CN105792484A - Wireless self-networking variable-power intelligent illuminating equipment based on Internet-of-things - Google Patents

Abstract

The invention provides wireless self-networking variable-power intelligent illuminating equipment based on Internet-of-things. The operation method of the wireless self-networking variable-power intelligent illuminating equipment comprises the steps of converting AC power to DC power by an AC/DC conversion unit; detecting traffic flow data by a traffic flow sensor; analyzing the received traffic flow data by an embedded real-time multiple-task scheduling unit, and generating an illuminating power control signal; adjusting brightness of a light source by a variable-power light source according to the illuminating power control signal; and realizing self-networking between a wireless self-networking data router unit with at least one set of outer wireless self-networking variable-power intelligent illuminating equipment based on the Internet-of-things, thereby realizing data exchange and logic control between the outer wireless self-networking variable-power intelligent illuminating equipment based on the Internet-of-things and local wireless self-networking variable-power intelligent illuminating equipment. The wireless self-networking variable-power intelligent illuminating equipment can realize cooperation between intelligent illuminating equipment without background management and furthermore realizes self networking, thereby supplying hardware supporting on big data analysis and decision and realizing optimal balance between illuminating effect and energy saving effect.

Description

Wireless self-networking variable power Intelligent illumination device based on Internet of Things

Technical field

The present invention relates to wireless telecommunications and lighting control technique field, particularly to a kind of wireless self-networking variable power Intelligent illumination device based on Internet of Things.

Background technology

Traditional Intelligent illumination device substantially divides following three classes:

1, do not possess the Intelligent illumination device of remote wireless control function.Such equipment control is got up and is bothered very much, can only run by individual equipment.

2, by there being the Intelligent illumination device of line traffic control.The installation of this kind equipment exists safeguards that professional technical is strong, quantities big, installation period is long, the shortcomings such as functional configuration is dumb.

3, power line carrier controls class Intelligent illumination device.The optional equipment of this kind equipment is more, such as the signal transmission quality in order to improve electric lines of force, has installed trap, wave filter etc. additional.Owing to optional equipment is more, price is also high.And owing to power line transmission is of low quality, sometimes there is also control malfunctioning.

Traditional Intelligent illumination device cannot be carried out data exchange each other, data exchange and logic control can not be carried out with other internet of things sensors nodes, detect function without own health status, be all to realize the control to operational mode based on backstage by wired mode to arrange.

Existing wireless sensor network generally adopts battery to power, and is placed on the place not having base structure, and the communication capacity of node is extremely limited.This just requires that sensor node has the ability of self-organizing, automatically forms the multi-hop wireless network forwarding Monitoring Data.Further, it is subject to the restriction of battery capacity, adopts battery-powered wireless MANET data transmission network can only sacrifice data transmission and continue the battery standby life-span.

Patent CN103256548A discloses a kind of all-weather solar intelligent wireless illuminator based on double; two accumulator, and this technical scheme adopts accumulator and solar energy to carry out function, and condition of power supply is limited, causes that data transmit the problem being likely to occur delay.

Summary of the invention

The purpose of the present invention is intended at least solve one of described technological deficiency.

For this, it is an object of the invention to propose a kind of wireless self-networking variable power Intelligent illumination device based on Internet of Things, can without back-stage management when realize Intelligent illumination device cooperating each other, and also realize MANET, multiple Intelligent illumination devices are automatically composed data route and logic control backbone network, for big data analysis-decision system and control provide hardware supported, reach the optimum balance of illuminating effect and energy-saving effect.

To achieve these goals, embodiments of the invention provide a kind of wireless self-networking variable power Intelligent illumination device based on Internet of Things, including: AC/DC converter unit, the input termination alternating current of described AC/DC converter unit, for exchanging

Electricity is converted to unidirectional current；Traffic flow sensor, described traffic flow sensor is used for detecting traffic flow data, and described traffic flow data includes: the quantity of mobile object, volume and the speed of service；Embedded real-time multitask scheduling unit, described embedded real-time multitask scheduling unit is connected with the outfan of described AC/DC converter unit and described traffic flow sensor, for under the galvanic power supply that described AC/DC converter unit provides, analyze the described traffic flow data received, generate lighting power control signal according to analyzing result；Variable power constant-current source, the input of described variable power constant-current source is connected with the outfan of described AC/DC converter unit and described embedded real-time multitask scheduling unit, for, under the galvanic power supply that described AC/DC converter unit provides, receiving the lighting power control signal from described embedded real-time multitask scheduling unit；Variable power light source, described variable power light source is connected with described variable power constant-current source, for according to described lighting power control signal, adjusting light-source brightness；Wireless self-networking data routing units, at least one of described wireless self-networking data routing units and outside realizes MANET based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, and be connected with described embedded real-time multitask scheduling unit, for realize outside other carry out data interaction and logic control based on the wireless self-networking variable power Intelligent illumination device based on Internet of Things any one or more with local in the wireless self-networking variable power Intelligent illumination device of Internet of Things.

Further, described wireless self-networking data routing units is circumscribed with one or more sensor unit further, described sensor unit is for detecting the sensor signal of external environment condition, described wireless self-networking data route is single to be sent the sensor signal from each described sensor unit to described embedded real-time multitask scheduling unit, described sensor signal is analyzed by described embedded real-time multitask scheduling unit, generates lighting power control signal according to the analysis result of described sensor signal and/or described traffic flow data.

Further, described sensor unit includes: GPS alignment sensor, air velocity transducer, Temperature Humidity Sensor, liquid level sensor, rain sensor, noise decibel value sensor, PM2.5 concentration sensor, pressure transducer and liquid flow sensor.

Further, described wireless self-networking data routing units is applied with the APP of background management system, handheld terminal, intelligent switch and/or mobile terminal further and is communicated, reception pattern switch-over control signal, and send to described embedded real-time multitask scheduling unit, described embedded real-time multitask scheduling unit selects a current light scene pattern as described variable power light source according to described pattern switch-over control signal in built-in multiple light scene patterns, and generates the lighting power control signal corresponding with described current light scene pattern.

Further, any two in wireless self-networking is based on wireless connections between the wireless self-networking variable power Intelligent illumination device of Internet of Things, to carry out data interaction.

Further, described embedded real-time multitask scheduling unit is provided with unique identifier, for recording position feature and the identity characteristic of the described wireless self-networking variable power Intelligent illumination device based on Internet of Things.

Further, the wireless self-networking variable power Intelligent illumination device based on Internet of Things of the embodiment of the present invention, also include: DO control unit, the input of described DO control unit is connected with described embedded real-time multitask scheduling unit, for receiving switch controlling signal, the outfan of described DO control unit is connected with outside luminaire, for the brightness of the luminaire outside the control of described switch controlling signal.

Further, the wireless self-networking variable power Intelligent illumination device based on Internet of Things of the embodiment of the present invention, also include: running status self-test unit, described running status self-test unit is connected with described embedded real-time multitask scheduling unit, for detecting the real-time running state data of the described wireless self-networking variable power Intelligent illumination device based on Internet of Things, and described real-time running state data are sent to described embedded real-time multitask scheduling unit, by described embedded real-time multitask scheduling unit health status based on the wireless self-networking variable power Intelligent illumination device of Internet of Things according to described real-time running state data analysis.

Further, described real-time running state data include: electric current, voltage, meritorious, idle, power and electricity.

Further, described embedded real-time multitask scheduling unit adopts microcontroller.

The wireless self-networking variable power Intelligent illumination device based on Internet of Things according to embodiments of the present invention, can without back-stage management when realize Intelligent illumination device cooperating each other, and also realize MANET, multiple Intelligent illumination devices are automatically composed data route and logic control backbone network, for big data analysis-decision system and control provide hardware supported, reach the optimum balance of illuminating effect and energy-saving effect.The present invention is not only capable of stepless dimming, moreover it is possible to realizing MANET each other, light illumination mode mutually can switch between the pattern of setting themselves.It is also possible to adjusted the light illumination mode of self by background management system or handheld terminal, mobile phone A PP, illuminance transducer etc. so that on-demand illumination and multiple lighting system coexist.Additionally, the present invention can detect the health status of self, attendant being made to pass through remotely management and just can know the operation conditions of equipment in time, save labor management cost, the wireless telecommunications merit between equipment can save the wiring cost of communication cable.

Aspect and advantage that the present invention adds will part provide in the following description, and part will become apparent from the description below, or is recognized by the practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or the additional aspect of the present invention and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is the structure chart of wireless self-networking variable power Intelligent illumination device based on Internet of Things according to an embodiment of the invention；

Fig. 2 is the structure chart of wireless self-networking variable power Intelligent illumination device based on Internet of Things in accordance with another embodiment of the present invention.

Detailed description of the invention

Being described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of same or like function from start to finish.The embodiment described below with reference to accompanying drawing is illustrative of, it is intended to is used for explaining the present invention, and is not considered as limiting the invention.

The present invention proposes a kind of wireless self-help net variable power Intelligent illumination device based on Internet of Things, realizes wireless self-networking based on Internet of Things and lighting power controls, and can transmit the data of other internet of things sensors as Internet of Things information transmission network.

As shown in Figure 1, the wireless self-networking variable power Intelligent illumination device based on Internet of Things of the embodiment of the present invention, including: AC/DC converter unit 1, traffic flow sensor 2, embedded real-time multitask scheduling unit 3, variable power constant-current source 4, variable power light source 5 and wireless self-networking data routing units 6.

Specifically, the input termination alternating current of AC/DC converter unit 1, for being converted to unidirectional current by alternating current, it is achieved the conversion of supply voltage.

Specifically, 100V-240V-380V alternating voltage can be transferred to one or more galvanic current pressure by AC/DC converter unit 1, reliable and stable working power is provided for rear end equipment normal operation, make wireless Internet of things node without considering dump energy problem, avoid tradition router of internet of things not high because of the battery real-time brought of powering, the problem of network robustness difference.Additionally, AC/DC converter unit 1 has the route protection functions such as power-off protection, earth leakage protective, short-circuit protection, overcurrent protection, overvoltage protection simultaneously.

AC/DC converter unit 1 as the working power based on Internet of Things wireless self-networking variable power Intelligent illumination device, can directly supply electricity to variable power constant-current source 4.Additionally, AC/DC converter unit 1 can also be powered to embedded real-time multitask scheduling unit 3 simultaneously.

Traffic flow sensor 2 is used for detecting traffic flow data, sets the data foundation of the lighting power of variable power light source 5 as embedded real-time multitask scheduling unit 3.Wherein, traffic flow data includes: the quantity of mobile object, volume and the speed of service.

It should be noted that traffic flow data is not limited to the example above, it is also possible to include other related datas of mobile object, do not repeat them here.

Embedded real-time multitask scheduling unit 3 is connected with outfan and the traffic flow sensor 2 of AC/DC converter unit 1, for under the galvanic power supply that AC/DC converter unit 1 provides, analyze the traffic flow data received, generate lighting power control signal according to analyzing result.

In one embodiment of the invention, embedded real-time multitask scheduling unit 3 is provided with unique identifier, for recording position feature and the identity characteristic of the wireless self-networking variable power Intelligent illumination device based on Internet of Things.Due to, each wireless self-networking variable power Intelligent illumination device based on Internet of Things has unique identifier, it is possible to by this unique identifier, facilitates the application such as later stage information processing and information source tracing.

Preferably, embedded real-time multitask scheduling unit 3 adopts microcontroller.

The input of variable power constant-current source 4 is connected with outfan and the embedded real-time multitask scheduling unit 3 of AC/DC converter unit 1, for under the galvanic power supply that AC/DC converter unit 1 provides, receive the lighting power control signal from embedded real-time multitask scheduling unit 3, and provide required working power for built-in variable power light source 5.

Variable power light source 5 is connected with variable power constant-current source 4, for according to lighting power control signal, adjusting light-source brightness, it is achieved the optimum balance of illuminating effect and energy-saving effect.

At least one of wireless self-networking data routing units 6 and outside realizes MANET based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, and is connected with embedded real-time multitask scheduling unit 3.Namely, the wireless self-networking variable power Intelligent illumination device of multiple Internet of Things can be automatically composed data exchange and logic control network by controlling requirement by wireless self-networking data routing units 6, wherein, exchange data and mutual logic control signal are all wirelessly transferred.

Wireless self-networking data routing units 6 carries out data interaction and logic control for other realizing outside based on the wireless self-networking variable power Intelligent illumination device based on Internet of Things any one or more with local in the wireless self-networking variable power Intelligent illumination device of Internet of Things.Wherein, the built-in MANET data communication protocol of each wireless self-networking data routing units 6, as long as the distance of neighbouring device meets the reference distance requirement of this data transfer rate, just MANET can be realized, by controlling requirement, multiple wireless self-networking variable power Intelligent illumination devices based on Internet of Things are automatically composed data route and logic control backbone network, and the network topology form of MANET is unrestricted.

It should be noted that any two in wireless self-networking is based on wireless connections between the wireless self-networking variable power Intelligent illumination device of Internet of Things, to carry out data interaction, the transmission range by adjacent two nodes is not limited.

Wireless self-networking data routing units 6 can be identical with self attributes with outside control unit based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, intelligent switch, handheld terminal, gateway, various kinds of sensors exchange data and mutual logic control.

In one embodiment of the invention, wireless self-networking data routing units 6 is circumscribed with one or more sensor unit further.Wherein, sensor unit is for detecting the sensor signal of external environment condition.

Wireless self-networking data route is single to be sent the sensor signal from each sensor unit to embedded real-time multitask scheduling unit 3.Sensor signal is analyzed by embedded real-time multitask scheduling unit 3, generates lighting power control signal according to the analysis result of sensor signal and/or traffic flow data.

The data of embedded real-time multitask scheduling unit 3 priority treatment self traffic flow sensor 2 probe unit, it is also possible to realize and other Intelligent illumination devices cooperating each other when without back-stage management.In addition, embedded real-time multitask scheduling unit 3 can also carry out data exchange with wireless self-networking communication unit, automatically analyze the data of external sensor unit, generate lighting power control signal, control the brightness value of built-in variable power light source 5 according to actual needs to reach the optimum balance of illuminating effect and energy-saving effect.

In an example of the present invention, sensor unit includes: GPS alignment sensor, air velocity transducer, Temperature Humidity Sensor, liquid level sensor, rain sensor, noise decibel value sensor, PM2.5 concentration sensor, pressure transducer and liquid flow sensor.

Embedded real-time multitask scheduling unit 3 can receive the signal from traffic flow sensor 2 and wireless self-networking data routing units 6.The signal of embedded real-time multitask scheduling unit 3 preferential answering self traffic flow sensor 2 unit, the signal of other wireless self-networking variable power Intelligent illumination devices, handheld terminal, intelligent switch, various kinds of sensors can also be responded simultaneously, and control variable power constant-current source 4 after carrying out logical analysis and regulate the brightness of built-in variable power light source 5, and various internet of things sensors signals are transmitted back to background management system carry out big data analysis work.

It should be noted that the wireless self-networking variable power Intelligent illumination device based on Internet of Things of the embodiment of the present invention, it is possible to the data receiving and transmitting are not limited to the example above, it is also possible to for the relevant device data in other Internet of Things, do not repeat them here.

Communicate additionally, wireless self-networking data routing units 6 is applied with the APP of background management system, handheld terminal, intelligent switch and/or mobile terminal further.Wireless self-networking data routing units 6 is from the reception pattern switch-over control signal of the said equipment, and sends to embedded real-time multitask scheduling unit 3.Embedded real-time multitask scheduling unit 3 selects a current light scene pattern as variable power light source 5 according to pattern switch-over control signal in built-in multiple light scene patterns, and generates the lighting power control signal corresponding with current light scene pattern.General reference model is, embedded real-time multitask scheduling unit 3 is in certain illumination with in the time period, when receiving the lighting demand instruction of APP application of background management system, handheld terminal, intelligent switch and/or mobile terminal, control variable power light source 5 and improve brightness, reduce brightness not meeting to set illumination and control variable power light source 5 in the time period.Such as, when night, control variable power light source 5 and improve brightness；When daytime, control variable power light source 5 and reduce brightness.When illuminance is lower than default illumination, controls variable power light source 5 and improve brightness；When illuminance is higher than, when presetting illumination, controlling variable power light source 5 and reduce brightness.

External personal computer PC, handheld terminal, switch panel or the mobile phone that embedded real-time multitask scheduling unit 3 is accessed by wireless self-networking data routing units 6 regulates or sets single Intelligent illumination device or the operational mode of MANET partially or fully Intelligent illumination device.Embedded real-time multitask scheduling unit 3 can realize multiple Intelligent illumination device cooperating each other when without background management system, and can by all signals received (such as, fault-signal) wirelessly it is transferred to background management system, additionally it is possible to carry out firmware upgrade by wireless.

And, outside internet of things sensors and execution control unit, the sensors such as such as all kinds of GPS, temperature, humidity, illumination, pressure, switchgear, handheld terminal, gateway also all can be route by these data and logic control backbone network exchanges data and realizes corresponding logic control function.

As in figure 2 it is shown, the wireless self-networking variable power Intelligent illumination device based on Internet of Things of the embodiment of the present invention, also include: DO control unit 7.The input of DO control unit 7 is connected with embedded real-time multitask scheduling unit 3, is used for receiving switch controlling signal, and the outfan of DO control unit 7 is connected with outside luminaire, for the brightness of the luminaire outside switch controlling signal control.

As in figure 2 it is shown, the wireless self-networking variable power Intelligent illumination device based on Internet of Things of the embodiment of the present invention, also include: running status self-test unit 8.

Running status self-test unit 8 is connected with embedded real-time multitask scheduling unit 3, for detecting the real-time running state data of the wireless self-networking variable power Intelligent illumination device based on Internet of Things, and real-time running state data are sent to embedded real-time multitask scheduling unit 3.By embedded real-time multitask scheduling unit 3 according to the real-time running state data analysis health status based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, it is achieved the detection to own health status.Such as, the faults such as LED light source whether damage are analyzed.

In one embodiment of the invention, real-time running state data include: electric current, voltage, meritorious, idle, power and electricity.

The wireless self-networking variable power Intelligent illumination device based on Internet of Things according to embodiments of the present invention, can without back-stage management when realize Intelligent illumination device cooperating each other, and also realize MANET, multiple Intelligent illumination devices are automatically composed data route and logic control backbone network, for big data analysis-decision system and control provide hardware supported, reach the optimum balance of illuminating effect and energy-saving effect.The present invention is not only capable of stepless dimming, moreover it is possible to realizing MANET each other, light illumination mode mutually can switch between the pattern of setting themselves.It is also possible to adjusted the light illumination mode of self by background management system or handheld terminal, mobile phone A PP, illuminance transducer etc. so that on-demand illumination and multiple lighting system coexist.Additionally, the present invention can detect the health status of self, attendant being made to pass through remotely management and just can know the operation conditions of equipment in time, save labor management cost, the wireless telecommunications merit between equipment can save the wiring cost of communication cable.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment or the example of the present invention.In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

Although above it has been shown and described that embodiments of the invention, it is understandable that, above-described embodiment is illustrative of, being not considered as limiting the invention, above-described embodiment can be changed when without departing from principles of the invention and objective, revises, replace and modification by those of ordinary skill in the art within the scope of the invention.The scope of the invention extremely equivalency.

Claims (10)

1. the wireless self-networking variable power Intelligent illumination device based on Internet of Things, it is characterised in that including:

AC/DC converter unit, the input termination alternating current of described AC/DC converter unit, for being converted to unidirectional current by alternating current；

Traffic flow sensor, described traffic flow sensor is used for detecting traffic flow data, and described traffic flow data includes: the quantity of mobile object, volume and the speed of service；

Embedded real-time multitask scheduling unit, described embedded real-time multitask scheduling unit is connected with the outfan of described AC/DC converter unit and described traffic flow sensor, for under the galvanic power supply that described AC/DC converter unit provides, analyze the described traffic flow data received, generate lighting power control signal according to analyzing result；

Variable power constant-current source, the input of described variable power constant-current source is connected with the outfan of described AC/DC converter unit and described embedded real-time multitask scheduling unit, for, under the galvanic power supply that described AC/DC converter unit provides, receiving the lighting power control signal from described embedded real-time multitask scheduling unit；

Variable power light source, described variable power light source is connected with described variable power constant-current source, for according to described lighting power control signal, adjusting light-source brightness；

Wireless self-networking data routing units, at least one of described wireless self-networking data routing units and outside realizes MANET based on the wireless self-networking variable power Intelligent illumination device of Internet of Things, and be connected with described embedded real-time multitask scheduling unit, for realize outside other carry out data interaction and logic control based on the wireless self-networking variable power Intelligent illumination device based on Internet of Things any one or more with local in the wireless self-networking variable power Intelligent illumination device of Internet of Things.

2. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterized in that, described wireless self-networking data routing units is circumscribed with one or more sensor unit further, described sensor unit is for detecting the sensor signal of external environment condition, described wireless self-networking data route is single to be sent the sensor signal from each described sensor unit to described embedded real-time multitask scheduling unit, described sensor signal is analyzed by described embedded real-time multitask scheduling unit, analysis result according to described sensor signal and/or described traffic flow data generates lighting power control signal.

3. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 2, it is characterized in that, described sensor unit includes: GPS alignment sensor, air velocity transducer, Temperature Humidity Sensor, liquid level sensor, rain sensor, noise decibel value sensor, PM2.5 concentration sensor, pressure transducer and liquid flow sensor.

4. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 2, it is characterized in that, described wireless self-networking data routing units further with background management system, handheld terminal, the APP application of intelligent switch and/or mobile terminal communicates, reception pattern switch-over control signal, and send to described embedded real-time multitask scheduling unit, described embedded real-time multitask scheduling unit selects a current light scene pattern as described variable power light source according to described pattern switch-over control signal in built-in multiple light scene patterns, and generate the lighting power control signal corresponding with described current light scene pattern.

5. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterized in that, any two in wireless self-networking is based on wireless connections between the wireless self-networking variable power Intelligent illumination device of Internet of Things, to carry out data interaction.

6. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterized in that, described embedded real-time multitask scheduling unit is provided with unique identifier, for recording position feature and the identity characteristic of the described wireless self-networking variable power Intelligent illumination device based on Internet of Things.

7. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterized in that, also include: DO control unit, the input of described DO control unit is connected with described embedded real-time multitask scheduling unit, for receiving switch controlling signal, the outfan of described DO control unit is connected with outside luminaire, for the brightness of the luminaire outside the control of described switch controlling signal.

8. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterized in that, also include: running status self-test unit, described running status self-test unit is connected with described embedded real-time multitask scheduling unit, for detecting the real-time running state data of the described wireless self-networking variable power Intelligent illumination device based on Internet of Things, and described real-time running state data are sent to described embedded real-time multitask scheduling unit, by described embedded real-time multitask scheduling unit health status based on the wireless self-networking variable power Intelligent illumination device of Internet of Things according to described real-time running state data analysis.

9. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterised in that described real-time running state data include: electric current, voltage, meritorious, idle, power and electricity.

10. the wireless self-networking variable power Intelligent illumination device based on Internet of Things as claimed in claim 1, it is characterised in that described embedded real-time multitask scheduling unit adopts microcontroller.