CN202385372U - Urban streetlamp lighting control system - Google Patents

Abstract

The utility model relates to an urban streetlamp lighting control system which comprises an urban lighting management platform, a general packet radio service (GPRS) communication module, an electric power acquisition module, a plurality of power communication intelligent service terminals, a plurality of lighting units, a plurality of video conversion servers and a plurality of video recording units, wherein the GPRS communication module communicates and is connected with the urban lighting management platform through a GPRS network. The video conversion servers respectively communicate and are connected with the urban lighting management platform through a third generation (3G) network. According to the urban streetlamp lighting control system, power carrier communication is adopted, the sunrise and sunset time of every day can be measured and calculated by a global positioning system (GPS), a streetlamp switch can be automatically controlled according to the changes of the sunrise and sunset time, the streetlamp brightness can be regulated according to the time, the operation state of a streetlamp can be monitored in real time, and the mutual switching of automatic and manual operation can be realized.

Description

The city street lamp Lighting Control Assembly

Technical field

The utility model relates to city illumination, particularly a kind of city street lamp Lighting Control Assembly.

Background technology

Energy problem is the subject matter of current society, and how improving energy-saving efficiency is the dominant ideas of modern product exploitation.For this novel street lamp of LVD, energy-saving efficiency is one of key parameter of product, improve energy-saving efficiency to greatest extent, and the introducing of LVD intelligent street lamp control system becomes main developing direction.

Now traditional road lamp switch is control of employing time or Artificial Control mostly, and this can bring a lot of inconveniences in actual management process.Because the uncertainty of external environment, form through regular meeting through time control and to go up street lamp that night and open, it but also black with ing, or it is bright early to go up to the sky, and street lamp is but also leaving, and causes serious waste of energy.Hours of daylight in winter is short, can form again day to have deceived street lamp and still do not open, and early the Heaven does not also have bright street lamp but to extinguish, and influences the trip of pedestrian and vehicle.And traditional street lamp be owing to can't regulate lamplight brightness, and the pedestrian is less when the late into the night, and street lamp brightness is still very high.Also cause unnecessary waste of energy,, can on road, form shadow again, have potential safety hazard if turn off the part street lamp.If through Artificial Control then need the staff to be patrolled in the street lamp scene every day, the workload of safeguarding for urban transportation is too big.

The public security problem of road also is serious day by day, and often some big traffic, public security problem owing to there is not real video data, cause these problems to be difficult to solve.Solve road traffic, public security problem, introducing video monitoring is a very important developing direction.

The utility model content

The purpose of the utility model is exactly can only can not adjust the time and the brightness of open and close lamp according to the variation of environment through time control or Artificial Control to most of street lamp in the prior art; Cause waste of energy; And can't detect the deficiency of street lamp running status in real time, and a kind of employing power line carrier, PLC is provided, can utilize the GPS navigation system to calculate the sun set/raise time of every day; Variation according to sun set/raise time comes control road lamp switch automatically; Can regulate street lamp brightness according to the time, monitor the running status of street lamp in real time, and can realize automatically and manually controlling the city street lamp Lighting Control Assembly that switches each other.

To achieve these goals, the utility model has adopted following technical scheme: a kind of city street lamp Lighting Control Assembly links to each other with the city street lamp lighting unit; Comprise city illumination management platform, GPRS communication module, electrical power acquisition module, a plurality of power communication intelligence service terminal, a plurality of video change server and a plurality of video cameras unit; The GPRS communication module is connected by communication through GPRS network and city illumination management platform; A plurality of power communication intelligence service terminals are connected by communication with the GPRS communication module respectively, and are connected by communication with the electrical power acquisition module respectively, also connect a plurality of lighting units respectively; A plurality of video change server are connected by communication through 3G network and city illumination management platform respectively; A plurality of video cameras unit links to each other with the video change server through video transmission line respectively, and each video change server connects a plurality of video cameras unit respectively.

Described lighting unit comprises power carrier ballast and electrodeless lamp, and an end of power carrier ballast links to each other with electrodeless lamp, and the other end links to each other with power communication intelligence service terminal through power line.

Described power carrier ballast comprises microprocessor, IO control circuit, power carrier communication coupling circuit, AC/DC power supply and failure detector circuit; Microprocessor is connected with the IO control circuit respectively, power carrier communication coupling circuit, AC/DC power supply and failure detector circuit connect; The AC/DC power supply also links to each other with power line, and the IO control circuit also links to each other with electrodeless lamp.

The city street lamp Lighting Control Assembly of the utility model owing to adopted above technical scheme, has following advantage and good effect;

1, adopt the power line carrier, PLC mode, various information need not to build special communication network through the transmission of existing power line, greatly reduce cost, have improved reliability.

2, according to the grade and the characteristics of road, can be through management platform to the setting of classifying of the street lamp of different roads, when external environment brightness reached the value of turning on light or the value of turning off the light of setting, street lamp opened or cuts out.The brightness value of switch lamp also can be reset as required, and the variation that street lamp can be conformed has reduced waste of electric energy, has prolonged the useful life of street lamp.

3, light modulation time point and the light modulation ratio through setting; Automatically regulate the brightness and the operating power of street lamp; Not only guaranteed the illumination of street lamp but also reduced the consumption of electric energy, and can reset light modulation time point and light modulation ratio, improved the energy-saving efficiency of LVD street lamp greatly according to environmental change.

4, can monitor the operating position of street lamp and circuit in real time; In case street lamp goes wrong; With in time on management platform, showing the particular location of problematic street lamp or circuit; Make things convenient for the staff to monitor and finishing or conversion in time, accelerated the speed that the road street lamp fault is handled, reduced maintenance cost.

5, under special circumstances, the control personnel can skip controlling organization, manually control the switch of street lamp at any time through the button on the main control system, realize automatically and the manually switching of control, have improved adaptability to changes, have reduced the potential safety hazard that possibly exist.

6, can detect the video information of street lighting through video monitoring, so that staff's maintenance.

7, can be through traffic, the public security problem of video monitoring monitoring road, favourable evidence is provided, the efficient of raising public security department processing accident when major traffic accidents take place with road public security accident, can for corresponding public security department.

8, can avoid the pilferage of cable and road equipment through video monitoring.

Description of drawings

Fig. 1 is the structural framing figure of the utility model city street lamp Lighting Control Assembly;

Fig. 2 is the structural representation of the lighting unit in the utility model;

Fig. 3 is the functional framework figure of the power carrier ballast in the utility model.

Embodiment

Below in conjunction with accompanying drawing and specific embodiment the utility model is elaborated.

Referring to Fig. 1; The city street lamp Lighting Control Assembly of the utility model comprises city illumination management platform 100 (be arranged on host computer in), GPRS communication module 200, electrical power acquisition module 400, a plurality of power communication intelligence service terminal 300 (being arranged in the power distribution cabinet of various places), a plurality of lighting unit 500 (being arranged on the roadside), a plurality of video change server 20 and a plurality of video cameras unit 40 (being provided with corresponding to the lighting unit subregion); In GPRS communication module 200, insert China Mobile's SIM, GPRS communication module 200 is connected by communication through GPRS network and city illumination management platform 100.

A plurality of power communication intelligence service terminals 300 link to each other with GPRS communication module 200 through RS232 interface 800 respectively, and link to each other with electrical power acquisition module 400 through RS485 interface 700 respectively.

A plurality of lighting units 500 link to each other with power communication intelligence service terminal 300 through power line 600 respectively; Each power communication intelligence service terminal 300 connects a plurality of lighting units 500 respectively.

A plurality of video change server 20 are connected by communication through 3G network 10 and city illumination management platform 100 respectively.

A plurality of video cameras unit 40 links to each other with video change server 20 through video transmission line 30 respectively, and each video change server 20 connects a plurality of video cameras unit 40 respectively.

Cooperation is referring to Fig. 2, and above-mentioned lighting unit 500 comprises power carrier ballast 520 and electrodeless lamp 510, and power carrier ballast 520 links to each other with electrodeless lamp 510; Power carrier ballast 520 communication channel and power communication intelligence service terminal 300 through the first carrier frequency range 132KHZ and the second carrier wave frequency range 115KHZ in power line 600 is connected by communication; Accept and carry out the various instructions of power communication intelligence service terminal, and execution result and real time data are fed back to power communication intelligence service terminal 300.

Cooperation is referring to Fig. 3; Power carrier ballast 520 comprises microprocessor 521, IO control circuit 522, power carrier communication coupling circuit 523, AC/DC power supply 524 and failure detector circuit 525; Microprocessor 521 is connected with the IO control circuit respectively, power carrier communication coupling circuit, AC/DC power supply and failure detector circuit connect; AC/DC power supply 524 also links to each other with power line 600, and IO control circuit 522 also links to each other with electrodeless lamp 510.

Power carrier ballast 520 in the utility model passes through the binary phase shift keying modulation-demodulation technique with power communication intelligence service terminal 300; Carry out power line carrier communication; Microprocessor 521 in the power carrier ballast is through 524 power supplies of AC/DC power supply; Send the switch of control command control illuminating lamp through IO control circuit 522; Produce pulse-width signal and regulate the brightness of light; Detect whether operate as normal of lamps through failure detector circuit 525, if undesired then can send warning message, microprocessor 521 passes to power communication intelligence service terminal 300 through power carrier communication coupling circuit 523 with all information of the operating state of power carrier ballast.

Power communication intelligence service terminal 300 in the utility model is connected with electrical power acquisition module 400 through RS485 interface 700; Operating voltage, operating current, electrical work power and the information that always consumes energy that electrical power acquisition module 400 is gathered power supply grid, and pass through the MODBUS agreement and give power communication intelligence service terminal 300 with these message transmission.

Power communication intelligence service terminal 300 in the utility model is connected with GPRS communication module 200 through RS232 interface 800; After in GPRS communication module 200, inserting China Mobile's SIM; Power communication intelligence service terminal 300 just can utilize 200 dialing of GPRS communication module to get into GPRS network; Power communication intelligence service terminal 300 just can pass through network and 100 communications of city illumination management platform like this, thereby can on city illumination management platform 100, operate, all information and the instruction of monitoring power electric communication intelligent service terminal 300.

City illumination management platform 100 in the utility model is carried out Long-distance Control and data access to each power communication intelligence service terminal 300; Power communication intelligence service terminal is sent various control commands, comprise accomplish switch with the brightness of regulating lighting, realize sequential scheduling incident, reads data log, warning is replied and energy saving calculation; City illumination management platform 100 can show the real-time working information of power carrier ballast 520, comprises lighting temperature, electric current, voltage, power, power factor and brightness.

The user interface of the city illumination management platform in the utility model adopts the client/server architecture based on the .net platform; Can the computer that the city illumination management platform is installed be used as server, can support a plurality of remote computers to monitor simultaneously like this; On user interface, be provided with manual button and automatic keying, can realize control automatically and the manually switching of control through button at any time.

City illumination management platform 100 in the utility model can long-rangely be provided with the relevant configuration of power communication intelligence service terminal 300; And embedded electronic chart and can the longitude and latitude of the lighting unit of actual field have been disposed in management platform; Clearly illustrate the position and the real-time working state of on-the-spot lighting unit through electronic chart; The city illumination management platform can also be provided with many cover sequential illumination schemes according to user's needs, also can add, removes, deletes and change the setting of controlled device and target device at any time.

Video change server 20 in the utility model is connected with video camera unit 40 through video transmission line 30.Video camera unit 40 is transferred to video change server 20 with the video information that collects through video transmission line 30; After the signal process handled of controller of video change server with collection; Output display video information is stored in video information in the video change server 20 simultaneously.

Video change server 20 in the utility model is transferred to city illumination management platform 100 through 3G network with the video information that collects.Like this, the city illumination management platform video information that just can transmit from a distant place through network real-time monitoring.

City illumination management platform 100 in the utility model is embedded in the video Web server; Realization based on the multiple images in real time of Web browse, playback and control, and support the remote live of video change server operating state, video camera cell operation state to obtain, All Alerts, can trigger the Email function immediately unusually; Let the user obtain relevant information; Deal carefully with fast, shorten the event response time, ensure guarded region safety.

Claims (3)

1. a city street lamp Lighting Control Assembly links to each other with the city street lamp lighting unit; It is characterized in that: comprise city illumination management platform, GPRS communication module, electrical power acquisition module, a plurality of power communication intelligence service terminal, a plurality of video change server and a plurality of video cameras unit; The GPRS communication module is connected by communication through GPRS network and city illumination management platform; A plurality of power communication intelligence service terminals are connected by communication with the GPRS communication module respectively, and are connected by communication with the electrical power acquisition module respectively, also connect a plurality of lighting units respectively; A plurality of video change server are connected by communication through 3G network and city illumination management platform respectively; A plurality of video cameras unit links to each other with the video change server through video transmission line respectively, and each video change server connects a plurality of video cameras unit respectively.

2. city street lamp Lighting Control Assembly as claimed in claim 1; It is characterized in that: described lighting unit comprises power carrier ballast and electrodeless lamp; One end of power carrier ballast links to each other with electrodeless lamp, and the other end links to each other with power communication intelligence service terminal through power line.

3. city street lamp Lighting Control Assembly as claimed in claim 2; It is characterized in that: described power carrier ballast comprises microprocessor, IO control circuit, power carrier communication coupling circuit, AC/DC power supply and failure detector circuit; Microprocessor is connected with the IO control circuit respectively, power carrier communication coupling circuit, AC/DC power supply and failure detector circuit connect; The AC/DC power supply also links to each other with power line, and the IO control circuit also links to each other with electrodeless lamp.

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