management server and the voice interaction robot are in communication connection through a local area network; the cloud server, the mobile terminal and the air sensor are in communication connection with the local area network through the wide area network; the door lock, the ZigBee switch, the infrared switch and the fresh air control panel are in communication connection with the indoor unit ZigBee; the infrared switch is connected with the intelligent household appliance through an infrared signal; the indoor unit can also be connected with an intelligent household appliance through Bluetooth; the application of the multi-network fusion intelligent home system comprises the following steps: going home linkage; off-home linkage; voice interaction control; controlling fresh air; configuring a fresh air panel; air box (sensor) configuration.

Description

Multi-network integrated intelligent home system and control method of air box (sensor)

Technical Field

The invention relates to a multi-network integrated intelligent home system and a control method of an air box (sensor).

Background

Most of the network architecture systems are independently controlled, and the high-integration architecture scheme is few, which has the following defects: the system is controlled independently in various system architecture modes, the number of devices which can be connected and controlled is small, or a plurality of control switches of different architecture systems are needed, and unified operation and management are inconvenient.

CN201110389929.4 discloses a multi-network converged intelligent home gateway device and system, which aims to provide the multi-network converged intelligent home gateway device and system, and the device and system take intelligent home gateway equipment and an intelligent home gateway server platform as cores, and realize the safe access of a remote client to the intelligent equipment of the home Internet of things and a cell terminal through the Internet under the control of a service platform. According to the technical scheme, the intelligent home gateway device simultaneously supports community local area network access, internet access and an internet of things intelligent equipment interface, under the protection of firewall software, multiple networks such as the internet of things, the community local area network and the internet are integrated, and the intelligent home gateway is used as a center for interconnection and intercommunication and can be safely isolated. The system mainly comprises a plurality of parts, namely home intelligent equipment, a community terminal, an intelligent home gateway device, a remote client and a server platform, and takes the intelligent home gateway device and an intelligent home gateway server platform as cores, and the remote client can safely access the home Internet of things intelligent equipment and the community terminal through the Internet under the control of the server platform. The disadvantage is that the method still belongs to independent control, and the patent focuses on interconnection of the internet and the local area network.

Disclosure of Invention

The invention aims to provide a multi-network integrated intelligent home system which integrates multiple network architecture frameworks in the same controller to realize centralized and unified management and control of multiple terminal devices and improve the compatibility of various network system frameworks. Another object of the present invention is to provide a method for controlling an air box (sensor) that automatically monitors the air quality in a room and activates or operates a fresh air system at a high speed to improve the air quality when the air quality is poor. The invention further aims to provide a multi-network integration intelligent home system compatible with multiple control modes.

The technical scheme of the invention is that the multi-network fusion intelligent home system comprises a door phone, an indoor machine, a management server, a cloud server, a mobile terminal, a door lock and intelligent household appliances, and is characterized by further comprising a voice interaction robot, a fresh air control panel, a sensor and a ZigBee switch, wherein: the entrance machine, the indoor machine, the management server and the voice interaction robot are in communication connection through a local area network; the cloud server, the mobile terminal and the air sensor are in communication connection with the local area network through the wide area network; the door lock, the ZigBee switch, the infrared switch and the fresh air control panel are in communication connection with the indoor unit ZigBee; the infrared switch is connected with the intelligent household appliance through an infrared signal; the indoor unit can also be connected with an intelligent household appliance through Bluetooth; the application of the multi-network fusion intelligent home system comprises the following steps: going home linkage; off-home linkage; voice interaction control; controlling fresh air; configuring a fresh air panel; air box (sensor) configuration.

Preferably, the method comprises the following steps: the going home linkage comprises: after a user unlocks the door lock and enters the indoor space, the door lock sends state information to the indoor unit, the indoor unit directly starts the contextual model set by the user, and automatic control over the intelligent household appliance under various preset modes is completed.

Preferably, the method comprises the following steps: the away-from-home linkage comprises: after a user unlocks the door lock and leaves the indoor unit, the door lock sends state information to the indoor unit, the indoor unit directly starts a contextual model set by the user, and automatic control of the intelligent household appliance under various preset modes is completed.

Preferably, the method comprises the following steps: the voice interaction control includes:

when a user unlocks a door lock and enters a room, the door lock sends state information to an indoor unit, the indoor unit sends a speaking instruction to a voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a request for inquiring the state information of each connecting device to the indoor unit, the indoor unit feeds back the specific state information of each device to the robot after receiving the request, the robot enters a voice interaction mode and plays welcoming words, the user directly sends the instruction with the robot to complete the state control of the connecting device, and the user can also directly wake up the robot to enter the voice interaction mode through calling and send a control instruction to complete related control operation;

when a user unlocks the door lock and leaves the room, the door lock sends state information to the indoor unit, the indoor unit sends a speaking instruction to the voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a request for inquiring the state information of each connecting device to the indoor unit, the indoor unit feeds back the specific state information of each device to the robot after receiving the request, the robot enters a voice interaction mode and plays a channel classification word, the user directly sends the instruction with the robot to complete the state control of the connecting device, the user can directly wake up the robot to enter the voice interaction mode through calling, and the control instruction is sent to complete related control operation.

Preferably, the method comprises the following steps: controlling the intelligent household appliance through the voice interaction robot: when a user calls the voice interaction robot to wake up the voice interaction robot to enter a voice interaction state, the user sends a control command to the robot through voice, the robot receives the voice command and then analyzes the control command and feeds voice information back to the user, the robot sends the control command to the indoor unit or sends the control command to the indoor unit through Bluetooth, the indoor unit replies confirmation information to the robot and sends a ZigBee control command to the infrared remote controller or the Bluetooth remote controller, and the infrared remote controller or the Bluetooth remote controller sends a starting-up command to the intelligent household appliance, so that the operation of opening the intelligent household appliance is completed.

Preferably, the method comprises the following steps: the fresh air control comprises: when a user clicks a panel button to enter a fresh air control panel, the fresh air control panel sends a message to an indoor unit, the indoor unit sends a speaking instruction to a voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a control instruction to the indoor unit, the indoor unit sends a control instruction to the fresh air control panel after receiving a request, and the fresh air control panel starts a fresh air starting instruction; the user can also directly wake up the robot by calling to enter a voice interaction mode and send a control instruction to complete related control operation.

Preferably, the method comprises the following steps: the configuration of the fresh air control panel is as follows: the method includes the steps of sending a request for configuring fresh air permissions over a users over the world to a cloud server, sending a request for switching to an intelligent home page over the world to a mobile terminal, sending an HTTP (hyper text transport protocol) sending request to the cloud server by the mobile terminal, and sending a control instruction for returning parameters to the mobile terminal by the cloud server.

Preferably, the method comprises the following steps: the air box (sensor) configuration:

the method includes the steps that a user clicks a request for adding equipment to an air box APP, and the air box APP stores equipment data in local;

secondly, a user clicks to set wifi to the air box APP, the air box APP sends wifi broadcasting to the air box, the air box is connected with the wifi router, and a setting result is replied to the air box APP;

thirdly, the user clicks and binds the air box APP, the air box APP sends a binding request (accessKey, SN) to the air box and the air box cloud server, and the air box cloud server replies a binding result to the air box APP;

the indoor unit sends a request for acquiring air parameters to the cloud server, the cloud server sends the request for acquiring the air parameters to the air box cloud server, the air box cloud server sends the request for acquiring the air parameters to the air box, the air box replies the air parameters to the air box cloud server, the air box cloud server replies a confirmation message to the air box APP, and the cloud server replies the confirmation message to the indoor unit.

The technical scheme of the invention is a control method of an air box (sensor) in the multi-network fusion intelligent home system, which is characterized by comprising the following steps:

the method includes the steps of firstly, starting an APP automatic mode;

secondly, low-speed operation, operation period 22: 00 to the next day 7: 00;

thirdly, every 10 minutes, the PM2.5 is judged to be less than 30, and CO is judged to be₂< 30, whether both conditions are satisfied simultaneously;

fourthly, when any one of the following conditions is satisfied: PM2.5 is more than or equal to 30, CO₂Turning to high-speed operation, wherein the speed is more than or equal to 1200;

fifthly, judging the operation time period, if the operation time period is 22: 00 to the next day 7: and in the period of 00, returning the second step, if in 7: 00 to 22: in the period of 00 hours, the next step is carried out;

sixthly, judging whether any one of the following conditions is met: PM2.5 is more than or equal to 30, CO2 is more than or equal to 1200, if yes, the step fourth is returned, and if not, the step second is returned.

Compared with the prior art, the invention has the beneficial effects that:

the invention can be compatible with various network control schemes.

Man-machine interaction performance is enhanced, and the system is more intelligent; the air environment detection is automatic, and the air environment is improved intelligently.

Drawings

FIG. 1 is a general architecture diagram of the system of the present invention;

FIG. 2 is a sequence diagram of the home-returning linkage of the present invention;

FIG. 3 is a sequence diagram of the away-from-home linkage of the present invention;

FIG. 4 is a voice interaction control sequence diagram of the present invention;

FIG. 5 is a sequence diagram of the fresh air control of the present invention;

FIG. 6 is a sequence diagram of the configuration of the fresh air panel according to the present invention;

FIG. 7 is a sequence diagram of the air box arrangement of the present invention;

figure 8 is a sequence diagram of the air box arrangement of the present invention.

Detailed Description

The invention will be described in more detail below with reference to the accompanying drawings:

referring to fig. 1, the multi-network integrated smart home system includes a gate machine, an indoor machine, a management server, a voice interaction robot, a cloud server, a mobile terminal, an air sensor, a door lock, a ZigBee switch, an infrared switch, a ZigBee fresh air control panel, and an intelligent home appliance; the entrance machine, the indoor machine, the management server and the voice interaction robot are in communication connection through a local area network; the cloud server, the mobile terminal and the air sensor are in communication connection with the local area network through the wide area network; the door lock, the ZigBee switch, the infrared switch and the ZigBee fresh air control panel are in communication connection with the indoor unit ZigBee; the infrared switch is connected with the intelligent household appliance through an infrared signal; the indoor set still can be connected with intelligent household electrical appliances through the bluetooth.

Referring to fig. 2, after a user unlocks the door lock and enters a room, the door lock sends status information to the indoor unit, and the indoor unit can directly start a contextual model set by the user to complete automatic control of a curtain, a lamp, a household appliance and the like in various preset modes. For example, in the mode, the hall lamp can be set to be in the opening state in a self-defined mode, intelligent household appliances such as a television, an air conditioner and the like are in the opening state, and the curtain is in the opening state.

Referring to fig. 2, after a user unlocks a door lock and enters a room, the door lock sends state information to an indoor unit, the indoor unit can also send a speaking instruction to a voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a request for inquiring the state information of each connecting device to the indoor unit, the indoor unit feeds back specific state information of each device to the robot after receiving the request, the robot enters a voice interaction mode and plays welcome words, and the user can directly send the instruction with the robot to complete state control of the connecting devices. The user can also directly wake up the robot by calling to enter a voice interaction mode and send a control instruction to complete related control operation.

Referring to fig. 3, after the user unlocks the door lock and leaves the room, the door lock sends status information to the indoor unit, and the indoor unit can directly start the contextual model set by the user, thereby completing automatic control of the window curtain, the lamp, the household appliance and the like in various preset modes. For example, in the mode, the closing state of the hall lamp, the closing state of intelligent household appliances such as a television, an air conditioner and the like and the closing state of the curtain can be set in a self-defined mode.

Referring to fig. 3, after a user unlocks the door lock and leaves the room, the door lock sends state information to the indoor unit, the indoor unit can also send a speaking instruction to the voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a request for inquiring the state information of each connected device to the indoor unit, the indoor unit feeds back specific state information of each device to the robot after receiving the request, the robot enters a voice interaction mode and plays a saying word, and the user can directly send an instruction with the robot to complete state control of the connected devices. The user can also directly wake up the robot by calling to enter a voice interaction mode and send a control instruction to complete related control operation.

Referring to fig. 4, in an embodiment of completely controlling an intelligent appliance through a voice interaction robot, a user calls the voice interaction robot to wake up the voice interaction robot to enter a voice interaction state, the user sends a control instruction to the robot by voice, if "i want to turn on a television", the robot receives the voice instruction and then analyzes the control instruction and feeds back voice information to the user, if "good", the robot sends the control instruction to an indoor unit, the indoor unit replies confirmation information to the robot and sends a ZigBee control instruction to an infrared remote controller, and the infrared remote controller sends an infrared power-on instruction to the television so as to complete the operation of turning on the television. In the embodiment, the Bluetooth remote controller can be used for replacing the infrared remote controller, and the indoor unit sends a control instruction to the remote controller through Bluetooth so as to complete the operation of turning on the television. The specific selection of the ZigBee communication mode or the Bluetooth communication mode depends on the control operation mode supported by the intelligent household appliance.

Referring to fig. 5, in the embodiment of the fresh air control, a user can directly complete the operation through the fresh air control panel, and the fresh air control panel sends feedback information to the indoor unit.

In this embodiment, a user completes control operation on the indoor unit, the indoor unit sends a control instruction to the fresh air control panel, and the fresh air control panel sends feedback information to the indoor unit after completing the control operation.

In this embodiment, a user wakes up the voice interactive robot and sends a fresh air control instruction to the voice interactive robot, the robot analyzes the control instruction and replies confirmation information with voice after receiving the voice control, the robot sends the analyzed control instruction to the indoor unit, the indoor unit sends feedback information to the robot and sends the control instruction to the fresh air control panel after receiving the instruction, and the fresh air control panel sends feedback information to the indoor unit after completing corresponding control operation.

Referring to fig. 7, in the embodiment of fresh air control, an air sensor collects PM2.5 and carbon dioxide content information in air, and sends a control instruction to an indoor unit after comparison and judgment, the indoor unit feeds back confirmation information to the air sensor after receiving the control instruction and sends the control instruction to a fresh air control panel, and the fresh air control panel sends feedback information to the indoor unit after completing corresponding control operation.

Referring to fig. 8, a method for controlling an air box (sensor) in a multi-network integrated smart home system includes the following steps:

the method includes the steps of firstly, starting an APP automatic mode;

secondly, low-speed operation, operation period 22: 00 to the next day 7: 00;

thirdly, every 10 minutes, judging whether the PM2.5 is less than 30 and the CO2 is less than 30, and whether the conditions of the PM2.5 and the CO2 are met simultaneously;

fourthly, when any one of the following conditions is satisfied: PM2.5 is more than or equal to 30, CO2 is more than or equal to 1200, and the high-speed operation is carried out;

fifthly, judging the operation time period, if the operation time period is 22: 00 to the next day 7: and in the period of 00, returning the second step, if in 7: 00 to 22: in the period of 00 hours, the next step is carried out;

sixthly, judging whether any one of the following conditions is met: PM2.5 is more than or equal to 30, CO2 is more than or equal to 1200, if yes, the step fourth is returned, and if not, the step second is returned.

The above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (7)

1. The utility model provides a many networks fuse wisdom home system, includes gate machine, indoor set, management server, cloud server, mobile terminal, lock, intelligent household electrical appliances, its characterized in that still includes voice interaction robot, new trend control panel and sensor, zigBee switch, wherein: the entrance machine, the indoor machine, the management server and the voice interaction robot are in communication connection through a local area network; the cloud server, the mobile terminal and the air sensor are in communication connection with the local area network through the wide area network; the door lock, the ZigBee switch, the infrared switch and the fresh air control panel are in communication connection with the indoor unit ZigBee; the infrared switch is connected with the intelligent household appliance through an infrared signal; the indoor unit can also be connected with an intelligent household appliance through Bluetooth; the application of the multi-network fusion intelligent home system comprises the following steps: going home linkage; off-home linkage; voice interaction control; controlling fresh air; configuring a fresh air panel; an air box arrangement.

2. The multi-network converged smart home system of claim 1, wherein the going-home linkage comprises: after a user unlocks the door lock and enters the indoor space, the door lock sends state information to the indoor unit, the indoor unit directly starts the contextual model set by the user, and automatic control over the intelligent household appliance under various preset modes is completed.

3. The multi-network converged smart home system of claim 1, wherein the away-from-home linkage comprises: after a user unlocks the door lock and leaves the indoor unit, the door lock sends state information to the indoor unit, the indoor unit directly starts a contextual model set by the user, and automatic control of the intelligent household appliance under various preset modes is completed.

4. The multi-network converged smart home system according to claim 2 or 3, wherein the voice interaction control comprises:

when a user unlocks a door lock and enters a room, the door lock sends state information to an indoor unit, the indoor unit sends a speaking instruction to a voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a request for inquiring the state information of each connecting device to the indoor unit, the indoor unit feeds back the specific state information of each device to the robot after receiving the request, the robot enters a voice interaction mode and plays welcoming words, the user directly sends the instruction with the robot to complete the state control of the connecting device, and the user can also directly wake up the robot to enter the voice interaction mode through calling and send a control instruction to complete related control operation;

when a user unlocks the door lock and leaves the room, the door lock sends state information to the indoor unit, the indoor unit sends a speaking instruction to the voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a request for inquiring the state information of each connecting device to the indoor unit, the indoor unit feeds back the specific state information of each device to the robot after receiving the request, the robot enters a voice interaction mode and plays a channel classification word, the user directly sends the instruction with the robot to complete the state control of the connecting device, the user can directly wake up the robot to enter the voice interaction mode through calling, and the control instruction is sent to complete related control operation.

5. The multi-network converged smart home system of claim 1, wherein the intelligent home appliances are controlled by a voice interactive robot: when a user calls the voice interaction robot to wake up the voice interaction robot to enter a voice interaction state, the user sends a control command to the robot through voice, the robot receives the voice command and then analyzes the control command and feeds voice information back to the user, the robot sends the control command to the indoor unit or sends the control command to the indoor unit through Bluetooth, the indoor unit replies confirmation information to the robot and sends a ZigBee control command to the infrared remote controller or the Bluetooth remote controller, and the infrared remote controller or the Bluetooth remote controller sends a starting-up command to the intelligent household appliance, so that the operation of opening the intelligent household appliance is completed.

6. The multi-network converged smart home system of claim 1, wherein the fresh air control comprises: when a user clicks a panel button to enter a fresh air control panel, the fresh air control panel sends a message to an indoor unit, the indoor unit sends a speaking instruction to a voice interaction robot, the robot feeds back confirmation information to the indoor unit after receiving the instruction, meanwhile, the robot sends a control instruction to the indoor unit, the indoor unit sends a control instruction to the fresh air control panel after receiving a request, and the fresh air control panel starts a fresh air starting instruction; the user can also directly wake up the robot by calling to enter a voice interaction mode and send a control instruction to complete related control operation.

7. The multi-network converged smart home system of claim 1, wherein the fresh air control panel is configured to:

the method includes the steps of sending a request for configuring fresh air permissions over a users over the world to a cloud server, sending a request for switching to an intelligent home page over the world to a mobile terminal, sending an HTTP (hyper text transport protocol) sending request to the cloud server by the mobile terminal, and sending a control instruction for returning parameters to the mobile terminal by the cloud server.

Images