CN106600935B - Control system based on bluetooth mesh - Google Patents
Control system based on bluetooth mesh Download PDFInfo
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- CN106600935B CN106600935B CN201611267601.4A CN201611267601A CN106600935B CN 106600935 B CN106600935 B CN 106600935B CN 201611267601 A CN201611267601 A CN 201611267601A CN 106600935 B CN106600935 B CN 106600935B
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/042—Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
- G05B19/0428—Safety, monitoring
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/20—Pc systems
- G05B2219/26—Pc applications
- G05B2219/2642—Domotique, domestic, home control, automation, smart house
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Abstract
A control system based on Bluetooth mesh comprises an intelligent mobile device, a passive wireless switch and a receiver. The intelligent mobile device comprises a Bluetooth transmitting module and a first near field communication module. The passive wireless switch comprises a second near field communication module, a storage module, a Bluetooth mesh transmitting module and a plurality of keys. The receiver comprises a Bluetooth mesh receiving module. The Bluetooth transmitting module is communicated with the Bluetooth mesh receiving module to configure networking information. The first near field communication module sends 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 certain key is pressed, the Bluetooth mesh transmitting module acquires networking information from the storage module and sends the networking information and control information corresponding to the key to the Bluetooth mesh receiving module. The Bluetooth transmitting module can simultaneously transmit control information to the Bluetooth mesh receiving module. The control system based on the Bluetooth mesh enables the passive wireless switch and the intelligent mobile device to control the receiver simultaneously.
Description
[ technical field ] A method for producing a semiconductor device
The invention relates to the technical field of smart homes, in particular to a control system based on Bluetooth mesh.
[ background of the invention ]
The passive wireless switch is an energy-saving and environment-friendly switch, and is matched with a matched receiver when in use, and the receiver is connected with electric appliances such as lamps and the like and is used for controlling the on and off of the electric appliances such as lamps and the like. The passive wireless switch and the receiver do not need wiring, and any battery is not needed in the whole service life of the switch, so that the application is very convenient. Bluetooth technology has now been applied to wireless communication between passive wireless switches and receivers due to its good compatibility and low power consumption. With the development of smart homes, smart mobile devices (such as mobile phones, PADs and the like) also participate in the control of electric appliances such as lamps, namely, users can control the lamps through passive wireless switches and can also control the lamps through mobile phones. However, the existing bluetooth technology can only aim at one-to-one communication, and when the passive wireless switch and the intelligent mobile device control receiver need to be used simultaneously, the existing bluetooth technology cannot realize simultaneous communication among the three, so that inconvenience is brought to the use of a user.
In view of the above, it is actually necessary to provide a bluetooth mesh-based control system to overcome the above drawbacks.
[ summary of the invention ]
The invention aims to provide a control system based on Bluetooth mesh, which enables a passive wireless switch and an intelligent mobile device to control a receiver simultaneously.
In order to achieve the above object, the present invention provides a bluetooth mesh-based control system, comprising an intelligent mobile device, a passive wireless switch and a receiver, wherein the intelligent mobile device comprises a bluetooth transmitting module and a first near field communication module, the passive wireless switch comprises a second near field communication module, a storage module, a bluetooth mesh transmitting module, a power generation module and a plurality of keys, the receiver comprises a bluetooth mesh receiving module, the bluetooth transmitting module is connected with the first near field communication module, the storage module is connected with the second near field communication module and the bluetooth mesh transmitting module, the power generation module is connected with the bluetooth mesh transmitting module and the storage module, each key is connected with the power generation module and the bluetooth mesh transmitting module, the bluetooth transmitting module is in wireless communication with the bluetooth mesh receiving module, 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 a certain key is pressed, the power generation module converts mechanical energy of the pressed key into electric energy and supplies power to the storage module and the Bluetooth mesh transmitting module, the Bluetooth mesh transmitting module acquires the networking information from the storage module and sends the networking information and control information corresponding to the key 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 comprises a bluetooth mesh network name and a network access password.
Furthermore, the bluetooth mesh transmitting module is a micro control unit with bluetooth function and mesh network function.
Furthermore, the storage module has a near field communication read-write function and a micro control unit read-write function.
Furthermore, the storage module comprises a port supporting near field communication reading and writing and a port supporting micro control unit reading and writing, the port supporting near field communication reading and writing is connected with the second near field communication module, and the port supporting micro control unit reading and writing is connected with the Bluetooth mesh transmitting module.
Furthermore, the storage module is an electronic erasing type rewritable read-only memory.
Furthermore, the bluetooth mesh receiving module is a micro control unit with bluetooth function and mesh network function.
Furthermore, when the bluetooth mesh transmitting module detects that a certain key is pressed, the bluetooth mesh transmitting module generates corresponding control information.
Furthermore, the control system based on the bluetooth mesh further comprises a plurality of electrical equipment connected with the receiver, and 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 device comprises a mobile phone, a laptop, a tablet computer, a personal digital assistant and a smart wearable device.
In order to achieve the above object, the present invention further provides a bluetooth mesh-based control system, which comprises an intelligent mobile device, a passive wireless switch and a receiver, wherein the intelligent mobile device comprises a bluetooth transmitting module and a first near field communication module, the passive wireless switch comprises a second near field communication module, a storage module, a bluetooth mesh transmitting module, an energy storage module, a power generation module, a first key and a plurality of second keys, the receiver comprises a bluetooth mesh receiving module, the bluetooth transmitting module is connected with the first near field communication module, the storage module is connected with the second near field communication module and the bluetooth mesh transmitting module, the energy storage module is connected with the power generation module, the bluetooth mesh transmitting module and the storage module, the first key is connected with the power generation module, and the plurality of second keys are connected with the bluetooth mesh transmitting module, the Bluetooth transmitting module is in 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 key is pressed, the power generation module converts mechanical energy pressing the first key into electric energy and stores the electric energy in the energy storage module, the energy storage module supplies power to the storage module and the Bluetooth mesh transmitting module, when one second key is pressed, the Bluetooth mesh transmitting module acquires the networking information from the storage module and sends the networking information and control information corresponding to the second key to the Bluetooth mesh receiving module, the bluetooth transmitting module can simultaneously transmit control information to the bluetooth mesh receiving module.
Furthermore, when the bluetooth mesh transmitting module detects that a second key is pressed, the bluetooth mesh transmitting module generates corresponding control information.
In order to achieve the above object, the present invention further provides a bluetooth mesh-based control system, which comprises an intelligent mobile device, a passive wireless switch and a receiver, wherein the intelligent mobile device comprises a bluetooth transmitting module and a first near field communication module, the passive wireless switch comprises a second near field communication module, a storage module, a bluetooth mesh transmitting module, an energy storage module, a power generation module and a plurality of keys, the power generation module comprises a shaking power generation unit, the receiver comprises a bluetooth mesh receiving module, the bluetooth transmitting module is connected with the first near field communication module, the storage module is connected with the second near field communication module and the bluetooth mesh transmitting module, the energy storage module is connected with the power generation module, the bluetooth mesh transmitting module and the storage module, each key is connected with the bluetooth mesh transmitting module, the Bluetooth transmitting module is in 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 passive wireless switch is shaken, the shaking power generation unit generates power and stores the generated power in the energy storage module, the energy storage module supplies power to the Bluetooth mesh transmitting module and the storage module, when a certain key is pressed, the Bluetooth mesh transmitting module acquires the networking information from the storage module, and sends the networking information and the control information corresponding to the key to the Bluetooth mesh receiving module, the bluetooth transmitting module can simultaneously transmit control information to the bluetooth mesh receiving module.
Furthermore, when the bluetooth mesh transmitting module detects that a certain key is pressed, the bluetooth mesh transmitting module generates corresponding control information.
Further, the power generation module also comprises a solar power generation unit, and when the passive wireless switch is illuminated by light, the solar power generation unit generates power and stores the generated electric energy in the energy storage module.
Compared with the prior art, the invention has the advantages that the Bluetooth transmitting module is communicated with the Bluetooth mesh receiving module to configure networking information, the successfully configured networking information is transmitted to the second near-field communication module through the first near-field communication module, so that the intelligent mobile device, the passive wireless switch and the receiver are successfully networked, and the networking information of the passive wireless switch can be changed along with the change of the networking information of the intelligent mobile device, so that the passive wireless switch and the intelligent mobile device can simultaneously control the receiver, and convenience is brought to the use of a user. In addition, the second near field communication module is in wireless communication with the first near field communication module under the condition of not consuming electric energy, so that the electric energy of the passive wireless switch is saved.
[ description of the drawings ]
Fig. 1 is a schematic block diagram of a first implementation of a bluetooth mesh-based control system according to an embodiment of the present invention.
Fig. 2 is a schematic block diagram of a second implementation of a bluetooth mesh-based control system according to an embodiment of the present invention.
Fig. 3 is a schematic block diagram of a third implementation manner of a bluetooth mesh-based control system according to an embodiment of the present invention.
[ detailed description ] embodiments
In order to make the objects, technical solutions and advantageous technical effects of the present invention more clearly and completely apparent, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
When a module/component is said to be "connected" to another module/component, it may be directly connected to the other module/component or intervening modules/components may be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.
Referring to fig. 1, fig. 1 is a schematic block diagram of a first implementation of a bluetooth mesh-based control system 10 according to an embodiment of the present invention. The bluetooth mesh-based control system 10 includes an intelligent mobile device 100, a passive wireless switch 201, a receiver 300, and a plurality of electric devices 500. The smart mobile device 100 includes a bluetooth transmission module 110 and a first NFC (Near Field Communication) module 120. The passive wireless switch 201 includes a second NFC module 210, a storage module 220, a bluetooth mesh transmitting 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 transmission module 230, the power generation module 250 is connected to the storage module 220 and the bluetooth mesh transmission module 230, and each button 261 is connected to the power generation module 250 and the bluetooth mesh transmission module 230. The plurality of electric devices 500 are connected to the receiver 300.
The bluetooth mesh transmitting module 230 is an MCU (MicroControl Unit) having a bluetooth function and a mesh network function. The bluetooth mesh receiving module 360 is an MCU having a bluetooth function and a mesh network function. It is understood that the mesh network refers to a multi-hop (multi-hop) wireless network, and has the advantages of high bandwidth, high spectral efficiency, dynamic self-organization, self-configuration, self-maintenance and the like, based on the cooperation and cooperation among a plurality of wireless access points distributed in a mesh shape. Therefore, the bluetooth mesh transmitting module 230 and the bluetooth mesh receiving module 360 have a bluetooth function and a mesh network function, and thus can perform ad hoc networking and realize multipoint-to-multipoint wireless communication. In other embodiments, the bluetooth transmitting module 110 may be replaced by a bluetooth mesh receiving module.
The storage module 220 has an NFC read-write function and an MCU read-write function, so that the second NFC module 210 can perform read-write operation on the storage module 220, and the bluetooth mesh transmission module 230 can also perform read-write operation on the storage module 220. The storage module 220 includes a port 221 supporting NFC read-write and a port 223 supporting MCU read-write, the port 221 supporting NFC read-write is connected to the second NFC module 210, and the port 223 supporting MCU read-write is connected to the bluetooth mesh transmitting module 230. In the present embodiment, the storage module 220 is an EEPROM (Electrically-Erasable Programmable Read-Only Memory). In other embodiments, the storage module 220 may be other memories with similar functions, such as a 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 electric device 500 includes an electric lamp, an air conditioner, an electric fan, and the like. The number of the keys 261 and the number of the electrical equipment 500 can be adjusted accordingly according to actual conditions.
The operation of the bluetooth mesh based control system 10 of the present invention will be explained.
In operation, the bluetooth transmitting module 110 performs wireless communication 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 stores the networking information in the storage module 220. At this time, the smart mobile device 100, the passive wireless switch 201, and the receiver 300 are successfully networked and have the same networking 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 can be changed with the change of the networking information of the smart mobile device 100, that is, the networking information of the passive wireless switch 201 can be changed, so that networking with different smart mobile devices 100 can be realized.
In this embodiment, the first NFC module 120 transmits the networking information to the second NFC module 210 in an electromagnetic induction coupling manner of a radio frequency part of a frequency spectrum, so that the second NFC module 210 does not need to consume electric energy in the process of receiving the networking information and storing the networking information in the storage module 220, thereby saving electric energy of the passive wireless switch 201.
When a certain key 261 is pressed, the power generation module 250 converts mechanical energy generated by pressing the key 261 into electric energy and supplies power to the storage module 220 and the bluetooth mesh transmission module 230. The bluetooth mesh transmitting module 230 acquires the networking information from the storage module 220, generates control information corresponding to the key 261, and transmits the networking information and the control information corresponding to the key 261 to the bluetooth mesh receiving module 360 to control the receiver 300. The bluetooth transmitting module 110 may simultaneously transmit control information to the bluetooth mesh receiving module 360 to simultaneously control the receiver 300, thereby implementing the function of simultaneously controlling the receiver 300 by the passive wireless switch 201 and the smart mobile device 100. It is understood that the passive wireless switch 201 and the smart mobile device 100 can also control the receiver 300 at different times.
In this embodiment, when the bluetooth mesh transmitting module 230 detects that a certain key 261 is pressed, the bluetooth mesh transmitting module 230 generates corresponding control information. The correspondence between the pressed key 261 and the control information generated by the bluetooth mesh transmitting module 230 may be: 1. pressing different keys 261 generates different control information, for example, pressing a first key generates control information for turning on a first lamp; pressing the second key generates control information for turning off the first electric lamp. 2. Pressing different positions of the same key 261 generates different control information, for example, pressing the upper end of the first key generates control information for turning off the first electric lamp; and pressing the lower end of the first key to generate control information for starting the first electric lamp. 3. Pressing the same key 261 a different number of times may also generate different control information, for example, pressing a first key for the first time generates control information for turning on a first lamp; pressing the first key for the second time to generate control information for turning off the first electric lamp; and pressing the first key for the third time to generate control information for turning on the first lamp (namely, a cyclic switch mode). In other embodiments, the correspondence between the pressed key 261 and the control information generated by the bluetooth mesh transmitting module 230 may be adjusted according to actual conditions.
The receiver 300 controls the corresponding electrical appliance 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 electric lamp sent by the bluetooth transmission module 110 and the control information for turning on the air conditioner sent by the bluetooth mesh transmission module 230, the receiver 300 simultaneously controls the electric lamp to be turned on and the air conditioner to be turned on. That is, the receiver 300 can simultaneously communicate with the passive wireless switch 201 and the smart mobile device 100, and can also simultaneously communicate with a plurality of electrical devices 500.
Referring to fig. 2, fig. 2 is a schematic block diagram of a second implementation of a bluetooth mesh-based control system 20 according to 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 electric 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 transmitting module 230, an energy storage module 240, a power generation module 250, a first key 270, and a plurality of second keys 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 transmission module 230. The plurality of electric devices 500 are connected to the receiver 300.
In operation, the bluetooth transmitting module 110 performs wireless communication 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 stores the networking information in the storage module 220. At this time, the smart mobile device 100, the passive wireless switch 202, and the receiver 300 are successfully networked and have the same networking 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 mechanical energy generated by 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 transmission module 230. When a certain second key 280 is pressed, the bluetooth mesh transmitting module 230 acquires the networking information from the storage module 220, generates control information corresponding to the second key 280, and sends the networking information and the control information corresponding to the second key 280 to the bluetooth mesh receiving module 360 to control the receiver 300. The bluetooth transmitting module 110 may simultaneously transmit control information to the bluetooth mesh receiving module 360 to simultaneously control the receiver 300, thereby implementing the function of simultaneously controlling the receiver 300 by the passive wireless switch 202 and the smart mobile device 100. It is understood that the passive wireless switch 202 and the smart mobile device 100 can also control the receiver 300 at different times.
In this embodiment, when the bluetooth mesh transmitting module 230 detects that a second key 280 is pressed, the bluetooth mesh transmitting module 230 generates corresponding control information. The correspondence between the pressing of the second key 280 and the control information generated by the bluetooth mesh transmitting module 230 is similar to the correspondence between the pressing of the key 261 and the control information generated by the bluetooth mesh transmitting module 230, and is not described herein again. Other parts similar to the bluetooth mesh-based control system 10, such as the structures and functions of the storage module 220, the bluetooth mesh transmitting module 230, the bluetooth mesh receiving module 360, and the like, and the process of the receiver 300 controlling the corresponding electrical equipment 500 according to the received control information, and the like, are not described in detail herein. It can be understood that the bluetooth mesh transmission module 230 may enter a sleep mode when it does not detect that any second key 280 is pressed, so as to save power.
Referring to fig. 3, fig. 3 is a schematic block diagram of a third implementation of a bluetooth mesh-based control system 30 according to 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 electric 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 transmitting 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 sloshing 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 transmission module 230. The plurality of electric devices 500 are connected to the receiver 300.
In operation, the bluetooth transmitting module 110 performs wireless communication 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 stores the networking information in the storage module 220. At this time, the smart mobile device 100, the passive wireless switch 203, and the receiver 300 are successfully networked and have the same networking 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 power generation unit 296 generates power and stores the generated power in the energy storage module 240. The energy storage module 240 supplies power to the storage module 220 and the bluetooth mesh transmission module 230. When a certain key 263 is pressed, the bluetooth mesh transmitting module 230 acquires the networking information from the storage module 220, generates control information corresponding to the key 263, and transmits the networking information and the control information corresponding to the key 263 to the bluetooth mesh receiving module 360 to control the receiver 300. The bluetooth transmitting module 110 may simultaneously transmit control information to the bluetooth mesh receiving module 360 to simultaneously control the receiver 300, thereby implementing the function of simultaneously controlling the receiver 300 by the passive wireless switch 203 and the smart mobile device 100. It is understood that the passive wireless switch 203 and the smart mobile device 100 can also control the receiver 300 at different times.
In this embodiment, when the bluetooth mesh transmitting module 230 detects that a certain key 263 is pressed, the bluetooth mesh transmitting module 230 generates corresponding control information. The correspondence between the press key 263 and the control information generated by the bluetooth mesh transmitting module 230 is similar to the correspondence between the press key 261 and the control information generated by the bluetooth mesh transmitting module 230, and is not described herein again. Other parts similar to the bluetooth mesh-based control system 10, such as the structures and functions of the storage module 220, the bluetooth mesh transmitting module 230, the bluetooth mesh receiving module 360, and the like, and the process of the receiver 300 controlling the corresponding electrical equipment 500 according to the received control information, and the like, are not described in detail herein.
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 power and stores the generated power in the energy storage module 240. It can be understood that the bluetooth mesh transmission module 230 enters the sleep mode when it does not detect that any key 263 is pressed, so as to save power. In other embodiments, the solar power generation unit 298 may be omitted, and the power generation module 290 may include other power generation units.
The 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, so that the intelligent mobile device 100, the passive wireless switch (201-. In addition, the second NFC module 210 wirelessly communicates with the first NFC module 120 without consuming power, so that power of the passive wireless switch (201 and 203) is saved.
The invention is not limited solely to the description and examples, and additional advantages and modifications will readily occur to those skilled in the art, so that the invention is not limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.
Claims (12)
1. The utility model provides a control system based on bluetooth mesh which characterized in that: the control system based on the Bluetooth mesh comprises an intelligent mobile device, a passive wireless switch and a receiver, wherein the intelligent mobile device comprises a Bluetooth transmitting module and a first near field communication module, the passive wireless switch comprises a second near field communication module, a storage module, a Bluetooth mesh transmitting module, a power generation module and a plurality of keys, the receiver comprises a Bluetooth mesh receiving module, the Bluetooth transmitting module is connected with the first near field communication module, the storage module is connected with the second near field communication module and the Bluetooth mesh transmitting module, the power generation module is connected with the Bluetooth mesh transmitting module and the storage module, each key is connected with the power generation module and the Bluetooth mesh transmitting module, the Bluetooth transmitting module is in wireless communication with the Bluetooth mesh receiving module to configure networking information, and after the networking information is successfully configured, the first near field communication module sends 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 key is pressed, the power generation module converts mechanical energy of the pressed key into electric energy and supplies power to the storage module and the Bluetooth mesh transmitting module, the Bluetooth mesh transmitting module acquires the networking information from the storage module and sends the networking information and control information corresponding to the key to the Bluetooth mesh receiving module, and the Bluetooth transmitting module can simultaneously send the control information to the Bluetooth mesh receiving module; the Bluetooth mesh transmitting module is an MCU with a Bluetooth function and a mesh network function; the storage module has an NFC read-write function and an MCU read-write function; the storage module comprises a port supporting NFC reading and writing and a port supporting MCU reading and writing, the port supporting NFC reading and writing is connected with the second near field communication module, and the port supporting MCU reading and writing is connected with the Bluetooth mesh transmitting module.
2. The bluetooth mesh-based control system as claimed in claim 1, wherein: the networking information comprises a Bluetooth mesh network name and a network access password.
3. The bluetooth mesh-based control system as claimed in claim 1, wherein: the storage module is an electronic erasing type rewritable read-only memory.
4. The bluetooth mesh-based control system as claimed in claim 1, wherein: the Bluetooth mesh receiving module is a micro control unit with a Bluetooth function and a mesh network function.
5. The bluetooth mesh-based control system as claimed in claim 1, wherein: when the Bluetooth mesh transmitting module detects that a certain key is pressed, the Bluetooth mesh transmitting module generates corresponding control information.
6. The bluetooth mesh-based control system as claimed in claim 1, wherein: the control system based on the Bluetooth mesh also comprises a plurality of electrical equipment connected with the receiver, and 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.
7. The bluetooth mesh-based control system as claimed in claim 1, wherein: the intelligent mobile equipment comprises a mobile phone, a portable computer, a tablet computer, a personal digital assistant and intelligent wearable equipment.
8. The utility model provides a control system based on bluetooth mesh which characterized in that: the control system based on the Bluetooth mesh comprises an intelligent mobile device, a passive wireless switch and a receiver, wherein the intelligent mobile device comprises a Bluetooth transmitting module and a first near field communication module, the passive wireless switch comprises a second near field communication module, a storage module, a Bluetooth mesh transmitting module, an energy storage module, a power generation module, a first key and a plurality of second keys, the receiver comprises a Bluetooth mesh receiving module, the Bluetooth transmitting module is connected with the first near field communication module, the storage module is connected with the second near field communication module and the Bluetooth mesh transmitting module, the energy storage module is connected with the power generation module, the Bluetooth mesh transmitting module and the storage module, the first key is connected with the power generation module, the plurality of second keys are connected with the Bluetooth mesh transmitting module, and the Bluetooth transmitting module is in wireless communication with the Bluetooth mesh receiving module, configuring 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 key is pressed, the power generation module converts mechanical energy generated by pressing the first key into electric energy, and stores the electric energy in the energy storage module, the energy storage module supplies power to the storage module and the Bluetooth mesh transmitting module, when a certain second key is pressed, the Bluetooth mesh transmitting module acquires the networking information from the storage module, and the networking information and the control information corresponding to the second key are sent to the Bluetooth mesh receiving module, the Bluetooth transmitting module can simultaneously transmit control information to the Bluetooth mesh receiving module; the Bluetooth mesh transmitting module is an MCU with a Bluetooth function and a mesh network function; the storage module has an NFC read-write function and an MCU read-write function; the storage module comprises a port supporting NFC reading and writing and a port supporting MCU reading and writing, the port supporting NFC reading and writing is connected with the second near field communication module, and the port supporting MCU reading and writing is connected with the Bluetooth mesh transmitting module.
9. The bluetooth mesh-based control system as claimed in claim 8, wherein: when the Bluetooth mesh transmitting module detects that a certain second key is pressed, the Bluetooth mesh transmitting module generates corresponding control information.
10. The utility model provides a control system based on bluetooth mesh which characterized in that: the control system based on the Bluetooth mesh comprises an intelligent mobile device, a passive wireless switch and a receiver, wherein the intelligent mobile device comprises a Bluetooth transmitting module and a first near field communication module, the passive wireless switch comprises a second near field communication module, a storage module, a Bluetooth mesh transmitting module, an energy storage module, a power generation module and a plurality of keys, the power generation module comprises a shaking power generation unit, the receiver comprises a Bluetooth mesh receiving module, the Bluetooth transmitting module is connected with the first near field communication module, the storage module is connected with the second near field communication module and the Bluetooth mesh transmitting module, the energy storage module is connected with the power generation module, the Bluetooth mesh transmitting module and the storage module, each key is connected with the Bluetooth mesh transmitting module, and the Bluetooth transmitting module is in wireless communication with the Bluetooth mesh receiving module, when a certain key is pressed, the Bluetooth mesh transmitting module acquires the networking information from the storage module and transmits the networking information and control information corresponding to the key to the Bluetooth mesh receiving module, and the Bluetooth transmitting module can simultaneously transmit the control information to the Bluetooth mesh receiving module; the Bluetooth mesh transmitting module is an MCU with a Bluetooth function and a mesh network function; the storage module has an NFC read-write function and an MCU read-write function; the storage module comprises a port supporting NFC reading and writing and a port supporting MCU reading and writing, the port supporting NFC reading and writing is connected with the second near field communication module, and the port supporting MCU reading and writing is connected with the Bluetooth mesh transmitting module.
11. The bluetooth mesh-based control system as claimed in claim 10, wherein: when the Bluetooth mesh transmitting module detects that a certain key is pressed, the Bluetooth mesh transmitting module generates corresponding control information.
12. The bluetooth mesh-based control system as claimed in claim 10, wherein: the power generation module further comprises a solar power generation unit, and when the passive wireless switch is illuminated by light, the solar power generation unit generates power and stores the generated electric energy in the energy storage module.
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CN201711497928.5A CN108303918A (en) | 2016-12-31 | 2016-12-31 | Control system, method and device based on wireless switching |
CN201611267601.4A CN106600935B (en) | 2016-12-31 | 2016-12-31 | Control system based on bluetooth mesh |
PCT/CN2017/119330 WO2018121662A1 (en) | 2016-12-31 | 2017-12-28 | Control system, method, and device based on wireless switch |
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CN201611267601.4A CN106600935B (en) | 2016-12-31 | 2016-12-31 | Control system based on bluetooth mesh |
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CN108303918A (en) * | 2016-12-31 | 2018-07-20 | 武汉领普科技有限公司 | Control system, method and device based on wireless switching |
CN108199931A (en) * | 2017-12-06 | 2018-06-22 | 深圳大学 | A kind of household electric appliance control method and system |
CN108231072A (en) * | 2017-12-08 | 2018-06-29 | 珠海格力电器股份有限公司 | Device control device, method and device for embodying the device |
CN108173966A (en) * | 2018-01-23 | 2018-06-15 | 南京邮电大学 | BLEMesh automatic network-building methods based on user collaboration |
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CN109828544A (en) * | 2019-02-15 | 2019-05-31 | 广州视声智能科技有限公司 | A kind of intelligent home control system and its configuration method based on bluetooth mesh |
CN110262267A (en) * | 2019-07-05 | 2019-09-20 | 珠海格力电器股份有限公司 | Intelligent panel switch and method for controlling electric equipment by using same |
CN110602682A (en) * | 2019-10-11 | 2019-12-20 | 张洋 | Network management system and method based on Bluetooth BLE and mesh mixing |
CN110769405A (en) * | 2019-10-28 | 2020-02-07 | 厦门阳光恩耐照明有限公司 | Network distribution method of Bluetooth mesh network |
CN110955153A (en) * | 2019-12-10 | 2020-04-03 | 杭州行至云起科技有限公司 | Multi-way switch control device and method |
CN111885802B (en) * | 2020-06-24 | 2023-10-13 | 昆山高过云智能科技有限公司 | Control method for realizing illumination Bluetooth local area network |
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CN114070360A (en) * | 2021-10-20 | 2022-02-18 | 广东顺德智勤科技有限公司 | Bluetooth broadcast generating device, Bluetooth signal transmitter and transmitting and receiving system |
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WO2018121662A1 (en) | 2018-07-05 |
CN106600935A (en) | 2017-04-26 |
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