CN106600935A - Bluetooth mesh-based control system - Google Patents

Abstract

A control system based on Bluetooth mesh includes a smart mobile device, a passive wireless switch, and a receiver. The smart mobile device includes a Bluetooth transmitter module and a first near-field communication module. The passive wireless switch includes a second near-field communication module, a storage module, a Bluetooth mesh transmitter module, and multiple buttons. The receiver includes a Bluetooth mesh receiver module. The Bluetooth transmitter module communicates with the Bluetooth mesh receiver module to configure networking information. The first near-field communication module sends the networking information to the second near-field communication module, and the second near-field communication module stores the networking information in the storage module. When a button is pressed, the Bluetooth mesh transmitter module obtains the networking information from the storage module and sends the networking information and control information corresponding to the button to the Bluetooth mesh receiver module. The Bluetooth transmitter module can simultaneously send control information to the Bluetooth mesh receiver module. The above-mentioned Bluetooth mesh-based control system enables the passive wireless switch and the smart mobile device to control the receiver simultaneously.

Description

Bluetooth mesh-based control system

【Technical field】

The invention relates to the technical field of smart home, in particular to a bluetooth mesh-based control system.

【Background technique】

Passive wireless switch is a kind of energy-saving and environment-friendly switch. When it is used, it needs to cooperate with its matching receiver. The receiver is connected to electric lights and other electrical appliances to control the on and off of electric lights and other electrical appliances. The passive wireless switch does not require wiring between the receiver and does not require any batteries for the entire life of the switch, making the application very convenient. Due to its good compatibility and low power consumption, Bluetooth technology has been applied to wireless communication between passive wireless switches and receivers. With the development of smart homes, smart mobile devices (such as mobile phones, PADs, etc.) have also participated in the control of electric lights and other electrical appliances, that is, users can control lights through passive wireless switches, or through mobile phones. However, the existing Bluetooth technology can only be used for one-to-one communication. When it is necessary to use a passive wireless switch and a smart mobile device to control the receiver at the same time, the existing Bluetooth technology cannot realize the simultaneous communication between the three, thus giving users Inconvenient to use.

In view of this, it is necessary to provide a Bluetooth mesh-based control system to overcome the above defects.

【Content of invention】

The object of the present invention is to provide a bluetooth mesh based control system that enables a passive wireless switch and a smart mobile device to simultaneously control a receiver.

In order to achieve the above object, the present invention provides a Bluetooth mesh-based control system, the Bluetooth mesh-based control system includes a smart mobile device, a passive wireless switch and a receiver, and the smart mobile device includes a Bluetooth transmitter module and a first A near-field communication module, the passive wireless switch includes a second near-field communication module, a storage module, a bluetooth mesh transmitting module, a power generation module and a plurality of buttons, the receiver includes a bluetooth mesh receiving module, and the bluetooth transmitting module and The first near-field communication module is connected, the storage module is connected to the second near-field communication module and the Bluetooth mesh transmitting module, the power generation module is connected to the Bluetooth mesh transmitting module and the storage module, Each button is connected to the power generation module and the Bluetooth mesh transmitting module, and the Bluetooth transmitting module communicates wirelessly with the Bluetooth mesh receiving module to configure networking information. After the networking information is configured successfully, the The first near field communication module sends the networking information to the second near field communication module, the second near field communication module receives the networking information and stores the networking information in the storage module, When a certain button is pressed, the power generation module converts the mechanical energy of pressing the button into electrical energy, and supplies power to the storage module and the Bluetooth mesh transmitting module, and the Bluetooth mesh transmitting module receives from the storage module Obtain the networking information, and send the networking information and the control information corresponding to the button to the Bluetooth mesh receiving module, and the Bluetooth transmitting module can simultaneously send control information to the Bluetooth mesh receiving module.

Further, the networking information includes a Bluetooth mesh network name and a network access password.

Further, the bluetooth mesh transmitting module is a micro control unit with bluetooth function and mesh network function.

Further, the storage module has the reading and writing function of the near field communication and the reading and writing function of the micro control unit.

Further, the storage module includes a port supporting reading and writing of near field communication and a port supporting reading and writing of a micro control unit, the port supporting reading and writing of near field communication is connected to the second near field communication module, and the port supporting reading and writing of near field communication is connected to the second near field communication module. The port for reading and writing of the micro control unit is connected with the bluetooth mesh transmitting module.

Further, the storage module is an electronic erasable rewritable read-only memory.

Further, the bluetooth mesh receiving module is a micro control unit with bluetooth function and mesh network function.

Further, when the Bluetooth mesh transmitting module detects that a key is pressed, the Bluetooth mesh transmitting module will generate corresponding control information.

Further, the control system based on Bluetooth mesh also includes a plurality of electrical equipment connected to the receiver, when the receiver simultaneously receives the control information sent by the Bluetooth transmitting module and the Bluetooth mesh transmitting module , the receiver simultaneously controls the corresponding electrical equipment according to the received control information.

Further, the smart mobile devices include mobile phones, laptop computers, tablet computers, personal digital assistants and smart wearable devices.

In order to achieve the above object, the present invention also provides a Bluetooth mesh-based control system, the Bluetooth mesh-based control system includes a smart mobile device, a passive wireless switch and a receiver, and the smart mobile device includes a Bluetooth transmitter module and a second A near-field communication module, the passive wireless switch includes a second near-field communication module, a storage module, a Bluetooth mesh transmitter module, an energy storage module, a power generation module, a first button and a plurality of second buttons, and the receiver includes Bluetooth mesh receiving module, the Bluetooth transmitting module is connected to the first near-field communication module, the storage module is connected to the second near-field communication module and the Bluetooth mesh transmitting module, the energy storage module is connected to the The power generation module, the bluetooth mesh transmission module and the storage module are connected, the first button is connected to the power generation module, the plurality of second buttons is connected to the bluetooth mesh transmission module, and the bluetooth transmission module Perform wireless communication with the Bluetooth mesh receiving module to configure networking information. After the networking information is successfully configured, the first near-field communication module sends the networking information to the second near-field communication module, The second near-field communication module receives the networking information and stores the networking information in the storage module, when the first button is pressed, the power generation module will press the button of the first button Convert mechanical energy into electrical energy, and store the electrical energy in the energy storage module, the energy storage module supplies power to the storage module and the Bluetooth mesh transmitting module, when a second button is pressed, the Bluetooth The mesh transmitting module obtains the networking information from the storage module, and sends the networking information and the control information corresponding to the second button to the Bluetooth mesh receiving module, and the Bluetooth transmitting module can simultaneously send The control information is sent to the Bluetooth mesh receiving module.

Further, when the Bluetooth mesh transmitting module detects that a certain second button is pressed, the Bluetooth mesh transmitting module will generate corresponding control information.

In order to achieve the above object, the present invention also provides a Bluetooth mesh-based control system, the Bluetooth mesh-based control system includes a smart mobile device, a passive wireless switch and a receiver, and the smart mobile device includes a Bluetooth transmitter module and a second A near-field communication module, the passive wireless switch includes a second near-field communication module, a storage module, a Bluetooth mesh transmitter module, an energy storage module, a power generation module and a plurality of buttons, the power generation module includes a shaking power generation unit, the The receiver includes a Bluetooth mesh receiving module, the Bluetooth transmitting module is connected to the first near-field communication module, the storage module is connected to the second near-field communication module and the Bluetooth mesh transmitting module, and the energy storage The module is connected to the power generation module, the Bluetooth mesh transmitting module and the storage module, each button is connected to the Bluetooth mesh transmitting module, and the Bluetooth transmitting module communicates wirelessly with the Bluetooth mesh receiving module to configure Networking information, after the networking information is configured successfully, the first near field communication module sends the networking information to the second near field communication module, and the second near field communication module receives the networking information information and store the networking information in the storage module, when shaking the passive wireless switch, the shaking power generation unit generates electricity, and stores the generated electric energy in the energy storage module, the energy storage module Provide power to the Bluetooth mesh transmitting module and the storage module, when a button is pressed, the Bluetooth mesh transmitting module obtains the networking information from the storage module, and stores the networking information and the storage module The control information corresponding to the button is sent to the Bluetooth mesh receiving module, and the Bluetooth transmitting module can simultaneously send the control information to the Bluetooth mesh receiving module.

Further, when the Bluetooth mesh transmitting module detects that a key is pressed, the Bluetooth mesh transmitting module will generate corresponding control information.

Further, the power generation module further includes a solar power generation unit. When the passive wireless switch is illuminated, the solar power generation unit generates electricity and stores the generated electric energy in the energy storage module.

Compared with the prior art, the present invention communicates with the Bluetooth mesh receiving module through the Bluetooth transmitting module to configure networking information, and transmits successfully configured networking information to the Bluetooth mesh receiving module through the first near-field communication module. The second near-field communication module, so that the smart mobile device, the passive wireless switch and the receiver are successfully networked, and the networking information of the passive wireless switch can be linked with the smart mobile device. network information changes, so that the passive wireless switch and the smart mobile device can simultaneously control the receiver, thereby bringing convenience to users. In addition, the present invention uses the second near field communication module to perform wireless communication with the first near field communication module without consuming electric energy, thereby saving the electric energy of the passive wireless switch.

【Description of drawings】

FIG. 1 is a functional block diagram of a first implementation manner of a Bluetooth mesh-based control system provided by an embodiment of the present invention.

Fig. 2 is a functional block diagram of a second embodiment of a Bluetooth mesh-based control system provided by an embodiment of the present invention.

Fig. 3 is a functional block diagram of a third embodiment of a Bluetooth mesh-based control system provided by an embodiment of the present invention.

【detailed description】

In order to make the objectives, technical solutions and beneficial technical effects of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the drawings in the embodiments of the present invention. Obviously, the described implementation Examples are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

When a module/element is said to be "connected to" another module/element, it can be directly connected to the other module/element or intervening modules/elements may also be present. Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the technical field of the invention. The terms used herein in the description of the present invention are for the purpose of describing specific embodiments only, and are not intended to limit the present invention.

Please refer to FIG. 1 . FIG. 1 is a functional block diagram of a first implementation of a Bluetooth mesh-based control system 10 provided by an embodiment of the present invention. The Bluetooth mesh-based control system 10 includes a smart mobile device 100 , a passive wireless switch 201 , a receiver 300 and a plurality of electrical devices 500 . The smart mobile device 100 includes a Bluetooth transmitting module 110 and a first NFC (Near Field Communication, near field communication) module 120 . The passive wireless switch 201 includes a second NFC module 210 , a storage module 220 , a Bluetooth mesh transmitter module 230 , a power generation module 250 and a plurality of buttons 261 . The receiver 300 includes a Bluetooth mesh receiving module 360 . The Bluetooth transmitting module 110 is connected to the first NFC module 120 . The storage module 220 is connected to the second NFC module 210 and the Bluetooth mesh transmitting module 230, the power generation module 250 is connected to the storage module 220 and the Bluetooth mesh transmitting module 230, and each button 261 is connected to the Bluetooth mesh transmitting module 230. The power generating module 250 is connected to the Bluetooth mesh transmitting module 230. The plurality of electrical devices 500 are connected to the receiver 300 .

The bluetooth mesh transmitting module 230 is an MCU (MicroControl Unit, micro control unit) with bluetooth function and mesh network function. The bluetooth mesh receiving module 360 is an MCU with bluetooth function and mesh network function. It can be understood that the mesh network refers to a "multi-hop" wireless network, based on mutual cooperation and collaboration among numerous wireless access points distributed in a mesh, the mesh network has broadband high speed and high frequency spectrum It has the advantage of efficiency, and has outstanding features such as dynamic self-organization, self-configuration, and self-maintenance. It can be seen that the Bluetooth mesh transmitting module 230 and the Bluetooth mesh receiving module 360 have Bluetooth functions and mesh network functions, so they can form an ad hoc network and realize multipoint-to-multipoint wireless communication. In other implementation manners, the Bluetooth transmitting module 110 may be replaced by a Bluetooth mesh receiving module.

The storage module 220 has NFC read and write functions and MCU read and write functions, therefore, the second NFC module 210 can perform read and write operations on the storage module 220, and the bluetooth mesh transmitting module 230 can also read and write to the storage module 220. Module 220 performs read and write operations. The storage module 220 includes a port 221 supporting NFC reading and writing and a port 223 supporting MCU reading and writing, the port 221 supporting NFC reading and writing is connected to the second NFC module 210, and the port 223 supporting MCU reading and writing It is connected with the bluetooth mesh transmitting module 230 . In this embodiment, the storage module 220 is EEPROM (Electrically-Erasable Programmable Read-Only Memory, Electronically Erasable Programmable Read-Only Memory). In other implementation manners, the storage module 220 may be other memories with similar functions, such as flash memory.

In this embodiment, the smart mobile device 100 includes a mobile phone, a laptop computer, a tablet computer, a personal digital assistant and a smart wearable device. The electrical equipment 500 includes lamps, air conditioners, fans and the like. The number of the buttons 261 and the number of the electrical equipment 500 can be adjusted accordingly according to the actual situation.

The working principle of the Bluetooth mesh-based control system 10 of the present invention will be described below.

When working, the Bluetooth transmitting module 110 communicates wirelessly with the Bluetooth mesh receiving module 360 to configure networking information. After the networking information is configured successfully, the first NFC module 120 sends the networking information to the second NFC module 210, and the second NFC module 210 receives the networking information and sends the networking information to the second NFC module 210. Information is stored in the storage module 220 . At this point, the smart mobile device 100 , the passive wireless switch 201 and the receiver 300 are successfully networked and have the same network information. In this embodiment, the networking information includes a Bluetooth mesh network name and a network access password. The networking information of the passive wireless switch 201 is sent by the smart mobile device 100, and may change as the networking information of the smart mobile device 100 changes, that is, the passive wireless switch 201 The networking information can be changed, so as to be able to form a network with different smart mobile devices 100 .

In this embodiment, the first NFC module 120 transmits the networking information to the second NFC module 210 through electromagnetic induction coupling in the radio frequency part of the frequency spectrum, therefore, the second NFC module 210 is The process of receiving the networking information and storing the networking information in the storage module 220 does not need to consume power, thereby saving the power of the passive wireless switch 201 .

When a button 261 is pressed, the power generation module 250 converts the mechanical energy of pressing the button 261 into electrical energy, and supplies power to the storage module 220 and the Bluetooth mesh transmitting module 230 . The bluetooth mesh transmitting module 230 obtains the networking information from the storage module 220, and generates the control information corresponding to the button 261, and sends the networking information and the control information corresponding to the button 261 Give the bluetooth mesh receiving module 360 to control the receiver 300 . The Bluetooth transmitting module 110 can simultaneously send control information to the Bluetooth mesh receiving module 360 to control the receiver 300 at the same time, thereby realizing the simultaneous control of the passive wireless switch 201 and the smart mobile device 100 Functionality of the receiver 300 . It can be understood that the passive wireless switch 201 and the smart mobile device 100 may respectively control the receiver 300 at different times.

In this embodiment, when the Bluetooth mesh transmitting module 230 detects that a key 261 is pressed, the Bluetooth mesh transmitting module 230 will generate corresponding control information. The corresponding relationship between pressing the button 261 and the control information generated by the Bluetooth mesh transmitting module 230 can be: 1. pressing different buttons 261 will generate different control information, for example, pressing the first button generates the control information for turning on the first electric light; Pressing the second button generates control information for turning off the first electric light. 2. Pressing different positions of the same key 261 will generate different control information, for example, pressing the upper end of the first key generates control information for turning off the first light; pressing the lower end of the first key generates control information for turning on the first light. 3. Different times of pressing the same button 261 will also generate different control information, for example, pressing the first button for the first time generates control information for turning on the first light; pressing the first button for the second time generates control information for turning off the first light Control information; press the first button for the third time to generate control information for turning on the first electric light (ie, cycle switch mode). In other implementation manners, the corresponding relationship between the pressed button 261 and the control information generated by the Bluetooth mesh transmitting module 230 may be adjusted accordingly according to the actual situation.

The receiver 300 controls the corresponding electrical equipment 500 according to the received control information. When the receiver 300 simultaneously receives the control information sent by the Bluetooth transmitting module 110 and the Bluetooth mesh transmitting module 230 , the receiver 300 simultaneously controls the corresponding electrical equipment 500 according to the received control information. For example, when the receiver 300 simultaneously receives the control information for turning on the light sent by the Bluetooth transmitter module 110 and the control information for turning on the air conditioner sent by the Bluetooth mesh transmitter module 230, the receiver 300 simultaneously controls the The lights are turned on and the air conditioner is turned on. That is, the receiver 300 can communicate with the passive wireless switch 201 and the smart mobile device 100 at the same time, and can also communicate with multiple electrical devices 500 at the same time.

Please refer to FIG. 2 . FIG. 2 is a functional block diagram of a second implementation manner of a Bluetooth mesh-based control system 20 provided by an embodiment of the present invention. The Bluetooth mesh-based control system 20 includes a smart mobile device 100 , a passive wireless switch 202 , a receiver 300 and a plurality of electrical devices 500 . The smart mobile device 100 includes a Bluetooth transmitting module 110 and a first NFC module 120 . The passive wireless switch 202 includes a second NFC module 210 , a storage module 220 , a Bluetooth mesh transmitter module 230 , an energy storage module 240 , a power generation module 250 , a first button 270 and a plurality of second buttons 280 . The receiver 300 includes a Bluetooth mesh receiving module 360 . The Bluetooth transmitting module 110 is connected to the first NFC module 120 . The storage module 220 is connected to the second NFC module 210 and the Bluetooth mesh transmitting module 230, and the energy storage module 240 is connected to the power generation module 250, the Bluetooth mesh transmitting module 230 and the storage module 220 . The first button 270 is connected to the power generation module 250 , and the plurality of second buttons 280 are connected to the Bluetooth mesh transmitting module 230 . The plurality of electrical devices 500 are connected to the receiver 300 .

When working, the Bluetooth transmitting module 110 communicates wirelessly with the Bluetooth mesh receiving module 360 to configure networking information. After the networking information is configured successfully, the first NFC module 120 sends the networking information to the second NFC module 210, and the second NFC module 210 receives the networking information and sends the networking information to the second NFC module 210. Information is stored in the storage module 220 . At this point, the smart mobile device 100 , the passive wireless switch 202 and the receiver 300 are successfully networked and have the same network information. In this embodiment, the networking information includes a Bluetooth mesh network name and a network access password.

When the first button 270 is pressed, the power generation module 250 converts the mechanical energy of pressing the first button 270 into electrical energy, and stores the electrical energy in the energy storage module 240 . The energy storage module 240 supplies power to the storage module 220 and the Bluetooth mesh transmitting module 230 . When a certain second button 280 is pressed, the bluetooth mesh transmitting module 230 obtains the networking information from the storage module 220, and generates control information corresponding to the second button 280, and transmits the The networking information and the control information corresponding to the second button 280 are sent to the Bluetooth mesh receiving module 360 to control the receiver 300 . The Bluetooth transmitting module 110 can send control information to the Bluetooth mesh receiving module 360 at the same time to control the receiver 300 at the same time, thereby realizing the simultaneous control of the passive wireless switch 202 and the smart mobile device 100 Functionality of the receiver 300 . It can be understood that the passive wireless switch 202 and the smart mobile device 100 may respectively control the receiver 300 at different times.

In this embodiment, when the Bluetooth mesh transmitting module 230 detects that a certain second button 280 is pressed, the Bluetooth mesh transmitting module 230 will generate corresponding control information. The corresponding relationship between pressing the second button 280 and the control information generated by the Bluetooth mesh transmitting module 230 is similar to the corresponding relationship between pressing the button 261 and the control information generated by the Bluetooth mesh transmitting module 230 , and will not be repeated here. Other parts similar to the control system 10 based on Bluetooth mesh, such as the structure and function of the storage module 220, the Bluetooth mesh transmitting module 230, the Bluetooth mesh receiving module 360, etc., and the receiver 300 according to The process of controlling the corresponding electrical equipment 500 by the received control information will not be repeated here. It can be understood that the bluetooth mesh transmitting module 230 may enter a sleep mode when no second button 280 is detected to be pressed, so as to save power.

Please refer to FIG. 3 . FIG. 3 is a functional block diagram of a third implementation manner of a Bluetooth mesh-based control system 30 provided by an embodiment of the present invention. The Bluetooth mesh-based control system 30 includes a smart mobile device 100 , a passive wireless switch 203 , a receiver 300 and a plurality of electrical devices 500 . The smart mobile device 100 includes a Bluetooth transmitting module 110 and a first NFC module 120 . The passive wireless switch 203 includes a second NFC module 210 , a storage module 220 , a Bluetooth mesh transmitter module 230 , an energy storage module 240 , a power generation module 290 and a plurality of buttons 263 . The power generation module 290 includes a shaking power generation unit 296 . The receiver 300 includes a Bluetooth mesh receiving module 360 . The Bluetooth transmitting module 110 is connected to the first NFC module 120 . The storage module 220 is connected to the second NFC module 210 and the Bluetooth mesh transmitting module 230, and the energy storage module 240 is connected to the power generation module 250, the Bluetooth mesh transmitting module 230 and the storage module 220 . The plurality of buttons 263 are connected to the Bluetooth mesh transmitting module 230 . The plurality of electrical devices 500 are connected to the receiver 300 .

When working, the Bluetooth transmitting module 110 communicates wirelessly with the Bluetooth mesh receiving module 360 to configure networking information. After the networking information is configured successfully, the first NFC module 120 sends the networking information to the second NFC module 210, and the second NFC module 210 receives the networking information and sends the networking information to the second NFC module 210. Information is stored in the storage module 220 . At this point, the smart mobile device 100 , the passive wireless switch 203 and the receiver 300 are successfully networked and have the same network information. In this embodiment, the networking information includes a Bluetooth mesh network name and a network access password.

When the passive wireless switch 203 is shaken, the shaking generating unit 296 generates electricity and stores the generated electric energy in the energy storage module 240 . The energy storage module 240 supplies power to the storage module 220 and the Bluetooth mesh transmitting module 230 . When a button 263 is pressed, the bluetooth mesh transmitting module 230 obtains the networking information from the storage module 220, and generates control information corresponding to the button 263, and sends the networking information and The control information corresponding to the button 263 is sent to the Bluetooth mesh receiving module 360 to control the receiver 300 . The Bluetooth transmitting module 110 can send control information to the Bluetooth mesh receiving module 360 at the same time to control the receiver 300 at the same time, thereby realizing the simultaneous control of the passive wireless switch 203 and the smart mobile device 100 Functionality of the receiver 300 . It can be understood that the passive wireless switch 203 and the smart mobile device 100 may respectively control the receiver 300 at different times.

In this embodiment, when the Bluetooth mesh transmitting module 230 detects that a key 263 is pressed, the Bluetooth mesh transmitting module 230 will generate corresponding control information. The corresponding relationship between pressing the button 263 and the control information generated by the Bluetooth mesh transmitting module 230 is similar to the corresponding relationship between pressing the button 261 and the control information generated by the Bluetooth mesh transmitting module 230 , and will not be repeated here. Other parts similar to the control system 10 based on Bluetooth mesh, such as the structure and function of the storage module 220, the Bluetooth mesh transmitting module 230, the Bluetooth mesh receiving module 360, etc., and the receiver 300 according to The process of controlling the corresponding electrical equipment 500 by the received control information will not be repeated here.

In this embodiment, the power generation module 290 further includes a solar power generation unit 298 . When the passive wireless switch 203 is illuminated, the solar power generation unit 298 generates electricity and stores the generated electricity in the energy storage module 240 . It can be understood that the bluetooth mesh transmitting module 230 enters a sleep mode when no button 263 is detected to be pressed, so as to save power. In other implementation manners, the solar power generation unit 298 may be omitted, and the power generation module 290 may also include other power generation units.

The present invention communicates with the Bluetooth mesh receiving module 360 through the Bluetooth transmitting module 110 to configure networking information, and transmits the successfully configured networking information to the second NFC module 210 through the first NFC module 120, To enable the smart mobile device 100, the passive wireless switch (201-203) and the receiver 300 to successfully form a network, and the network information of the passive wireless switch (201-203) can follow the The network information of the smart mobile device 100 changes, so that the passive wireless switch (201-203) and the smart mobile device 100 can simultaneously control the receiver 300, thereby bringing convenience to users. In addition, the present invention uses the second NFC module 210 to perform wireless communication with the first NFC module 120 without consuming electric energy, thereby saving electric energy of the passive wireless switch (201-203).

The present invention is not limited to the description in the description and the embodiments, so those skilled in the art can easily realize additional advantages and modifications, so without departing from the spirit and scope of the general concept defined by the claims and equivalent scope Without limitation, the invention is not limited to the specific details, representative apparatus, and illustrative examples shown and described herein.

Claims (15)

1. a kind of control system based on bluetooth mesh, it is characterised in that：The control system based on bluetooth mesh includes intelligence Energy mobile device, passive and wireless switch and receptor, the Intelligent mobile equipment include that Bluetooth transmission module and the first near field are logical News module, the passive and wireless switch include the second near field communication module, memory module, bluetooth mesh transmitter module, generating mould Block and multiple buttons, the receptor include bluetooth mesh receiver module, and the Bluetooth transmission module is logical with first near field News module is connected, and the memory module is connected with second near field communication module and the bluetooth mesh transmitter module, described Electricity generation module is connected with the bluetooth mesh transmitter module and the memory module, each button and the electricity generation module and described Bluetooth mesh transmitter module is connected, and the Bluetooth transmission module is communicated wirelessly with the bluetooth mesh receiver module, to match somebody with somebody Mesh information is put, after the mesh information configuration successful, first near field communication module is to second near field communication module The mesh information is sent, second near field communication module receives the mesh information and the mesh information is stored in institute Memory module is stated, when a certain button is depressed, the mechanical energy for pressing the button is converted into electric energy by the electricity generation module, And power to the memory module and the bluetooth mesh transmitter module, the bluetooth mesh transmitter module is from the memory module It is middle to obtain the mesh information, and the mesh information and the corresponding control information of the button are sent to into bluetooth mesh Receiver module, the Bluetooth transmission module can send control information simultaneously to the bluetooth mesh receiver module.

2. the control system based on bluetooth mesh as claimed in claim 1, it is characterised in that：The mesh information includes bluetooth Mesh network names and network access password.

3. the control system based on bluetooth mesh as claimed in claim 1, it is characterised in that：The bluetooth mesh transmitter module It is the micro-control unit with Bluetooth function and mesh network functions.

4. the control system based on bluetooth mesh as claimed in claim 3, it is characterised in that：The memory module has near field Communication read-write capability and micro-control unit read-write capability.

5. the control system based on bluetooth mesh as claimed in claim 4, it is characterised in that：The memory module includes supporting The port of near-field communication read-write and support the port of micro-control unit read-write, the port of support near-field communication read-write with it is described Second near field communication module is connected, and the port for supporting micro-control unit read-write is connected with the bluetooth mesh transmitter module.

6. the control system based on bluetooth mesh as claimed in claim 5, it is characterised in that：The memory module is smeared for electronics Except formula can make carbon copies read only memory.

7. the control system based on bluetooth mesh as claimed in claim 1, it is characterised in that：The bluetooth mesh receiver module It is the micro-control unit with Bluetooth function and mesh network functions.

8. the control system based on bluetooth mesh as claimed in claim 1, it is characterised in that：When bluetooth mesh launches mould Block detect a certain button it is depressed when, the bluetooth mesh transmitter module can generate corresponding control information.

9. the control system based on bluetooth mesh as claimed in claim 1, it is characterised in that：The control based on bluetooth mesh System processed also includes multiple electric equipments being connected with the receptor, when the receptor receives the Bluetooth transmission simultaneously During the control information that module and the bluetooth mesh transmitter module send, the receptor according to the control information for receiving while Corresponding electric equipment is controlled.

10. the control system based on bluetooth mesh as claimed in claim 1, it is characterised in that：The Intelligent mobile equipment bag Include mobile phone, laptop computer, panel computer, personal digital assistant and intelligent wearable equipment.

A kind of 11. control systems based on bluetooth mesh, it is characterised in that：The control system based on bluetooth mesh includes intelligence Energy mobile device, passive and wireless switch and receptor, the Intelligent mobile equipment include that Bluetooth transmission module and the first near field are logical News module, the passive and wireless switch include the second near field communication module, memory module, bluetooth mesh transmitter module, energy storage mould Block, electricity generation module, the first button and multiple second buttons, the receptor include bluetooth mesh receiver module, and the bluetooth is sent out Penetrate module to be connected with first near field communication module, the memory module and second near field communication module and the bluetooth Mesh transmitter modules are connected, the energy-storage module and the electricity generation module, the bluetooth mesh transmitter module and the storage mould Block is connected, and first button is connected with the electricity generation module, the plurality of second button and the bluetooth mesh transmitter module It is connected, the Bluetooth transmission module is communicated wirelessly with the bluetooth mesh receiver module, to configure mesh information, described group After net information configuration success, first near field communication module sends the mesh information to second near field communication module, Second near field communication module receives the mesh information and the mesh information is stored in the memory module, when described When first button is depressed, the mechanical energy for pressing first button is converted into electric energy by the electricity generation module, and will be described In the energy-storage module, the energy-storage module powers to the memory module and the bluetooth mesh transmitter module to power storage, When a certain second button is depressed, the bluetooth mesh transmitter module obtains the networking letter from the memory module Breath, and the mesh information and the corresponding control information of second button are sent to into the bluetooth mesh receiver module, institute Stating Bluetooth transmission module can be while sends control information to the bluetooth mesh receiver module.

12. control systems based on bluetooth mesh as claimed in claim 11, it is characterised in that：When bluetooth mesh is launched Module detect a certain second button it is depressed when, the bluetooth mesh transmitter module can generate corresponding control information.

A kind of 13. control systems based on bluetooth mesh, it is characterised in that：The control system based on bluetooth mesh includes intelligence Energy mobile device, passive and wireless switch and receptor, the Intelligent mobile equipment include that Bluetooth transmission module and the first near field are logical News module, the passive and wireless switch include the second near field communication module, memory module, bluetooth mesh transmitter module, energy storage mould Block, electricity generation module and multiple buttons, the electricity generation module include rocking generator unit, and the receptor includes that bluetooth mesh is received Module, the Bluetooth transmission module are connected with first near field communication module, and the memory module is logical with second near field News module and the bluetooth mesh transmitter module are connected, and the energy-storage module is launched with the electricity generation module, bluetooth mesh Module and the memory module are connected, and each button is connected with the bluetooth mesh transmitter module, the Bluetooth transmission module and The bluetooth mesh receiver module is communicated wirelessly, to configure mesh information, after the mesh information configuration successful, described One near field communication module sends the mesh information to second near field communication module, and second near field communication module is received The mesh information is simultaneously stored in the memory module by the mesh information, when the passive and wireless switch is rocked, described Generator unit generating is rocked, and by the power storage for producing in the energy-storage module, the energy-storage module gives bluetooth mesh Transmitter module and the memory module are powered, and when a certain button is depressed, the bluetooth mesh transmitter module is deposited from described The mesh information is obtained in storage module, and the mesh information and the corresponding control information of the button are sent to into the indigo plant Tooth mesh receiver modules, the Bluetooth transmission module can send control information simultaneously to the bluetooth mesh receiver module.

14. control systems based on bluetooth mesh as claimed in claim 13, it is characterised in that：When bluetooth mesh is launched Module detect a certain button it is depressed when, the bluetooth mesh transmitter module can generate corresponding control information.

15. control systems based on bluetooth mesh as claimed in claim 13, it is characterised in that：The electricity generation module also includes Solar power generation unit, when passive and wireless switch is by illumination, the solar power generation unit generates electricity, and will produce Power storage is in the energy-storage module.