CN109348463A - Bluetooth Mesh network and its network-building method and electrical equipment - Google Patents
Bluetooth Mesh network and its network-building method and electrical equipment Download PDFInfo
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- CN109348463A CN109348463A CN201811406656.8A CN201811406656A CN109348463A CN 109348463 A CN109348463 A CN 109348463A CN 201811406656 A CN201811406656 A CN 201811406656A CN 109348463 A CN109348463 A CN 109348463A
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- electrical equipment
- mesh network
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- bluetooth mesh
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- 238000000034 method Methods 0.000 title claims abstract description 28
- 238000004891 communication Methods 0.000 claims abstract description 23
- 230000003287 optical effect Effects 0.000 claims description 24
- 230000006855 networking Effects 0.000 claims description 20
- 230000015572 biosynthetic process Effects 0.000 claims description 13
- 230000005540 biological transmission Effects 0.000 claims description 12
- 238000009826 distribution Methods 0.000 claims description 6
- 230000006698 induction Effects 0.000 claims description 4
- 230000001360 synchronised effect Effects 0.000 claims 1
- 230000000007 visual effect Effects 0.000 claims 1
- 238000004020 luminiscence type Methods 0.000 abstract description 10
- 238000007726 management method Methods 0.000 description 84
- 238000005286 illumination Methods 0.000 description 17
- 230000008901 benefit Effects 0.000 description 15
- 241001465382 Physalis alkekengi Species 0.000 description 14
- 238000001514 detection method Methods 0.000 description 11
- 230000005611 electricity Effects 0.000 description 11
- 230000006870 function Effects 0.000 description 8
- 230000007613 environmental effect Effects 0.000 description 7
- 241001062009 Indigofera Species 0.000 description 6
- 238000012360 testing method Methods 0.000 description 6
- 238000004519 manufacturing process Methods 0.000 description 4
- 230000004044 response Effects 0.000 description 4
- 230000008447 perception Effects 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 238000000926 separation method Methods 0.000 description 3
- 238000004378 air conditioning Methods 0.000 description 2
- 230000008878 coupling Effects 0.000 description 2
- 238000010168 coupling process Methods 0.000 description 2
- 238000005859 coupling reaction Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000003760 hair shine Effects 0.000 description 2
- 230000006872 improvement Effects 0.000 description 2
- 230000003993 interaction Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 238000012163 sequencing technique Methods 0.000 description 2
- 238000005406 washing Methods 0.000 description 2
- WHXSMMKQMYFTQS-UHFFFAOYSA-N Lithium Chemical compound [Li] WHXSMMKQMYFTQS-UHFFFAOYSA-N 0.000 description 1
- 241001465754 Metazoa Species 0.000 description 1
- 230000032683 aging Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000001939 inductive effect Effects 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 229910052744 lithium Inorganic materials 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 230000014759 maintenance of location Effects 0.000 description 1
- 230000000737 periodic effect Effects 0.000 description 1
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- 238000003860 storage Methods 0.000 description 1
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/80—Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
-
- 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
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/18—Self-organising networks, e.g. ad-hoc networks or sensor networks
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/105—Controlling the light source in response to determined parameters
- H05B47/11—Controlling the light source in response to determined parameters by determining the brightness or colour temperature of ambient light
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
The present invention provides a bluetooth Mesh network and its network-building method and electrical equipment, it includes multiple illuminators, wherein each illuminator includes a luminescence component and a bluetooth mould group, and wherein the communication that can participate in a bluetooth Mesh network is set in the bluetooth mould group.
Description
Technical field
The present invention relates to cordless communication network more particularly to bluetooth Mesh networks.The present invention is further directed to indigo plant
Tooth mould group, to participate in the electrical equipment and its bluetooth Mesh network network-building method of the communication of bluetooth Mesh network.
Background technique
Various electrical equipments, such as illuminator etc., as life and production equipment, well-known and use.Often
Various household electricity equipment are seen, for example, illuminator, including home lamp, Commercial lighting, industrial illuminating lamp, road shine
The various headlamps such as bright lamp and landscape spotlight, various household electrical appliance, such as refrigerator, air-conditioning, washing machine and electric fan, various works
Industry electrical equipment, such as high and low voltage switch, ammeter, other field electrical equipments, as infrared sensor, camera, microwave pass
Sensor, GPS positioning device etc..These electrical equipments, such as most headlamp, especially Commercial lightings and industrial lighting
Lamp, multi-pass cross wired mode control.For example, being mounted on the headlamp of certain mall, corresponding management personnel or operator are often needed
Timing opens or closes.Many times, the headlamp of different location, for example, being needed out in the lamps and lanterns of certain mall difference floor
Open different with the shut-in time, administrative staff or operator have to the photograph of each floor for opening or closing mall in layers
Bright lamp.
In order to reduce the management cost of electrical equipment and/or reduce corresponding human cost, people are by being laid with complexity
These electrical equipments are connected to a controlling terminal, to these electrical equipments such as KNX, 485, DALI bus by control bus
Carry out integrated control.However, although existing true to a certain extent in such a way that bus realization controls electrical equipment
Production cost is reduced in fact, but it also has many defects: firstly, bus itself is this means that higher cost.Secondly, bus
After laying, wire rod aging, animal damage are faced, the risk of damage is needed to its periodic maintenance and inspection.Again, existing
It requires to train good professional in such a way that bus realization controls electrical equipment.Above-mentioned these will lead to use
The manufacturing cost and use cost of electric equipment is substantially increased.For example, comparatively, the cost of the headlamp for commercial lighting may
Far below the cost of bus.When user has to control headlamp by controlling terminal, entire electrical equipment is also implied that
Manufacturing cost and use cost be substantially increased.Finally, the mode of operation of traditional bus marco to electrical equipment, not completely
Solve the problem of management of electrical equipment.For example, the administrative staff of commercial mansion are difficult to understand at any time in mansion every headlamp
State.It is also only that just can be found and repair replacement when being reported for repairment even if certain lamp is damaged in mansion.In addition, by
Higher position is generally set in illuminator, administrative staff or operator are still difficult as needed, at any time to headlamp
Tool detection and the state for understanding headlamp.
In addition, the continuous improvement required with the continuous progress of technology with people quality of the life, electrical equipment are also more next
More consider as a part of the entire living environment of people.For example, under concrete application occasion, to the independence of different headlamps
Switch control, or in different living scenes, to size, the different demands of the color of light etc. of the intensity of illumination of illuminator.To the greatest extent
These individual demands of pipe people can also be realized by being manually operated, but this will necessarily bring bad use body
It tests.For example, the intensity of illumination of headlamp can also be adjusted by switch manual.But when needing to adjust entire room or entire building
When the intensity of illumination of all headlamps of layer, the regulative mode of manual operation will bring very big workload and cause to be difficult to bear
The human cost received.
Accordingly, it is desirable to be capable of the method and/or means of intelligent management electrical equipment.Especially, people need energy
Enough by client or controlling terminal, pass through wireless network, the method and/or means of intelligent management electrical equipment.
Summary of the invention
Main advantage of the invention is to provide a kind of electrical equipment, wherein be set can for exemplary electrical equipment of the invention
By one bluetooth Mesh network of access bluetooth Mesh network or composition, to be in communication with each other by the bluetooth Mesh network.Preferably,
The electrical equipment is illuminator.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein energy is set in exemplary electrical equipment of the invention
A client or controlling terminal are enough connected to by a bluetooth Mesh network, to communicate with, so that the electricity consumption is set
Standby attribute and state can be obtained by the client or controlling terminal.Therefore, the intelligent wireless of the exemplary electrical equipment of the present invention
Changing management can be realized by accessing existing bluetooth Mesh network.
Main advantage of the invention is to provide a kind of electrical equipment, wherein exemplary electrical equipment of the invention allows through this
Bluetooth Mesh network is managed it, to significantly improve the convenience being managed to the electrical equipment and this is greatly reduced
The management cost of electrical equipment.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein exemplary electrical equipment of the invention allows one
Client or controlling terminal are communicated with by a bluetooth Mesh network, so that the electrical equipment can pass through the bluetooth
Mesh network receives the message (or data) from the client or controlling terminal.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein exemplary electrical equipment of the invention is also further
Including equipment or components such as other relevant to electrical equipment components, such as humidity sensor, optical sensor, to meet people's
Personal needs.It is appreciated that the associated components of the electrical equipment can also be accessed the bluetooth Mesh network and be formed corresponding
Node or element.In other words, the exemplary electrical equipment of the present invention allows a client or controlling terminal to pass through the bluetooth
Mesh network is managed all parts of entire electrical equipment.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein exemplary electrical equipment of the invention passes through the indigo plant
The wireless intelligent management of tooth Mesh network is not limited to the type or model of electrical equipment.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein the management of exemplary electrical equipment of the invention is not
Need tool and the operator of any profession.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein carrying out pipe to the exemplary electrical equipment of the present invention
The client or controlling terminal of reason can be the human-computer interaction terminal of any sequencing.For example, client of the present invention or control are eventually
End can be removable computer, smart phone, tablet computer etc..Correspondingly, client or controlling terminal of the present invention can be installation
There is the smart phone of bluetooth Mesh application program, such as iOS smart phone or Android intelligent.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein exemplary electrical equipment of the invention allows client
End or controlling terminal are managed any electrical equipment and any number of electrical equipment that access in Mesh network.Accordingly
The marginal management cost on ground, the exemplary electrical equipment of the present invention is significantly reduced.
It is of the invention another advantage is that a kind of electrical equipment is provided, wherein exemplary electrical equipment of the invention allows client
End or controlling terminal are managed it by the bluetooth Mesh network, even if so that the exemplary electrical equipment of the present invention away from
From one long range of client or controlling terminal, can also be managed.
It is of the invention another advantage is that provide a kind of electrical equipment management system based on bluetooth Mesh network, wherein this
Invention electrical equipment management system, which is set, to be managed by a bluetooth Mesh network and access all of the bluetooth Mesh network
Electrical equipment.
Other advantage and characteristics of the invention are able to fully demonstrate and can be by appended rights by following detailed descriptions
The combination of the means and device specially pointed out in it is required that is achieved.
One aspect under this invention can be realized the electrical equipment of the present invention tool of foregoing purpose and other purposes and advantage
Have:
At least one bluetooth mould group, wherein the bluetooth mould group, which is set, can participate in a bluetooth Mesh network communication.
Further, electrical equipment of the present invention further comprises an environment induction component, to set for incuding the electricity consumption
Standby place environment, for example, the optical sensor of the light intensity for inductive lightning lamps and lanterns position or space.
Further, the bluetooth mould group of illuminator of the present invention, which is set, has access to a bluetooth Mesh network, and
A node as the bluetooth Mesh network.
Another aspect under this invention, the present invention further provides an electrical equipment management systems comprising:
One group of electrical equipment, wherein each electrical equipment includes at least one bluetooth mould group, wherein the bluetooth mould group is set
A bluetooth Mesh network communication can be participated in by setting.
Other side under this invention, the present invention further provides a kind of bluetooth Mesh network-building methods comprising following
Step:
(A) electrical equipment is scanned to search for, wherein each electrical equipment has at least one can networking bluetooth mould group;
(B) distribution is carried out to the electrical equipment scanned, to form a bluetooth Mesh network;
(C) electrical equipment is configured, to form it into a node of the bluetooth Mesh network;With
(D) at least one relay node is configured for each node of the bluetooth Mesh network.
Preferably, the step (D) of preferred embodiment according to the present invention, bluetooth Mesh network-building method of the present invention includes following
Step:
(D1) adjacent node that each node of the bluetooth Mesh network can scan is determined;With
(D2) adjacent node arrived according to each node scan of the bluetooth Mesh network, for bluetooth Mesh network configuration
Relay node, wherein the node for being each configured as the bluetooth Mesh network of relay node can scan it is adjacent at least two
Node.
Further, preferred embodiment according to the present invention, bluetooth Mesh network-building method of the present invention further comprise following steps
It is rapid:
(E) it according to the relay node of the bluetooth Mesh network, calculates between any two node of the bluetooth Mesh network
Data transmission link.
Other side under this invention, the present invention further provides a kind of bluetooth Mesh network-building methods comprising following
Step:
(A) electrical equipment is scanned to search for, wherein each electrical equipment has at least one can networking bluetooth mould group;
(B) electrical equipment scanned is accessed into a bluetooth Mesh network;
(C) electrical equipment scanned is configured, to form it into a node of the bluetooth Mesh network;With
(D) node formed for each electrical equipment configures at least one relay node.
Preferably, the step (D) of preferred embodiment according to the present invention, bluetooth Mesh network-building method of the present invention includes following
Step:
(D1) adjacent node that the node that each electrical equipment is formed can scan is determined;With
(D2) adjacent node arrived according to the node scan that the electrical equipment is formed, the node formed for the electrical equipment are matched
Set relay node.
Further, preferred embodiment according to the present invention, bluetooth Mesh network-building method of the present invention further includes following step:
(E) it according to the relay node of the bluetooth Mesh network, calculates between any two node that the electrical equipment is formed
Data transmission link.
Further, preferred embodiment according to the present invention, bluetooth Mesh network-building method of the present invention further includes following step:
(F) adjacent node arrived according to the node scan that the electrical equipment is formed, it is determined whether configure the electrical equipment shape
At node be the bluetooth Mesh network relay node.
By the understanding to subsequent description and attached drawing, further aim of the present invention and advantage will be fully demonstrated.
These and other objects of the invention, feature and advantage, by following detailed descriptions, drawings and claims are obtained
To fully demonstrate.
Detailed description of the invention
Shown in figure 1A is the illustrative electrical equipment management system according to present pre-ferred embodiments, and wherein the electricity consumption is set
The electrical equipment of standby management system forms the node of bluetooth Mesh network.
Figure 1B is the structural schematic diagram of the above-mentioned illustrative electrical equipment management system according to present pre-ferred embodiments.
Fig. 2 is the structural schematic diagram of the above-mentioned illustrative electrical equipment according to present pre-ferred embodiments.
Shown in Fig. 3 is the above-mentioned illustrative electrical equipment according to present pre-ferred embodiments by one bluetooth Mesh of access
The process of network.
Shown in Fig. 4 is that the above-mentioned illustrative electrical equipment according to present pre-ferred embodiments sets up a bluetooth Mesh net
The process of network.
Shown in fig. 5 is the above-mentioned illustrative electrical equipment according to present pre-ferred embodiments in bluetooth Mesh network
Spatial distribution.
Shown in fig. 6 is the above-mentioned illustrative electrical equipment according to present pre-ferred embodiments in bluetooth Mesh network
Another spatial distribution.
Shown in Fig. 7 is above-mentioned illustrative two electrical equipments according to present pre-ferred embodiments at the network bluetooth Mesh
In message transmission via link or path, wherein arrow in the figure is directed toward the direction of transfer for indicating message.
Fig. 8 is the process according to the bluetooth Mesh network network-building method of the illustrative electrical equipment of present pre-ferred embodiments
Figure.
Fig. 9 is the bluetooth Mesh network network-building method according to the illustrative another electrical equipment of present pre-ferred embodiments
Flow chart.
Specific embodiment
It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.In being described below preferably
Embodiment is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description
Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and without departing from
The other technologies scheme of the spirit and scope of the present invention.
It will be understood by those skilled in the art that in exposure of the invention, term " longitudinal direction ", " transverse direction ", "upper",
The orientation or position of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside"
Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, rather than
The device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore above-mentioned
Term is not considered as limiting the invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.
Figure 1A to Fig. 7 of reference book attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
System is elucidated with.Illustratively, the electrical equipment of electrical equipment management system of the present invention is illuminator, wherein the electrical equipment pipe
Reason system includes multiple illuminators 10, wherein each illuminator 10 includes 11 He of at least one lighting device or luminescence component
The bluetooth mould group 12 of at least one and 11 phase of luminescence component coupling.The illumination of the exemplary electrical equipment management system of the present invention
The luminescence component 11 of lamps and lanterns 10 includes the light-emitting component 1102 that at least one is used to emit or generate illumination light.It is appreciated that
Between the luminescence component 11 and the bluetooth mould group 12 of the illuminator 10 of the exemplary electrical equipment management system of the present invention
Coupling, refers to that the connection between the luminescence component 11 and the bluetooth mould group 12 can be connected by wired mode, can also lead to
It crosses and is wirelessly communicably connected.Therefore, which can be integrated in the luminescence component 11, can also be with
11 phase of luminescence component separation.The bluetooth mould group 12 of the illuminator 10 of the exemplary electrical equipment management system of the present invention is excellent
Be selected as can networking bluetooth mould group, for example, the bluetooth mould group based on bluetooth 4.0 and the above version, so that the exemplary electricity consumption of the present invention
The illuminator 10 of equipment management system may participate in the communication of bluetooth Mesh network 100.Preferably, the exemplary electricity consumption of the present invention is set
The illuminator 10 (or its bluetooth mould group 12) of standby management system can form the node of the bluetooth Mesh network 100, and participate in
The communication of the bluetooth Mesh network 100.Optionally, the exemplary electrical equipment management system of the present invention the illuminator 10 (or
Its bluetooth mould group 12) it is the bluetooth equipment based on lowest version Bluetooth specification.Skilled person will appreciate that blue based on lowest version
The bluetooth mould group of tooth specification remains to participate in the communication of bluetooth Mesh network 100, but is limited to Bluetooth specification, can not be used as bluetooth
The node of Mesh network 100 forwards message.It will be understood by those skilled in the art that the use of electrical equipment management system of the present invention
Electric equipment can be illuminator, incandescent lamp in this way, fluorescent lamp, fluorescent lamp, LED light etc. or household electrical appliance, as refrigerator,
Air-conditioning, washing machine and electric fan etc. or electrical equipment, such as high and low voltage switch, ammeter or other electrical equipments, such as
Infrared sensor, camera, human body sensor, GPS positioning device etc..
It is worth noting that, refer to can be by the communication channel of bluetooth Mesh network for the term as used herein " node "
The active electronic devices of transmission, reception or forwarding information, for example, above-mentioned illuminator 10.But node herein and unlimited
In only by the illustrative electrical equipment of the present invention, such as the illuminator 10 formation.The exemplary electrical equipment management system of the present invention
The illuminator 10 can access existing bluetooth Mesh network and participate in the communication of bluetooth Mesh network.Therefore, herein
Node may also be formed by other equipment.
It is hereinbelow with the exemplary electrical equipment of the present invention, illuminator, come illustrate the present invention relates to electrical equipment
Management system and its electrical equipment, electrical equipment Mesh networking and electrical equipment management method.
As shown in Figure 1A of attached drawing, the electrical equipment of the exemplary electrical equipment management system of the present invention is illuminator 10,
Wherein the communication that can participate in a bluetooth Mesh network 100 is set in each illuminator 10.Preferably, example of the present invention
Any two illuminator 10 of property electrical equipment management system can be in communication with each other by the bluetooth Mesh network 100.The present invention
When two illuminators 10 of exemplary electrical equipment management system realize communication, which can be other
Equipment is formed, and only can also be set up or be constructed by illuminator 10 of the present invention.It is highly preferred that the exemplary electrical equipment pipe of the present invention
Each illuminator 10 of reason system can be connected to a client 30 by the bluetooth Mesh network 100, to make this
Each illuminator 10 of electrical equipment management system can be managed by the client 30 or is managed by the client 30.
As shown in Fig. 3 and Fig. 8 of attached drawing, according to this of the illustrative electrical equipment management system of present pre-ferred embodiments
Illuminator 10 is by a networker or matches wire stitcher, for example, by the client 30, by one existing bluetooth Mesh net of access
Network 100.The illuminator 10 of the exemplary electrical equipment management system of the present invention passes through the client 30 or bluetooth Mesh net
One node of network 100 is scanned or is sensed, and wherein the bluetooth mould group 12 of the illuminator 10 is activated or is swashed
It is living, it allows it to broadcast its identifier by transmitter 1203.When the management of the exemplary electrical equipment management system of the present invention
Personnel or operator can scan the illumination within the scope of preset range or pre-determined distance by the client 30 as networker
Lamps and lanterns 10, and it is authenticated, it can be identified by the client 30 by the illuminator 10 after certification, and according to its bluetooth
The specification version that mould group 12 is supported a, it is configured to node or element for the bluetooth Mesh network 100.For example, working as the photograph
When the bluetooth mould group 12 of bright lamp tool 10 is the bluetooth standardized based on 4.0 or more bluetooth, then the illuminator 10 can be configured
For the node of the bluetooth Mesh network 100, when the bluetooth mould group 12 of the illuminator 10 is standardized based on 4.0 or less bluetooth
When bluetooth, then the illuminator 10 can be configured to the element of the bluetooth Mesh network 100 (or its node).Generally, the indigo plant
The node of tooth Mesh network can be assigned, such as distribute a unicast address by the client 30, using the mesh as transmission message
Ground.Meanwhile the unicast address of the node is alternatively arranged as spot or the message source of message.Unicast address may alternatively appear in message
Source address field or destination address field (DAF).The message for being sent to unicast address can only be by purpose (ground) node or purpose (ground) element
Processing.Multiple nodes of the bluetooth Mesh network can be assigned a multicast address.Generally, multicast address is only capable of as a purpose
Address, the message for being sent to multicast address can be obtained by all nodes for subscribing to the multicast address or element.When the illuminator 10
When being configured as the element of the bluetooth Mesh network 100, which usually can only be assigned a unicast address.Example
Such as, the voltage detector 1104 of the illuminator 10 of the exemplary electrical equipment management system of the present invention and power switch can quilts
It is set as the element of the node of the illuminator 10 formation.At this point, the headlamp of the exemplary electrical equipment management system of the present invention
Tool 10 can be assigned a multicast address.When the illuminator 10 of the exemplary electrical equipment management system of the present invention should by access
Bluetooth Mesh network 100, and after being configured as the node or element of the bluetooth Mesh network 100, the exemplary electricity consumption of the present invention is set
The illuminator 10 of standby management system can be managed by the client 30 or is managed by the client 30.For example, management
Personnel or operator can be by the clients 30 to some illuminator 10 of the exemplary electrical equipment management system of the present invention
An instruction, instruction of such as turning on light are sent, which sends a carrying by the respective nodes of the bluetooth Mesh network 100
The message of the instruction of turning on light, after which is sent to the illuminator 10 by the respective nodes of the bluetooth Mesh network 100,
The illuminator 10 controls its power supply 1101 and powers to its light-emitting component 1102, so that the light-emitting component of the illuminator 10 be made to send out
Light and illumination.The illuminator 10 (or its bluetooth mould group 12) of the exemplary electrical equipment management system of the present invention receives this and disappears
After breath, a response can be sent to the client 30 or is responded.In addition, the photograph of the exemplary electrical equipment management system of the present invention
Bright lamp has the node that 10 (or its bluetooth mould group 12) are formed and is set and can generate a reception when receiving a message and go through
History, and the node that the bluetooth mould group 12 is formed is set and can stop receiving subsequent identical message according to the reception history.This
The illuminator 10 for inventing exemplary electrical equipment management system can also be by a node quilt of the bluetooth Mesh network 100
It scans or is sensed.When the node scan of the bluetooth Mesh network 100 to or when sensing the illuminator 10, the bluetooth
The node of Mesh network 100, which is reported the illuminator 10 by the bluetooth Mesh network 100, gives the client 30, so that
Administrative staff or operator can be by the bluetooth Mesh networks 100, to the illuminator 10 hair for being scanned or sensing
Networking configuration information is sent, to be configured as the node or element of the bluetooth Mesh network 100.In addition, by the indigo plant is accessed
The adjacent node number that the illuminator 10 of tooth Mesh network 100 can also be scanned or be sensed according to or based on it, is configured
For the relay node of the bluetooth Mesh network 100, with retransmitted in the bluetooth Mesh network 100 received message or its
Data packet.Further, administrative staff or operator can be by clients 30, according to each of the bluetooth Mesh network 100
The adjacent node that node can scan configures relay node for the bluetooth Mesh network 100, wherein being configured as the relaying section
The node of the bluetooth Mesh network 100 of point can be scanned at least two adjacent nodes.In the relaying of the bluetooth Mesh network
After node is configured, administrative staff or operator can be by clients 30, according to the relay node of the bluetooth Mesh network, meter
Calculate the data transmission link between any two node of the bluetooth Mesh network.It is appreciated that in the bluetooth Mesh network
After relay node is determined, the data transmission link between any two node of the bluetooth Mesh network can be calculated and true
It is fixed.
As shown in Fig. 4 and Fig. 9 of attached drawing, according to this of the illustrative electrical equipment management system of present pre-ferred embodiments
Illuminator 10 can also be set up by a networker or with wire stitcher or construct a new bluetooth Mesh network 100, wherein originally
Invent exemplary electrical equipment management system at least one illuminator 10 be provided having at least one can networking bluetooth mould
Group 12.It is appreciated that it is herein can networking bluetooth mould group refer to the indigo plant that can participate in setting up or constructing bluetooth Mesh network
Tooth or bluetooth mould group are based especially on the bluetooth mould group of 4.0 or more bluetooth.As shown in Fig. 4 of attached drawing, administrative staff or operator
Member is by the networker, for example, the illuminator 10 within the scope of preset range or pre-determined distance is scanned by the client 30,
And it is authenticated, networking configuration information is distributed by the client 30 by the illuminator 10 after certification, and according to it
The specification version that bluetooth mould group 12 is supported, is configured as the node or element of bluetooth Mesh network 100.Then, it is configured as indigo plant
The node of the tooth Mesh network 100 or illuminator 10 of element is spontaneous is mutually distinguishable and sets up the bluetooth Mesh network 100.When this
After the completion of 10 networking of illuminator or distribution for inventing exemplary electrical equipment management system, the exemplary electrical equipment of the present invention
The illuminator 10 of management system can be managed by the client 30 or is managed by the client 30.For example, administrator
Member or operator can be sent out by the client 30 to some illuminator 10 of the exemplary electrical equipment management system of the present invention
An instruction is sent, instruction of such as turning on light, which sends a carrying by the respective nodes of the bluetooth Mesh network 100 should
The message of instruction of turning on light should after the message is sent to the illuminator 10 by the respective nodes of the bluetooth Mesh network 100
Illuminator 10 controls its power supply 1101 and powers to its light-emitting component 1102, so that the light-emitting component of the illuminator 10 be made to shine
And illumination.The illuminator 10 (or its bluetooth mould group 12) of the exemplary electrical equipment management system of the present invention receives the message
Afterwards, a response can be sent to the client 30 or is responded.In addition, the client 30 can also configure, or referred to according to a configuration
Enable configuration, the illuminator 10 be the bluetooth Mesh network 100 relay node, in the bluetooth Mesh network 100 again
Send received message or its data packet.Preferably, it is configured as the headlamp of the relay node of the bluetooth Mesh network 100
The number of tool 10 (or its can networking bluetooth mould group 12) scanning or the adjacent node (or illuminator 10) sensed is not less than two
It is a.It is highly preferred that when the node that the illuminator 10 (or its bluetooth mould group 12) is formed is arranged to the bluetooth Mesh network 100
Relay node when, the bluetooth mould group 12 formed node can receive message, to all bluetooth mould groups 12 formed node
Relay node forward the message.Most preferably, when the node that the illuminator 10 (or its bluetooth mould group 12) is formed is set
For the bluetooth Mesh network 100 relay node when, the node which forms can receive message, and be disappeared according to this
The destination address carried is ceased, the relay node of the node formed to all bluetooth mould groups 12 forwards the message.In other words, should
The destination address that the node that bluetooth mould group 12 is formed is carried according to the message is selectively formed to all bluetooth mould groups 12
The relay node of node forwards the message, repeats to forward the message to avoid the relay node of the bluetooth Mesh network 100.This
Outside, due to after the relay node of the bluetooth Mesh network is determined, between any two node of the bluetooth Mesh network
Data transmission link can be calculated and be determined.Therefore, the node and be somebody's turn to do which forms
Data transmission link between any other node of bluetooth Mesh network can be selected.
It is worth noting that, its device of networker or distribution herein may be implemented as the human-computer interaction of any sequencing
Mobile terminal.Therefore, client 30 herein can be removable computer, smart phone, tablet computer etc..Correspondingly, herein
In client 30 can be the smart phone for being equipped with bluetooth Mesh application program, as iOS smart phone or Android intelligence
Mobile phone.Preferably, client 30 herein is the equipment with visualized operation interface, to facilitate user to be visually arranged
Device parameter.Meanwhile client 30 herein also can be used as a controller, carry out adjusting control in real time to whole network;
And after client 30 withdraws from mesh network, original setting is still effectively run with networking.It that is to say, 30 quilt of client
As controlling terminal and a node coordinator, and it can cut and withdraw from any time.
As shown in Figure 1A to Fig. 7 of attached drawing, according to present pre-ferred embodiments illustrative electrical equipment management system into
One step includes at least one environmental sensor 40, for example, the exemplary electrical equipment of the present invention includes one for detecting the illumination
The optical sensor 401 of the light of 10 position of lamps and lanterns or locational space.The optical sensor 401 can be used for detection light light intensity,
The illuminance of colour temperature and/or light.The environmental sensor 40 of the exemplary electrical equipment management system of the present invention can be with corresponding illumination
Lamps and lanterns 10 are integrated together, can also be provided separate from corresponding illuminator 10.For example, working as the optical sensor 401
When can be used for detecting the illuminance of the light intensity of the light that corresponding illuminator 10 issues, colour temperature and/or light, the optical sensor 401
It can be incorporated in corresponding illuminator 10, and the light-emitting component of the luminescence component 11 of the face illuminator 10 be set
1102.At this point, the optical sensor 401 can be configured to the node of the bluetooth Mesh network, the illuminator may be alternatively configured as
The element of 10 nodes formed.Therefore, which can also be considered as the element and component of the illuminator 10, and by
It is integrated in the main body 110 of the illuminator 10.And when the optical sensor 401 be used to detect corresponding 10 position of illuminator
Or the illuminance of the light intensity of the light in space, colour temperature and/or light, so that administrative staff or operator be according to its testing result,
Management or control additional space in (all) illuminators 10 it is luminous when, the optical sensor 401 can be set with it is corresponding
The separation of 10 phase of illuminator.At this point, the optical sensor 401 can be configured to the node of the bluetooth Mesh network.Meanwhile the light passes
(all) illuminators 10 in 401 additional space of sensor can form a grouping and be configured with the same multicast address.
These illuminators 10 for being configured with same multicast address subscribe to the message that the optical sensor 401 generates.For example, the light passes
(all) illuminators 10 in 401 additional space of sensor are configured to receive the light detection result of the optical sensor 401.In other words
Say, (all) illuminators 10 in 401 additional space of optical sensor are assigned to same grouping, and with the optical sensor
401 establish association.Correspondingly, which is bluetooth Mesh optical sensor, or being provided having one can networking bluetooth
Mould group.It is appreciated that the luminous management of the illuminator 10 of the exemplary electrical equipment management system of the present invention, it can be by this
The configuration of illuminator 10 is realized, can also pass through the client by administrative staff or operator according to its testing result
30, luminous management or control to the illuminator 10 are realized.For example, (all) in 401 additional space of optical sensor
Illuminator 10 is configured with the same multicast address, which detects the environment light in additional space,
And will test the illuminator 10 that result is sent in additional space, which is set can be according to the light sensing
The light detection of device 401 is as a result, shining for the adjust automatically illuminator 10: when the intensity of environment light (or natural light) is lower than one
When preset strength value, the illuminator 10 in additional space is opened, when the intensity of environment light (or natural light) is higher than another pre-
If when intensity value, closing the illuminator 10 in additional space.Alternatively, the optical sensor 401 is to the environment in additional space
Light is detected, and be will test result and be sent to client 30, which is set can be according to the optical sensor 401
Light detection is as a result, send a control instruction to the illuminator 10 of same grouping: when the intensity of environment light (or natural light) is low
When a default light value, an open instructions is sent to the illuminator 10 of respective packets, when environment light (or natural light)
When intensity is higher than another default light value, an out code is sent to the illuminator 10 of respective packets.Preferably, when the illumination
Lamps and lanterns 10 be set can according to the light detection of the optical sensor 401 as a result, the adjust automatically illuminator 10 it is luminous when, should
The light-emitting component 1102 back to the illuminator 10 is set in optical sensor 401, to avoid 1102 pairs of light-emitting component detections as far as possible
As a result interference.It is appreciated that the grouping of the illuminator 10 can be according to various modes.The illuminator 10 can be according to locating
Position is grouped.For example, the illuminator 10 in the same area can be divided into a grouping.For example, certain building in or this build
All illuminators 10 for some floor built can be divided into a grouping.Alternatively, the illuminator 10 can be answered according to locating
It is grouped with scene.The illuminator 10 of same application scene can be divided into a grouping.For example, between at work, certain mall
The corridor of some floor, toilet and the indoor illuminator 10 of office can be divided into same grouping.Generally, it will illuminate
When lamps and lanterns 10 access a bluetooth Mesh network or set up bluetooth Mesh network, administrative staff or operator pass through client 30
Illuminator 10 is grouped.After the completion of grouping, administrative staff or operator can further be established by client 30 and be shone
Other nodes of bright lamp tool 10 grouping and the bluetooth Mesh network, such as the association between environmental sensor 40.
It is worth noting that, can also be grouped by way of constructing the subnet of bluetooth Mesh network to electrical equipment.
Generally, it when creating the subnet of bluetooth Mesh network, can first identify in the bluetooth Mesh network, with sensing control function
Node, and configuring at least one node with sensing control function is coordinator.Then, configure the coordinator and with the coordination
Its associated other node of device form a subnet.It is appreciated that the subnet of bluetooth Mesh network may also form one solely
Vertical bluetooth Mesh network.Therefore, correspondingly, in order to realize function control, when creating the subnet of bluetooth Mesh network, need mostly
The node that there is sensing control function.Correspondingly, multiple electrical equipments of the invention (or electrical equipment group) include at least one
A electrical equipment with perception control function, when creating the subnet of bluetooth Mesh network, at least one has perception control
The electrical equipment of function is configured as coordinator (node), to control to adjust multiple equipment associated there, to be formed extremely
Few one has the subnet (or bluetooth Mesh sub-network system) of perception control and linkage function.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The environmental sensor 40 is implemented as temperature sensor 402.The temperature sensor 402 can be used for detecting its position or position
Temperature between emptying.The temperature sensor 402 of the exemplary electrical equipment management system of the present invention can be with corresponding illuminator
10 are integrated together, can also be set and separate and be configured as the bluetooth Mesh network with corresponding 10 phase of illuminator
Node.Therefore, which can also be considered as the element and component of the illuminator 10, and be integrated in the illumination
The main body 110 of lamps and lanterns 10.Meanwhile (all) illuminators 10 in 402 additional space of temperature sensor form a grouping
Be configured with the same multicast address.These illuminators 10 for being configured with same multicast address are subscribed to the temperature and are passed
The message that sensor 402 generates.Correspondingly, (all) illuminators 10 in 402 additional space of temperature sensor and the temperature
Sensor 402 establishes association.The illuminator 10 of respective packets is arranged on the temperature that the temperature sensor 402 detects and is lower than
When one preset temperature value, the illuminator 10 in respective packets is sent according to the temperature sensor 402 (or the client 30)
Corresponding message, be opened and start to illuminate, the temperature that the temperature sensor 402 detects be higher than another preset temperature value
When, the corresponding message that the illuminator 10 in respective packets is sent according to the temperature sensor 402 (or the client 30) is closed
It closes.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The environmental sensor 40 is implemented as humidity sensor 403.The humidity sensor 403 can be used for detecting its position or position
Humidity between emptying.The humidity sensor 403 of the exemplary electrical equipment management system of the present invention can be with corresponding illuminator
10 are integrated together, can also be set and separate and be configured as the bluetooth Mesh network with corresponding 10 phase of illuminator
Node.Therefore, which can also be considered as the element and component of the illuminator 10, and be integrated in the illumination
The main body 110 of lamps and lanterns 10.Meanwhile (all) illuminators 10 in 403 additional space of humidity sensor form a grouping
Be configured with the same multicast address.These illuminators 10 for being configured with same multicast address are subscribed to the humidity and are passed
The message that sensor 403 generates.Correspondingly, (all) illuminators 10 in 403 additional space of humidity sensor and the humidity
Sensor 403 establishes association.The illuminator 10 of respective packets is arranged on the humidity that the humidity sensor 403 detects and is lower than
When one default humidity value, the illuminator 10 in respective packets is sent according to the humidity sensor 402 (or the client 30)
Corresponding message, be opened and start to illuminate, the humidity that the humidity sensor 403 detects be higher than another default humidity value
When, the corresponding message that the illuminator 10 in respective packets is sent according to the humidity sensor 403 (or the client 30) is closed
It closes.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The environmental sensor 40 is implemented as human body sensor 404.The people's body sensor 404 can be used for detecting or incuding human motion
Or human body exists.The people's body sensor 404 of the exemplary electrical equipment management system of the present invention can be with corresponding illuminator 10
It is integrated together, the section for separating and being configured as the bluetooth Mesh network with corresponding 10 phase of illuminator can also be set
Point.Therefore, the people's body sensor 404 can also be considered as the element and component of the illuminator 10, and be integrated in the headlamp
The main body 110 of tool 10.Meanwhile (all) illuminators 10 in 404 additional space of the people's body sensor formed a grouping and
It is configured with the same multicast address.These illuminators 10 for being configured with same multicast address subscribe to human body sensing
The message that device 404 generates.Correspondingly, (all) illuminators 10 in 404 additional space of the people's body sensor and the human body pass
Sensor 404 establishes association.The illuminator 10 of respective packets is arranged on the people's body sensor 404 and detects human body presence or people
When body is mobile, the illuminator 10 in respective packets accordingly disappears according to what the people's body sensor 404 (or the client 30) was sent
Breath, is opened and starts to illuminate, when the humidity that the humidity sensor 403 detects is higher than another default humidity value, corresponding point
The corresponding message that illuminator 10 in group is sent according to the humidity sensor 403 (or the client 30), is closed.
It is noted that the human body sensor 404 is arranged for detecting or incuding human motion or human body exists,
The i.e. described human body sensor 404 includes but is not limited to pyroelectric infrared human body sensor, ultrasonic body sensor, and utilization
Microwave Doppler principle detects human motion, fine motion and/or existing microwave human body sensor, that is to say, that the human body passes
Sensor 404 can be arranged to be selected from pyroelectric infrared human body sensor, ultrasonic body sensor and microwave human body sensor
One of or combinations thereof, the invention is not limited in this regard.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The environmental sensor 40 is implemented as light source controller 405.The light source control of the exemplary electrical equipment management system of the present invention
Device 405 can be integrated together with corresponding illuminator 10, can also be set separated with corresponding 10 phase of illuminator and
It is configured as the node of the bluetooth Mesh network.The light source controller 405 can be arranged for adjusting corresponding illuminator 10
Intensity, colour temperature and/or the illuminance for the light that the light-emitting component 1102 of luminescence component 11 issues.The light source controller 405 can quilt
The node for separating and being configured as the bluetooth Mesh network with corresponding 10 phase of illuminator is set.Meanwhile the light source controller
(all) illuminators 10 in 405 additional spaces form a grouping and are configured with the same multicast address.These quilts
Configuring, there is the illuminator 10 of same multicast address to subscribe to the message that the light source controller 405 generates.Correspondingly, with the light source
Corresponding (all) illuminators 10 of controller 405 are associated with the light source controller 405 foundation.The illuminator 10 of respective packets
When being arranged on message (or the control instruction) for receiving the light source controller 405 sending, luminous group of the illuminator 10 is controlled
The light-emitting component 1102 of part 11 shines.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The illuminator includes 110, power supplys 1101 of a main body and a light-emitting component 1102, and wherein the power supply 1101 is set
In the main body 110, which can be connected by a circuit 1103, such as a conducting wire with power supply 1101 with being powered
It is logical, with when the power supply 1101 is powered to the light-emitting component 1102, which can shine.It is appreciated that this hair
The power supply 1101 of bright illuminator can be battery pack, can be rechargeable battery, such as lithium battery, in some instances it may even be possible to be and external electrical
The electric power adapter etc. that source 1101 is connected.The main body 110 of illuminator of the present invention refers to being somebody's turn to do in addition to illuminator
Structure division except power supply 1101, the light-emitting component 1102 and the circuit 1103, may include the elements such as lamp housing or component.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The illuminator 10 further comprises a voltage detector 1104, and wherein the voltage detector 1104 is set and the headlamp
The power supply 1101 of tool is connected, and to detect the voltage of the power supply 1101 of the illuminator, and generates corresponding voltage detection signal.
Preferably, which can be the voltage of any energy induction power supply 1101, and convert thereof into exportable signal,
The sensor of especially exportable electric signal.It is appreciated that the voltage detector 1104, which can also be configured to other, to be examined
The voltage for surveying the power supply 1101 converts thereof into the voltage check device of exportable signal.The exemplary electrical equipment pipe of the present invention
The voltage detector 1104 of the illuminator 10 of reason system can be integrated together with corresponding illuminator 10, can also be with
The node for separating and being configured as the bluetooth Mesh network with corresponding 10 phase of illuminator is set.Preferably, which examines
Survey device 1104 is set to be integrated together with corresponding illuminator 10, and is configured as the corresponding of the illuminator 10 formation
The element of node, and it is assigned a unicast address.
As shown in Figure 1A to Fig. 7 of attached drawing, according to the illustrative electrical equipment management system of present pre-ferred embodiments
The illuminator 10 further comprises a current detector 1105, and wherein the current detector 1105 is set and the headlamp
The light-emitting component 1102 of tool is connected in series connection, is supplied to the light-emitting component to be able to detect the power supply 1101 of the illuminator
1102 electric current, and generate corresponding current detection signal.Preferably, which can be any energy induced electricity
Source 1101 and converts thereof into exportable signal to the electric current of the light-emitting component 1102, the sensing of especially exportable electric signal
Device.It is appreciated that the current detector 1105 can also be configured to other power supplys 1101 that are able to detect to the light-emitting component
1102 electric current converts thereof into the current detection means of exportable signal.The exemplary electrical equipment management system of the present invention
The current detector 1105 of the illuminator 10 can be integrated together with corresponding illuminator 10, can also be set with
Corresponding 10 phase of illuminator separation and the node for being configured as the bluetooth Mesh network.Preferably, the current detector 1105
It is set and is integrated together with corresponding illuminator 10, and be configured as the member of the respective nodes of the illuminator 10 formation
Element, and it is assigned a unicast address.
As shown in Fig. 2 of attached drawing, according to the illumination of the illustrative electrical equipment management system of present pre-ferred embodiments
The bluetooth mould group (or can networking bluetooth mould group) 12 of lamps and lanterns 10, further comprises a control module 1201 illustratively,
In the control module 1201 be set and can control the light-emitting component 1102 of the illuminator 10 according to a control instruction
It shines.For example, the control module 1201 controls power supply and hair of the power supply 1101 to the light-emitting component 1102 according to control instruction
Light.Be understood that, it is preferable that the control instruction of the control module 1201 may be from other nodes or client 30 transmission come
Message.It is highly preferred that the control module 1201 be set can according to the optical sensor 401, the temperature sensor 402, this is wet
The testing result of degree sensor 403 and/or the people's body sensor 404 controls shining for the illuminator 10.Correspondingly, the control
Module 1201 is set to be sensed with the optical sensor 401, the temperature sensor 402, the humidity sensor 403 and/or the human body
Device 404 can be connected with being powered.
In addition, sensor in electrical equipment herein controls class equipment, it includes optical sensor, human body sensor,
The equipment such as temperature sensor and humidity sensor, it is also possible to be both (equipment) node and coordinator (node).Sensor control
Class equipment is after being added bluetooth mesh network, and after the parameter configuration of client, equipment associated configuration, sensor can basis
The actual value of induction environment carries out controlling to adjust multiple associated electrical equipments, executes and passes through client preset in advance accordingly
Scene;Simultaneously when environment changes again, sensor will carry out condition again according to the actual value sensed automatically and judge, together
Step executes corresponding default scene, control to adjust multiple associated equipment formed it is centered on some sensor or with more
A sensor linkage and cross complaint are the subsystem of core, to reach intelligent control and energy-saving and environment-friendly purpose.And in client
After end is withdrawn from, the equipment and scene that sensor control class equipment is coordinated will continue to execute, to make in entire mesh network
For the use of node coordinator, repeater and terminal device.
As shown in Fig. 2 of attached drawing, according to the illumination of the illustrative electrical equipment management system of present pre-ferred embodiments
The bluetooth mould group (or can networking bluetooth mould group) 12 of lamps and lanterns 10, further comprises a memory module 1202 illustratively,
In the memory module 1202 characteristic information that can store corresponding illuminator is set.The memory module of the bluetooth mould group 12
The characteristic information of 1202 storages may include the various characteristic informations of the illuminator, such as the illustrative electrical equipment pipe of the present invention
The identity recognition number (ID) of the illuminator 10 of reason system, condition code, its position information, history detection data etc..It can
To understand, the memory module of the bluetooth mould group 12 of the illuminator 10 of the illustrative electrical equipment management system of the present invention
1202 can be volatile memory, for example, dynamic RAM (DRAM), is also possible to nonvolatile memory, such as dodge
Deposit (FLASH).
As shown in Fig. 2 of attached drawing, according to the illumination of the illustrative electrical equipment management system of present pre-ferred embodiments
The bluetooth mould group (or can networking bluetooth mould group) 12 of lamps and lanterns 10, further comprises a transmitter 1203 and one illustratively
A receiver 1204, wherein the bluetooth mould group 12 is set can be broadcasted and the equipment (or bluetooth by the transmitter 1203
Mould group 12) associated identifier, and when receiving a networking and inviting and receive the invitation, provide a response.Preferably,
The response that the bluetooth mould group 12 provides includes at least its own identifier.Therefore, which may participate in bluetooth Mesh net
Network networking.In addition, also make the bluetooth mould group 12 when being in a bluetooth Mesh network, have access to the bluetooth Mesh network and
Extend the bluetooth Mesh network.In other words, (or it is blue for the illuminator 10 of the exemplary electrical equipment management system of the present invention
Tooth mould group 12) by its transmitter 1203 transmitting signal, and by the receiver 1204 reception signal, wherein when the receiver
1204 when receiving or sense the Bluetooth signal that another bluetooth mould group 12 issues, and the bluetooth mould group 12 is according to the bluetooth sensed
Signal emits a signal by its transmitter 1203, to match and participate in set up bluetooth with another illuminator 10
Mesh network.
Shown in fig. 5 such as attached drawing is one kind according to the illustrative electrical equipment management system of present pre-ferred embodiments
Structure, wherein the illuminator 10 of exemplary electrical equipment management system of the invention is according to its position, such as locating difference
Office is grouped, and if the illuminator 10 in office 1 is in same grouping, the illuminator 10 in office 2 is divided
In another grouping.The grouping that the illuminator 10 in grouping and office 2 that illuminator 10 in office 1 is formed is formed is logical
The node of two adjacent illuminators of packet space 10 formation is crossed, multiple nodes realize the communication between two groupings.Cause
This, the illuminator 10 in illuminator 10 and office 2 in office 1 can be respectively formed the son of the bluetooth Mesh network
Net by realizing communication between corresponding node between two subnets, and forms the bluetooth Mesh network.Alternatively, in office 1
Illuminator 10 and office 2 in illuminator 10 be respectively connected to the different sub-network of the bluetooth Mesh network, two sons
By realizing communication between corresponding node between net, and form the bluetooth Mesh network.The electrical equipment shown in fig. 5 of attached drawing
The illuminator 10 grouping of management system is suitable for the grouping of the illuminator 10 of the closer adjacent offices of space length.By
In being closer, 10 numbers of illuminator interconnected can be established in Liang Ge office more and are conducive to establish stable
Bluetooth Mesh connection.
As attached drawing it is shown in fig. 6 be according to present pre-ferred embodiments illustrative electrical equipment management system it is another
Kind of structure, wherein the illuminator 10 of exemplary electrical equipment management system of the invention is according to its position, such as it is locating not
It is grouped with office, if the illuminator 10 in office 1 is in same grouping, 10 quilt of illuminator in office 2
Divide in another grouping.The grouping that the illuminator 10 in grouping and office 2 that illuminator 10 in office 1 is formed is formed
The node formed by the adjacent illuminator 10 of two packet spaces, finite number node are realized logical between two groupings
Letter.Therefore, the illuminator 10 in the illuminator 10 and office 2 in office 1 can be respectively formed the bluetooth Mesh network
Subnet, by realizing communication between corresponding node between two subnets, and form the bluetooth Mesh network.Alternatively, office
The illuminator 10 in illuminator 10 and office 2 in room 1 is respectively connected to the different sub-network of the bluetooth Mesh network, and two
By realizing communication between corresponding node between a subnet, and form the bluetooth Mesh network.The electricity consumption shown in fig. 6 of attached drawing
The illuminator 10 grouping of equipment management system is suitable for point of the illuminator 10 of the farther away adjacent offices of space length
Group.Due to less apart from 10 numbers of illuminator interconnected can be established farther out, in Liang Ge office, in order to establish two
Being stably connected between grouping, administrative staff or operator can preset letter between the grouping of the illuminator 10 of Liang Ge office
Number stronger node, and stable bluetooth Mesh connection is established between these nodes.
Shown in Fig. 7 such as attached drawing is two of illustrative electrical equipment management system according to present pre-ferred embodiments
Communication or messaging mode between illuminator 10 (or respective nodes of its formation).As shown in Fig. 7 of attached drawing, work as message
When being sent to a destination node from a message source (or originating end), message can be along all possible relays links or path quilt
Transmission.During message is passed, each relays link via node after forwarding message, forwarding history be buffered, with
When receiving the same message from identical address, it no longer is forwarded to corresponding relay node via the node, to avoid
Message is repeated to forward by same node.Meanwhile after message is received by destination node (or node with destination address), the mesh
Node the identical message that no longer reception is sent by other links is set.In other words, the exemplary electricity consumption of the present invention is set
The message sink for the node that the illuminator 10 of standby management system is formed, which can be set, pays the utmost attention to path in short-term.
As shown in Fig. 7 of attached drawing, according to the illumination of the illustrative electrical equipment management system of present pre-ferred embodiments
Lamps and lanterns 10 form the respective nodes 10 (10A, 10B, 10C ...) of the bluetooth Mesh network, wherein exemplary electricity consumption of the invention is set
The illuminator 10 of standby management system forms at least one access node 10A, so that the client 30 can be saved by the access
Point 10A accesses the bluetooth Mesh network.The client 30 can be connected to access node 10A by radio connection.In addition,
Access node 10A can be used as the ordinary node of the bluetooth Mesh network, participate in the communication of the bluetooth Mesh network.
It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating
And it is not intended to limit the present invention.
The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention is opened up in embodiment
Show and illustrate, under without departing from the principle, embodiments of the present invention can have any deformation or modification.
Claims (24)
1. a kind of bluetooth Mesh network-building method, which is characterized in that include the following steps:
(A) scanning search electrical equipment, wherein each electrical equipment has at least one can networking bluetooth mould group;
(B) distribution is carried out to the electrical equipment scanned, to form a bluetooth Mesh network;
(C) electrical equipment is configured, to form it into a node of the bluetooth Mesh network;With
(D) at least one relay node is configured for each node of the bluetooth Mesh network.
2. bluetooth Mesh network-building method according to claim 1, which is characterized in that the step (D) includes the following steps:
(D1) adjacent node that each node of the bluetooth Mesh network can scan is determined;With
(D2) adjacent node arrived according to each node scan of the bluetooth Mesh network is configured for the bluetooth Mesh network and is relayed
Node, wherein the node for being each configured as the bluetooth Mesh network of relay node can be scanned at least two adjacent segments
Point.
3. bluetooth Mesh network-building method according to claim 1, which is characterized in that further comprise following step:
(E1) it identifies the node in the bluetooth Mesh network with sensing control function, and configures at least one with sensing control
The node of function is coordinator;With
(E2) it configures the coordinator and other nodes associated there forms at least one subnet.
4. bluetooth Mesh network-building method according to claim 2, which is characterized in that further comprise following step:
(F) according to the relay node of the bluetooth Mesh network, the number between any two node of the bluetooth Mesh network is calculated
According to transmission link.
5. a kind of bluetooth Mesh network-building method, which is characterized in that include the following steps:
(A) scanning search electrical equipment, wherein each electrical equipment has at least one can networking bluetooth mould group;
(B) electrical equipment scanned is accessed into a bluetooth Mesh network;
(C) electrical equipment scanned is configured, to form it into a node of the bluetooth Mesh network;With
(D) node formed for each electrical equipment configures at least one relay node.
6. bluetooth Mesh network-building method according to claim 5, which is characterized in that the step (D) includes the following steps:
(D1) adjacent node that the node that each electrical equipment is formed can scan is determined;With
(D2) adjacent node arrived according to the node scan that the electrical equipment is formed, in the node configuration of electrical equipment formation
After node.
7. bluetooth Mesh network-building method according to claim 6, which is characterized in that further comprise following step: (F) root
According to the relay node of the bluetooth Mesh network, the data chain between any two node of electrical equipment formation is calculated
Road.
8. bluetooth Mesh network-building method according to claim 6, which is characterized in that further comprise following step:
(G) adjacent node arrived according to the node scan that the electrical equipment is formed, it is determined whether configure electrical equipment formation
Node is the relay node of the bluetooth Mesh network.
9. bluetooth Mesh network-building method according to claim 5, which is characterized in that further comprise following step:
(E1) it identifies the node in the bluetooth Mesh network with sensing control function, and configures at least one with sensing control
The node of function is coordinator;With
(E2) it configures the coordinator and other nodes associated there forms at least one subnet.
10. a kind of electrical equipment, which is characterized in that there is at least one bluetooth mould group, wherein be set can for the bluetooth mould group
Participate in a bluetooth Mesh network communication.
11. electrical equipment according to claim 10, which is characterized in that the bluetooth mould group is further arranged with can be by
Configure and formed a node of the bluetooth Mesh network.
12. electrical equipment according to claim 11, which is characterized in that when the node of bluetooth mould group formation and another
When the node that electrical equipment is formed is in same group, the node that wherein the bluetooth mould group is formed can be configured and another
The node multicast address having the same that electrical equipment is formed.
13. electrical equipment according to claim 11, which is characterized in that the node that the bluetooth mould group is formed is configured can
When receiving a message, one is sent to the message source of the message and corresponding with the message is responded.
14. electrical equipment according to claim 11, which is characterized in that the bluetooth mould group formed node be set with
When two or more adjacent nodes are arrived in its scanning, it is configured as a relay node of the bluetooth Mesh network.
15. electrical equipment according to claim 11, which is characterized in that the node that the bluetooth mould group is formed is set can
When receiving a message, a reception history is generated, and the node that the bluetooth mould group is formed is set and can connect according to this
History is received, stops receiving subsequent identical message.
16. electrical equipment according to claim 11, which is characterized in that when the node that the bluetooth mould group is formed is arranged to
When the relay node of the bluetooth Mesh network, the node which forms can receive message, to all bluetooth mould groups
The relay node of the node of formation forwards the message.
17. electrical equipment according to claim 11, which is characterized in that when the node that the bluetooth mould group is formed is arranged to
When the relay node of the bluetooth Mesh network, the node which forms can receive message, and be carried according to the message
Destination address, selectively forward the message to the relay node of node that all bluetooth mould groups are formed.
18. a kind of electrical equipment management system characterized by comprising
(A) one group of electrical equipment, wherein each electrical equipment has at least one bluetooth mould group, wherein the bluetooth mould group is set
A bluetooth Mesh network communication can be participated in, wherein the electrical equipment group includes at least one use with sensing control function
Electric equipment, and at least one of the electrical equipment group with the electrical equipment of sensing control be configured to control it is multiple and its
The coordinator of associated electrical equipment, wherein forming electrical equipment and use that is associated with it and being controlled by of coordinator
Electric equipment is capable of forming at least one subnet.
19. electrical equipment management system according to claim 18, which is characterized in that further comprise one or more visitors
Family end is configured wherein the configuration information that can be provided according to the client is set in the bluetooth mould group of each electrical equipment
With the node for forming the bluetooth Mesh network.
20. electrical equipment management system according to claim 18, which is characterized in that the bluetooth mould group of the electrical equipment
The node of formation is set to be configured as one of the bluetooth Mesh network when two or more adjacent nodes are arrived in its scanning
Relay node.
21. electrical equipment management system according to claim 18, which is characterized in that the bluetooth mould group of the electrical equipment
The node of formation, which is set, to generate a reception history, and the section that the bluetooth mould group is formed when receiving a message
Point, which is set, to be stopped receiving subsequent identical message according to the reception history.
22. electrical equipment management system according to claim 18, which is characterized in that when the bluetooth mould of the electrical equipment
When the node that group is formed is arranged to the relay node of the bluetooth Mesh network, the node which forms, which can receive, to disappear
The relay node of breath, and the destination address carried according to the message, the node selectively formed to all bluetooth mould groups turns
Send out the message.
23. electrical equipment management system according to claim 18, which is characterized in that the client is to have bluetooth mould group
The equipment with visual operation interface such as mobile phone, tablet computer, facilitate user that device parameter is visually set and is matched
It sets;This client also can be used as a controller simultaneously, carry out adjusting control in real time to whole network;And when client is withdrawn from
After mesh network, original setting is still effectively run with networking.
24. electrical equipment management system according to claim 18, which is characterized in that the band sensing control in electrical equipment
Class equipment can be used as device node comprising equipment such as optical sensor, human body sensor, temperature sensor and humidity sensors
It can be used as coordinator node again, wherein sensing control class equipment passes through the parameter of client after bluetooth mesh network is added
After configuration, equipment associated configuration, sensor can carry out controlling to adjust multiple associated use according to the actual value of induction environment
Electric equipment executes the scene for passing through client preset in advance accordingly;Simultaneously when environment changes again, sensor is automatically by root
Condition again is carried out according to the actual value that senses to judge, it is synchronous to execute corresponding default scene, control to adjust multiple associated set
It is standby formed it is centered on some sensor or using the linkage of multiple sensors and cross complaint as the subsystem of core, to reach
Intelligent control and energy-saving and environment-friendly purpose.
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