CN208241960U - A kind of Internet of Things lamps and lanterns and lighting system - Google Patents
A kind of Internet of Things lamps and lanterns and lighting system Download PDFInfo
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- CN208241960U CN208241960U CN201820909991.9U CN201820909991U CN208241960U CN 208241960 U CN208241960 U CN 208241960U CN 201820909991 U CN201820909991 U CN 201820909991U CN 208241960 U CN208241960 U CN 208241960U
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- 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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Abstract
The utility model belongs to lighting technical field, disclose a kind of Internet of Things lamps and lanterns and lighting system, Internet of Things lamps and lanterns include shell, illuminator, driver, processor, communication unit and the sensor for detecting surrounding environment change are installed in shell, illuminator is electrical connected with driver, and processor is electrically connected with driver, communication unit and sensor respectively.Lighting system includes multiple above-mentioned Internet of Things lamps and lanterns, the communication unit communication connection networked with one another between multiple Internet of Things lamps and lanterns.Multiple Internet of Things lamps and lanterns in consolidated network can mutually be pressed scheduled control strategy corrdinated adjustment light emission luminance by the lighting system of the utility model, expand illumination zone, meet all kinds of application demands to the random concurrent combination lighting of Distributed Multi;When environmental change state disappears, Internet of Things lamps and lanterns can automatically control the lower luminance state returned to original state or OFF state, to achieve the effect that " energy conservation drop expense ".
Description
Technical field
The utility model belongs to lighting technical field, and in particular to a kind of Internet of Things lamps and lanterns and lighting system.
Background technique
In face of global energy crisis, the theory for advocating " energy conservation and environmental protection, green illumination " energetically has become the common recognition of the whole society,
And become the direction that technological innovation is made great efforts.
Public illumination under dark surrounds is the indispensable important need of modern society, and more answer of consuming energy
With practical the case where there is also a large amount of useless illuminations, such as: underground parking passes in and out illumination, the highway tunnel of period in unmanned vehicle
Road in no vehicle by the illumination of period, highway lamp in the illumination of period late night to morning situations such as.These useless illuminations not only waste
Mass energy, and will directly increase the maintenance costs such as a large amount of manpower and material resources.
Currently on the market existing band it is infrared/acoustic control/microwave/optoelectronic induction control mode single LED lamp product, it is main suitable
Lighting demand of the Ying Yu in the case where the zonules such as people's walking corridor are moved slowly at for human body, because this list lamp can only be single
Small-scale induction control illumination, cannot network and automatically control the collaboration illumination of more lamps, so cannot be completely adapted to stopping
The lighting demand for the case where larger ranges such as the elongated lane in parking lot are fast moved for vehicle.
Currently on the market in order to meet more lamp combination lighting demands, one network of outer installation on each single lamp is mostly taken
The method of controller, and in the application of more lamps illumination, it also needs to increase multistage network trunk/Centralized Controller and server
Etc. equipment, increased multiple network equipment not only make the networking cost of combination lighting system and operation expense increase
Add, and greatly reduce the stability and reliability of the network operation since network architecture is complicated.
Drawbacks described above is that those skilled in the art's expectation overcomes.However there is no find in response to this problem in the prior art
Suitable solution.
Utility model content
In order to solve the above problems existing in the present technology, the utility model first is designed to provide a kind of high integration
Internet of Things meshwork lamp.
In order to realize technical solution used by the first purpose are as follows:
A kind of Internet of Things lamps and lanterns, including shell, be equipped in shell illuminator, driver, processor, communication unit and
For detecting the sensor of surrounding environment change, illuminator is electrical connected with driver, and processor is single with driver, communication respectively
Member and sensor are electrically connected.
It preferably, including include at least one end cap made of nonmetallic materials in shell, inner space is for pacifying
Fill driver, sensor, communication unit and processor.
Preferably, the processor includes the input/output interface and memory being electrically connected, input/output interface point
It is not electrically connected with driver, communication unit and sensor.
Preferably, the processor includes the Initialize installation function electricity for carrying out init state reset to processor
Road.
Preferably, the driver includes:
Input power mapping function circuit, for mains ac power supply to be transformed into the power supply for being suitble to driving illuminator;
Power output control function circuit, the dimming control signal for being exported according to processor adjust the function to illuminator
Rate output;
Power output delay function circuit is used for after processor exports dimming control signal, when according to the delay of setting
Between maintain driver to illuminator power output.
Preferably, the communication unit is wireless communication unit.
Preferably, the sensor is in infrared sensor, sonic sensor, microwave remote sensor and photoelectric sensor
One or more combinations.
Preferably, the shell includes even smooth lampshade, in the first end cover and/or second end cover of even smooth lampshade end side
Input electrode is installed.
The utility model second is designed to provide a kind of lighting system based on above-mentioned Internet of Things meshwork lamp.
In order to realize technical solution used by the second purpose are as follows:
A kind of lighting system, including multiple above-mentioned Internet of Things lamps and lanterns, between the communication unit on multiple Internet of Things lamps and lanterns
Communication connection networked with one another.
Preferably, the communication unit of at least one Internet of Things lamps and lanterns in the lighting system and controlling terminal communication connect
It connects.
The utility model has the following beneficial effects:
1, Internet of Things lamps and lanterns provided by the utility model, by using the lamp housing for meeting existing international standard and domestic standard
Structure design, so that all very simples and conveniently when installing and replacing traditional old lamp;By using self-test control circuit and
Ad hoc network shape fidonetFido makes Internet of Things lamps and lanterns have self-test identification lamp body ambient conditions variation, and according to ambient condition
Variation dynamically automatically controls the light emission luminance of adjustment Internet of Things lamps and lanterns itself.
2, lighting system provided by the utility model is by group wireless network mode certainly, by multiple Internet of Things in consolidated network
Meshwork lamp tool mutually presses scheduled control strategy corrdinated adjustment light emission luminance, expands illumination zone, meets all kinds of to Distributed Multi
The application demand of random concurrent combination lighting;When environmental change state disappears, Internet of Things lamps and lanterns can automatically control extensive
The lower luminance state or OFF state of original state are arrived, again to reach the beneficial effect of " energy conservation drop expense ".By using autonomous
Multihop routing protocol mode also eliminates installation relaying/peripheral equipments such as Centralized Controller and server, reduces system cost,
And the risk for causing network routing due to interruption network integrally to be paralysed because of individual lamp failures in existing network is avoided, so that whole
The combination lighting network control lamp system operational reliability and maintainability of body are more preferable.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model Internet of Things lamps and lanterns.
Fig. 2 is the structural schematic diagram of the utility model shell.
Fig. 3 is the circuit diagram of the utility model Internet of Things lamps and lanterns.
Fig. 4 is the control application schematic diagram of the utility model lighting system.
Fig. 5 is the delays time to control application schematic diagram of the utility model lighting system.
In figure: 1- shell;11- input electrode;12- first end cover;The even smooth lampshade of 13-;14- second end cover;2- illuminator;
3- driver;31- input power mapping function circuit;32- power output control function circuit;33- power output delay function
Circuit;4- sensor;41- ambient condition inductive pick-up functional circuit;42- environmental condition change Electric signal processing function electricity
Road;5- communication unit;51- transmitting antenna and transmit/receive functional circuit;The storage of 52- network communication protocol and control function circuit;6-
Processor;61- input/output interface;62- memory;63- Initialize installation functional circuit;7- sensor detection range;8- is mono-
The illumination zone of a Internet of Things lamps and lanterns;9- controlling terminal.
Specific embodiment
With reference to the accompanying drawing and specific embodiment is further elaborated the utility model.
As shown in Figure 1 to Figure 3, a kind of Internet of Things lamps and lanterns of the present embodiment, including shell 1 are equipped with illuminator in shell 1
2, driver 3, processor 6, communication unit 5 and sensor 4, illuminator 2 are electrical connected with driver 3, processor 6 respectively with drive
Dynamic device 3, communication unit 5 and sensor 4 are electrically connected.
It include at least one end cap made of nonmetallic materials in shell 1, it should the end cap made of nonmetallic materials
Inner space is used for installation of driver 3, sensor 4, communication unit 5 and processor 6.Compared to traditional additional controller mode
Lamps and lanterns, the Internet of Things lamps and lanterns integrated level is higher.
Sensor 4 is always in the variation for uninterruptedly periodically scanning for detection ambient enviroment, when sensor 4 is recycled at one
When detecting environmental condition change in the cycle detection time, triggering processor 6 sends the control for increasing output power to driver 3
Signal, the driver 3 connecting with processor 6 are increased from the small-power output valve or zero power energy output valve of original state to high-power
Output valve, the delay of driver 3 maintain high-power output valve, increase the illuminator 2 connecting with driver 3 by light emission luminance, provide
Illumination.
When sensor 4 detects environmental condition change in a cycle period detection time, 6 basis of processor is also triggered
The pre-stored control strategy instruction for requesting the collaboration of other Internet of Things lamps and lanterns to dim, will request other by communication unit 5
The control strategy command signal of Internet of Things lamps and lanterns collaboration light modulation is sent out.
When communication unit 5 receives the control signal for the requesting cooperative light modulation sent by other Internet of Things lamps and lanterns, at triggering
Reason device 6 sends to driver 3 and increases the control signal of output power, and the driver 3 connecting with processor 6 is from the small of original state
Power output value or zero power energy output valve increase high-power output valve, and the delay of driver 3 maintains high-power output valve, makes and drive
The illuminator 2 that dynamic device 3 connects increases light emission luminance, provides illumination.
Sensor 4 does not detect environmental condition change in a cycle period detection time, and communication is single at the same time
Member 5 is also not received by the control signal for the requesting cooperative light modulation sent by other Internet of Things lamps and lanterns, would not trigger processor
6, driver 3 downgrades the small-power output valve or zero power of output power to original state after the delay time of setting automatically
Rate output valve makes the illuminator 2 connecting with driver 3 reduce light emission luminance.
The Internet of Things lamps and lanterns are in the independent monomer lamp that configuration aspects are a complete non-disconnectable integrated de structures.It is felt
Environmental condition change, light modulation and networking Collaborative Control function should be detected completely to be realized by its bulk properties circuit completely, with difference
In combining the network control lamp technology built and the components such as the network controller that is installed on lamp bracket outside.
Specifically, processor 6 includes input/output interface 61, memory 62 and Initialize installation functional circuit 63, it is defeated
Enter/output interface 61 respectively with memory 62 and Initialize installation functional circuit 63, driver 3, communication unit 5 and sensor 4
It is electrically connected.Memory 62 is for the pre-stored control strategy instruction for requesting the collaboration light modulation of other Internet of Things lamps and lanterns.Processor 6 wraps
Include the Initialize installation functional circuit 63 for carrying out init state reset to processor 6.
Driver 3 includes that input power mapping function circuit 31, power output control function circuit 32 and power output are prolonged
When functional circuit 33.
Input power mapping function circuit 31 is used to for mains ac power supply to be transformed into the power supply for being suitble to driving illuminator 2.
The dimming control signal that power output control function circuit 32 is used to be exported according to processor 6 is adjusted to illuminator 2
Power output;It should be noted that being directed to the illuminator 2 of different performance, the output side of power output control function circuit 32
Formula can be not limited to use constant current output mode or constant voltage output mode.The above various power output modes respectively have feature, specifically
It, can be in such a way that flexible choice be suitble to when implementation.In the present embodiment, illuminator 2 is light emitting diode, it is preferable that using permanent
Flow the way of output.
Power output delay function circuit 33 is used for after processor 6 exports dimming control signal, according to the delay of setting
Time maintains driver 3 to 2 power output of illuminator.After delays time to control acts on, driver 3 downgrades output power extremely automatically
The small-power output valve or zero energy output valve of original state make the illuminator 2 connecting with driver 3 reduce light emission luminance.
It should be noted that the implementation of power output delay function circuit 33 uses hardware circuit in the present embodiment
Software circuit mode can also be used in practical applications to realize in mode.
Communication unit 5 is wireless communication unit, and communication unit 5 is including transmitting antenna and transmits/receives functional circuit 51 and network
Communications protocol storage and control function circuit 52.
Transmitting antenna and transmit/receive functional circuit 51 for sends request other Internet of Things lamps and lanterns collaboration dim control signal
The control signal for requesting the Internet of Things lamps and lanterns collaboration light modulation is sent by other Internet of Things lamps and lanterns with receiving.
Network communication protocol storage and control function circuit 52 are for handling from group combined network communication agreement and/or processing and its
His internet network communication protocol.
It should be noted that the communications protocol that Zigbee network agreement executes networking can be used in communication unit 5, so that Internet of Things
Meshwork lamp tool can simplify network structure with the netted net mode ad-hoc network of Mesh.
Sensor 4 includes ambient condition inductive pick-up functional circuit 41 and environmental condition change Electric signal processing function electricity
Road 42.Ambient condition inductive pick-up functional circuit 41 is used to the physical quantity of environmental condition change being changed into electric signal amount.Ring
Border state change Electric signal processing functional circuit 42 is used for environmental condition change converting electrical signal into standard output electric signal, and
It is sent to processor 6.
It should be noted that for the standard output electric signal after environmental condition change converting electrical signal to can be voltage
Signal is also possible to current signal.
It should be noted that the sensor for detecting environmental condition change can sense for infrared sensor, sound wave
Device, microwave remote sensor or photoelectric sensor.The above various types sensor respectively has feature, for different application scenarios, specifically
When implementation, the combination using multiple sensors can also can choose in a manner of the single-sensor that flexible choice is suitble to.
The contour structures lamp housing design for meeting international standard and domestic standard can be used in lamp housing unit 1, such as: standard T series
Fluorescent lamp, each serial ceiling lamp and bulb lamp lamp housing etc..Nonstandard form construction design can also be taken according to the needs of application
Lamp housing.
Fig. 2 show the present embodiment and takes T series fluorescent lamp shape Internet of Things lamp shell structural schematic diagram, and shell 1 includes
Even smooth lampshade 13, first end cover 12 and second end cover 14 set on even smooth 13 liang of end sides of lampshade, and it is mounted on first end cover 12
And/or the input electrode 11 in second end cover 14.
The packet of shell 1 is also designed to various serial ceiling lamps and bulb lamp lamp housing etc..
Sensor 4 is always in the variation for uninterruptedly periodically scanning for detection ambient enviroment, and sensor 4 is in a circulating cycle
When detecting environmental condition change in phase detection time, ambient condition inductive pick-up functional circuit 41 is by environmental condition change
Physical quantity is such as: vehicle or human motion variation, amount of sound variation, infrared heat variation are changed into electric signal amount and export to environment
State change Electric signal processing functional circuit 42, environmental condition change Electric signal processing functional circuit 42 are electric by environmental condition change
Signal is transformed into standard output electric signal, and triggers processor 6 and send the control signal for increasing output power to driver 3, with
The driver 3 that processor 6 connects is increased from the small-power output valve or zero power energy output valve of original state to high-power output valve,
The delay of driver 3 maintains high-power output valve, increases the illuminator 2 connecting with driver 3 by light emission luminance, provides illumination.
When sensor 4 detects environmental condition change in a cycle period detection time, 6 basis of processor is also triggered
The pre-stored control strategy instruction for requesting the collaboration of other Internet of Things lamps and lanterns to dim, passes through the transmitting day in communication unit 5
Line and transmit/receive functional circuit 51 will request other Internet of Things lamps and lanterns collaboration light modulation control strategy command signal be sent out.
It transmitting antenna in communication unit 5 and transmits/receives functional circuit 51 and receives and asked by what other Internet of Things lamps and lanterns were sent
When the control signal for asking collaboration to dim, triggering processor 6 sends the control signal for increasing output power to driver 3, with processing
The driver 3 that device 6 connects is increased from the small-power output valve or zero power energy output valve of original state to high-power output valve, driving
The delay of device 3 maintains high-power output valve, increases the illuminator 2 connecting with driver 3 by light emission luminance, provides illumination.
Sensor 4 does not detect environmental condition change in a cycle period detection time, and communication is single at the same time
Member 5 is also not received by the control signal for the requesting cooperative light modulation sent by other Internet of Things lamps and lanterns, would not trigger processor
6, driver 3 downgrades the small-power output valve or zero power of output power to original state after the delay time of setting automatically
Rate output valve makes the illuminator 2 connecting with driver 3 reduce light emission luminance.
It is illustrated in figure 3 the circuit diagram of the present embodiment Internet of Things lamps and lanterns, wherein sensor uses US32-16CT/R ultrasonic wave
Sensor, processor use dmx512 controller, and communication unit uses auspicious sea zigbee module rex3s, and driver is farsighted using stepping
Model MLC18C-P driver.
It should be noted that listed chip and circuit is all one embodiment, it is only intended to illustrate the utility model reality
Existing function is not the circuit and whole that protection is specified required by patent.
As shown in Figures 1 to 5, the present embodiment also provides a kind of lighting system, including above-mentioned Internet of Things lamps and lanterns, multiple objects
Communication connection networked with one another between the communication unit 5 networked on lamps and lanterns.At least one Internet of Things lamps and lanterns in lighting system it is logical
Interrogate unit 5 and 9 communication connection of controlling terminal.
The pre-stored control strategy instruction for requesting the collaboration light modulation of other Internet of Things lamps and lanterns of the memory 62 of processor 6 are as follows:
P=f (N+X), 0 < P≤M, in which:
P is the Internet of Things lamps and lanterns number numerical value for receiving requesting cooperative dimming commands;
N is the Internet of Things lamps and lanterns number numerical value for issuing requesting cooperative dimming commands, the M of N=1,2,3 ...;
M is maximum Internet of Things lamps and lanterns number numerical value in consolidated network;
X is to cooperate with dimming commands with reception relative to the N Internet of Things lamps and lanterns number for issuing requesting cooperative dimming commands
Lamp number interval numerical value between Internet of Things lamps and lanterns number, X=1,2,3 ... or -1, -2, -3 ... etc.;
The Internet of Things lamps and lanterns number value P that P=f (N+X) indicates to receive collaboration light modulation is the letter for changing with X value and changing
Number;That is: when N Internet of Things lamps and lanterns are triggered, and brightness is turned up, N Internet of Things lamps and lanterns by simultaneously be No. P=N+X to number object
Lamps and lanterns of networking issue the instruction of requesting cooperative light modulation;
Sensor 4 in Internet of Things lamps and lanterns is infrared sensor, sonic sensor, microwave remote sensor and photoelectric sensor
One of or a variety of combinations.
Fig. 4 show the control application schematic diagram of lighting system, wherein 7 be sensor detection range, 8 be single Internet of Things
The illumination zone of lamps and lanterns.When trolley drives in the sensor detection range of N Internet of Things lamps and lanterns, N Internet of Things lamps and lanterns
Ambient condition inductive pick-up functional circuit 41 in sensor 4 detects the mobile environmental condition change of vehicle, passes through environment
State change Electric signal processing functional circuit 42 issues the control signal of request light modulation to processor 6, triggers processor 6 to driving
Device 3 sends the control signal for increasing output power, and driver 3 increases the power output to illuminator 2, makes N Internet of Things lamps and lanterns
Increase light emission luminance.
The sensor 4 of N Internet of Things lamps and lanterns detects the mobile environmental condition change of vehicle, issues and requests to processor 6
While the control signal of light modulation, processor 6 is asked also according to what is be pre-stored in the memory 62 of N Internet of Things lamps and lanterns processor 6
The control strategy instruction of other Internet of Things lamps and lanterns collaboration light modulation is asked to be combined Lighting control to other Internet of Things lamps and lanterns.
In control strategy instruction P=f (N+X) in the present embodiment, X=1,2 are selected, it may be assumed that when N Internet of Things lamps and lanterns are touched
When light emission luminance is turned up in hair, N Internet of Things lamps and lanterns will also be by communication unit 5 simultaneously to N+1 Internet of Things lamps and lanterns and N+2 object
Lamps and lanterns of networking issue the control signal of requesting cooperative light modulation.
Further, it the transmitting antenna in N+1 Internet of Things lamps and lanterns and transmits/receives functional circuit 51 and receives from No. N
When the control signal of the requesting cooperative light modulation of Internet of Things lamps and lanterns, the processor 6 in N+1 Internet of Things lamps and lanterns is triggered to driver 3
The control signal for increasing output power is sent, N+1 Internet of Things lamps and lanterns are made while N Internet of Things lamps and lanterns being cooperateed with to increase together is luminous
Brightness increases the illumination zone in lane.
Further, it the transmitting antenna in N+2 Internet of Things lamps and lanterns and transmits/receives functional circuit 51 and receives from No. N
When the control signal of the requesting cooperative light modulation of Internet of Things lamps and lanterns, the processor 6 in N+2 Internet of Things lamps and lanterns is triggered to driver 3
The control signal for increasing output power is sent, N+2 Internet of Things lamps and lanterns are made while N Internet of Things lamps and lanterns being cooperateed with to increase together is luminous
Brightness further increases the illumination zone in lane.
It should be noted that control strategy instruction selection X=1,2, it may be assumed that increase brightness when N Internet of Things lamps and lanterns are triggered
When, N Internet of Things lamps and lanterns will also be simultaneously emitted by the control signal of request N+1 and N+2 Internet of Things lamps and lanterns collaboration light modulation, and reality exists
Being can be realized in Internet of Things fixtures network in parking lot in number is that will have at N Internet of Things lamps and lanterns by incremental order direction
Three Internet of Things lamps and lanterns automatically increase light emission luminance simultaneously, provide synergistic combination illumination for trolley.
Since the sensor 4 in N+3 Internet of Things lamps and lanterns does not detect environment in a cycle period detection time
State change, the communication unit 5 in N+3 Internet of Things lamps and lanterns is also not received by the same time is sent by N Internet of Things lamps and lanterns
Requesting cooperative light modulation control signal, the sensor 4 in N+3 Internet of Things lamps and lanterns would not trigger its internal processor 6,
Its driver 3 maintains the small-power output valve or zero energy output valve of original state, protects the illuminator 2 connecting with driver 3
It holds in initial glimmer or OFF state, realizes automatic Collaborative Control, save the purpose of electric energy.
Same principle, if control strategy instruction selection X=1,2,3,4, it may be assumed that increased when N Internet of Things lamps and lanterns are triggered
When brightness, N Internet of Things lamps and lanterns will also be simultaneously emitted by request N+1 Internet of Things lamps and lanterns, N+2 Internet of Things lamps and lanterns, N+3 Internet of Things
The control signal that meshwork lamp tool, the collaboration of N+4 Internet of Things lamps and lanterns dim, reality can be real in Internet of Things fixtures network in parking lot
Number is that will be had five Internet of Things lamps and lanterns by incremental order direction at N Internet of Things lamps and lanterns while automatically be increased and sent out now
Brightness provides the effect of synergistic combination illumination for trolley;The Internet of Things lamps and lanterns that N+5 Internet of Things lamps and lanterns or more are numbered are all only
Initial glimmer or OFF state can be maintained at.
For the illumination zone and brightness of illumination demand of each Internet of Things lamp installation position, by pre-seting memory
What is stored in 62 requests the control strategy instruction of other Internet of Things lamps and lanterns collaboration light modulation, so that it may realize that more lamps cooperate with illumination automatically
Control effect, not only met the needs of field lighting brightness and range, but also achieve the effect that energy-efficient.
It should be noted that the control strategy instruction algorithm described in the above-described embodiments is not whole implementation
Example, does not constitute any restrictions to the other embodiments of the present embodiment yet.
The control strategy instruction for requesting the collaboration of other Internet of Things lamps and lanterns to dim stored in memory 62 can pass through
With carrying out near field or remotely radio operation downloading and modification are arranged for communication unit 5 and a controlling terminal 9.
It should be noted that the controlling terminal 9 for operating downloading and modification setting control strategy instruction can be one
Remote service platform, is also possible to the laptop with wireless communication function or a mobile phone or one hand-held mobile special
Use terminal.Its mode of operation can be to be operated in Internet of Things lamp installation scene near radio mode;It can also pass through
The remote mode of the wireless networks such as WIFI, GPRS operates.
Fig. 5 show the delays time to control application schematic diagram of lighting system, when trolley is from N Internet of Things lamps and lanterns, by No. N+1
Internet of Things lamps and lanterns, when driving to always in the sensor detection range of N+2 Internet of Things lamps and lanterns, by identical in above-mentioned control application
Pre-set request other Internet of Things lamps and lanterns collaboration light modulation control strategy instruction such as: X=1,2, N+2 Internet of Things lamps and lanterns are touched
While from dynamic lighten, N+3 Internet of Things lamps and lanterns and N+4 Internet of Things lamps and lanterns are also requested collaboration and lighten;Although small at this time
Vehicle has had left the sensor detection range of the respective sensor 4 of N Internet of Things lamps and lanterns and N+1 Internet of Things lamps and lanterns, but by
It is shorter in the time that trolley leaves the sensor detection range of the sensor 4 in N+1 Internet of Things lamps and lanterns, N+1 Internet of Things meshwork lamp
Power output delay function circuit 33 in tool continues to its inner drive 3 to illuminator 2 according to the delay time of setting
The power output of progress increases effect and N+1 Internet of Things lamps and lanterns is made to continue a period of time that shines.
Since the time that trolley leaves the sensor detection range of the sensor 4 in N Internet of Things lamps and lanterns is longer, have exceeded
Drive after delay time value set by the power output delay function circuit 33 of N Internet of Things lamps and lanterns, in N Internet of Things lamps and lanterns
Dynamic device 3 is returned to the small-power value or zero energy value of original state to the power output adjustment that illuminator 2 carries out, and makes N Internet of Things
Meshwork lamp tool light adjustment returns back to initial glimmer or closes state of going out, to meet energy-efficient needs.
Since the sensor 4 in N+5 Internet of Things lamps and lanterns does not detect environment in a cycle period detection time
State change, the communication unit 5 in N+5 Internet of Things lamps and lanterns is also not received by the same time is sent out by N+2 Internet of Things lamps and lanterns
The control signal of the requesting cooperative light modulation come, the sensor 4 in N+5 Internet of Things lamps and lanterns would not trigger its internal processor
6, driver 3 maintains the small-power output valve or zero energy output valve of original state, makes the illuminator 2 connecting with driver 3
It is maintained at initial glimmer or OFF state, saves the purpose of electric energy.
The utility model is not limited to above-mentioned optional embodiment, anyone can obtain under the enlightenment of the utility model
Other various forms of products, however, making any variation in its shape or structure, all the utility model rights that falls into are wanted
The technical solution in confining spectrum is sought, is all fallen within the protection scope of the utility model.
Claims (10)
1. a kind of Internet of Things lamps and lanterns, it is characterised in that: including shell (1), be equipped with illuminator (2), driver in shell (1)
(3), processor (6), communication unit (5) and the sensor (4) for detecting surrounding environment change, illuminator (2) and driving
Device (3) is electrical connected, and processor (6) is electrically connected with driver (3), communication unit (5) and sensor (4) respectively.
2. Internet of Things lamps and lanterns according to claim 1, it is characterised in that: including including at least one in shell (1) by non-
End cap made of metal material, inner space is for installation of driver (3), sensor (4), communication unit (5) and processor
(6)。
3. Internet of Things lamps and lanterns according to claim 1, it is characterised in that: the processor (6) includes the defeated of electric connection
Enter/output interface (61) and memory (62), input/output interface (61) respectively with driver (3), communication unit (5) and pass
Sensor (4) is electrically connected.
4. Internet of Things lamps and lanterns according to claim 1 to 3, it is characterised in that: the processor (6) include for pair
The Initialize installation functional circuit (63) of processor (6) progress init state reset.
5. Internet of Things lamps and lanterns according to claim 1 or 2, it is characterised in that: the driver (3) includes:
Input power mapping function circuit (31), for mains ac power supply to be transformed into the power supply for being suitble to driving illuminator (2);
Power output control function circuit (32), the dimming control signal for being exported according to processor (6) are adjusted to illuminator
(2) power output;
Power output delay function circuit (33) is used for after processor (6) export dimming control signal, according to the delay of setting
Time maintains driver (3) to illuminator (2) power output.
6. Internet of Things lamps and lanterns according to claim 1 or 2, it is characterised in that: the communication unit (5) is wireless telecommunications list
Member.
7. Internet of Things lamps and lanterns according to claim 1 or 2, it is characterised in that: the sensor (4) is infrared ray sensing
One of device, sonic sensor, microwave remote sensor and photoelectric sensor or a variety of combinations.
8. Internet of Things lamps and lanterns according to claim 1 or 2, it is characterised in that: the shell (1) includes even smooth lampshade
(13), input electrode (11) are installed in the first end cover (12) and/or second end cover (14) of even smooth lampshade (13) end side.
9. a kind of lighting system, it is characterised in that: multiple including multiple Internet of Things lamps and lanterns a method as claimed in any one of claims 1-8
Communication connection networked with one another between communication unit (5) on Internet of Things lamps and lanterns.
10. lighting system according to claim 9, it is characterised in that: at least one Internet of Things in the lighting system
The communication unit (5) and controlling terminal (9) communication connection of lamps and lanterns.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820909991.9U CN208241960U (en) | 2018-06-12 | 2018-06-12 | A kind of Internet of Things lamps and lanterns and lighting system |
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CN201820909991.9U CN208241960U (en) | 2018-06-12 | 2018-06-12 | A kind of Internet of Things lamps and lanterns and lighting system |
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CN208241960U true CN208241960U (en) | 2018-12-14 |
Family
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114364089A (en) * | 2020-09-29 | 2022-04-15 | 中国移动通信集团设计院有限公司 | Internet of things LED integrated lamp capable of providing 5G signals |
CN114554667A (en) * | 2022-01-26 | 2022-05-27 | 深圳拓邦股份有限公司 | Group control method for lighting lamps |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114364089A (en) * | 2020-09-29 | 2022-04-15 | 中国移动通信集团设计院有限公司 | Internet of things LED integrated lamp capable of providing 5G signals |
CN114364089B (en) * | 2020-09-29 | 2023-09-19 | 中国移动通信集团设计院有限公司 | Internet of things LED integrated lamp for providing 5G signals |
CN114554667A (en) * | 2022-01-26 | 2022-05-27 | 深圳拓邦股份有限公司 | Group control method for lighting lamps |
CN114554667B (en) * | 2022-01-26 | 2024-03-29 | 深圳拓邦股份有限公司 | Grouping control method for lighting lamps |
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