WO2016086421A1

WO2016086421A1 - Centralized control system for intelligent lighting street lamp

Info

Publication number: WO2016086421A1
Application number: PCT/CN2014/093174
Authority: WO
Inventors: 刘再乐; 陈支龙; 赵峰
Original assignee: 瑞斯康微电子（深圳）有限公司
Priority date: 2014-12-05
Filing date: 2014-12-05
Publication date: 2016-06-09

Abstract

The present invention is applicable to a street lamp lighting system, and provided is a centralized control system for an intelligent lighting street lamp, comprising a remote monitoring centre, at least one centralized controller and at least one street lamp controller for controlling the working of a street lamp and monitoring a working state parameter of the street lamp in real time, wherein the centralized controller is connected to one or more street lamp controllers via a power line, and transceives the same information with the street lamp controller in two modes, namely, power line carrier communication (PLC) and radio communication (RF); and the street lamp controller is used for transmitting the monitored working state parameter of the street lamp to the remote monitoring centre via the centralized controller, and executing a corresponding control operation on the street lamp when receiving a monitoring instruction which is forwarded by the centralized controller and from the remote monitoring centre. The present invention can fully upgrade a city public lighting management system, thereby reducing energy waste, and achieving centralized management and controlling, informatized operation and maintenance, and intelligent lighting of street lamps.

Description

Intelligent lighting street lamp centralized control system

Technical field

The invention belongs to the field of information technology and processing, and in particular relates to a intelligent lighting street lamp centralized control system.

Background technique

Urban public lighting system is an important public infrastructure closely related to people's lives. With the acceleration of urbanization, the demand for urban public lighting facilities and the scale of construction are increasing, but the rapid development of urban public lighting has increased the energy There are also many shortcomings in the demand and consumption of management. Existing urban public lighting systems generally have poor management, inconvenient control, unclear lighting conditions, and inconvenient maintenance. Energy waste and many other issues. At present, intelligent street lamp monitoring systems have appeared on the market to intelligently control urban street lighting, but there are problems such as unstable transmission during data transmission and data loss.

In the case of increasing energy shortages and increasing greenhouse effect, national and local governments are calling for energy-saving emission reduction and green lighting, which can effectively control energy consumption, improve street lamp life, and reduce maintenance and management costs. The goal of construction is also an inevitable trend of urban intelligent construction.

technical problem

The technical problem to be solved by the present invention is to provide a smart lighting street lamp centralized control system, which aims to solve the problem of unstable data transmission, unclear illumination situation and inconvenient control in the current urban lighting intelligent process.

Technical solution

The invention is realized by the invention, comprising a remote lighting monitoring center, at least one centralized controller and at least one street lamp controller for controlling the work of the street lamp and real-time monitoring the working state parameter of the street lamp;

The centralized controller connects one or more street lamp controllers through a power line, and simultaneously transmits and receives the same information in a power line carrier communication (PLC) and a wireless communication (RF) manner simultaneously with the street lamp controller;

The street lamp controller is configured to send the monitored street lamp working state parameter to the remote monitoring center through the centralized controller; and when receiving the monitoring instruction from the remote monitoring center forwarded by the centralized controller, Perform corresponding control operations on the street lights.

Further, the remote monitoring center is further configured to output the running status of the queried street lamp in the form of an electronic map after receiving the street lamp running query request.

Further, the street lamp controller is further configured to monitor an environmental parameter of the street lamp in real time, and send a corresponding alarm event to the centralized controller when the monitored environmental parameter satisfies a preset alarm condition;

The centralized controller is configured to determine whether the received alarm event meets the reporting condition, and if yes, report the alarm event to the remote control center, and if not, perform a corresponding alarm event cancellation action.

Further, the remote monitoring center is further configured to dynamically display the reported alarm event on the electronic map.

Further, the remote control center interacts with the centralized controller through an Internet/GPRS network.

Further, the street light controller includes:

An illuminance monitoring module for monitoring the lighting effect of the street lamp and transmitting the monitored illuminance parameter;

An electrical parameter acquisition module for collecting electrical parameters of the street lamp and transmitting the same;

a water level monitoring module for monitoring the water condition of the road area under the light pole and transmitting the monitored water level parameter;

The first processor is configured to receive the monitoring instruction transmitted by the intelligent centralized controller, perform analysis and judgment, and transmit the judgment data; and receive the monitoring parameter transmitted by the illuminance detecting module, the electric parameter collecting module, and the water level monitoring module. Comparing with the preset parameter, and generating an alarm signal when determining the abnormal event, and transmitting the monitoring data and the alarm signal to the centralized controller;

a relay switch module, connected to the first processor, configured to control on or off of the street lamp power after receiving the determination data transmitted by the first processor;

a dimming module, connected to the first processor, configured to receive the determination data transmitted by the first processor, and then adjust a light or a darkness of the street light;

a power line carrier communication module, coupled to the first processor, for interacting with the centralized controller through a power line;

a wireless communication module, coupled to the first processor, for interacting with the centralized controller by using a wireless communication protocol;

Further, the centralized controller includes:

The second processor is configured to receive the monitoring instruction sent by the remote monitoring center and send the monitoring instruction to the street lamp controller; and further, receive the monitoring parameter and the alarm signal transmitted by the street lamp controller for analysis and judgment, and determine that the A report signal is generated and transmitted to the remote monitoring center, and an operation command is generated and transmitted, and the alarm signal is cancelled if it is determined that the report is not required to be reported;

a data storage module coupled to the second processor for data storage and management;

a GPRS communication module, connected to the second processor, for performing GPRS communication with the remote monitoring center;

An Ethernet interface module, connected to the second processor, for accessing the Internet and the remote monitoring center for communication;

The power line carrier communication module is coupled to the second processor for interacting with the street light controller through the power line.

The wireless communication module is coupled to the second processor for interacting with the street light controller via a wireless communication protocol.

The AC contactor driving module is connected to the second processor, and configured to receive the operation command to control opening and closing of the power supply of the power distribution cabinet and the street lamp line;

a real-time real clock module, connected to the second processor, for recording the event time point generated by each street lamp, and also for setting different time timing tasks;

Input button, connected to the second processor, for local control and input configuration parameters;

The liquid crystal display module is connected to the second processor and is used for a man-machine display interface during local operation.

Beneficial effect

Compared with the prior art, the invention has the following advantages:

The whole system can realize remote monitoring and visualization operations. It can switch lights and dimming any street light, any way or any custom group of street lights in the network. It can operate each light separately on the electronic map of the remote monitoring center. The alarm information of each lamp can be dynamically displayed on the map.

In addition to the conventional lighting control and illumination adjustment, the street lamp controller also has functions such as illumination detection, electrical parameter acquisition, water level detection and alarm, which can significantly improve equipment maintenance and safety.

The dual-mode communication network coexisting with power line carrier communication and wireless communication technology ensures the networking and communication success rate between devices in the network. The power line carrier communication is based on the existing street lamp power supply line, no additional wiring is required, and the construction is convenient, but the communication success rate Affected by grid noise interference. Wireless communication technology also requires no additional wiring, convenient construction, fast communication speed and long distance, but it is affected by trees and climatic factors. The dual-mode communication network has complementary performance to ensure the communication stability of the intelligent lighting street lamp centralized control system. A intelligent lighting street lamp centralized control system can greatly improve the public lighting management level, save maintenance costs, save power resources, make lighting intelligent, and operate and maintain information, suitable for widespread promotion.

DRAWINGS

FIG. 1 is a schematic structural diagram of a smart lighting street lamp centralized control system according to an embodiment of the present invention.

FIG. 2 is a schematic structural diagram of a street lamp controller according to an embodiment of the present invention.

FIG. 3 is a schematic structural diagram of a centralized controller according to an embodiment of the present invention.

Embodiments of the invention

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in Figure 1, a smart lighting street light centralized control system includes a remote monitoring center 1, at least one centralized controller 3, and at least one street light controller 2 for controlling the operation of the street light and real-time monitoring of the working state parameters of the street light;

The centralized controller 3 connects one or more street lamp controllers 2 through a power line, and simultaneously transmits and receives the same information in a power line carrier communication (PLC) and a wireless communication (RF) manner simultaneously with the street lamp controller 2;

In a specific embodiment, during the interaction between the centralized controller 3 and the street lamp controller 2, the two communication modes work simultaneously, that is, when the centralized controller 3 or the street lamp controller 2 transmits information, Power line carrier communication and wireless communication are performed simultaneously, and the street lamp controller 2 or the centralized controller 3 uses the information received first, and performs repeated message processing when the same information is received, and discards it.

The street light controller 2 is configured to send the monitored street light working state parameter to the remote monitoring center 1 through the centralized controller 3; and receive the forwarded from the remote monitoring center When the monitoring command of 1 is performed, the corresponding control operation is performed on the street light.

Further, the remote monitoring center 1 is further configured to output the running status of the queried street lamp in the form of an electronic map after receiving the street lamp running query request.

Further, the street lamp controller 2 is further configured to monitor the environmental parameters of the street lamp in real time, and send the corresponding alarm event to the centralized controller 3 when the monitored environmental parameter satisfies the preset alarm condition;

The centralized controller 3 is configured to determine whether the received alarm event meets the reporting condition, and if yes, report the alarm event to the remote control center 1, and if not, perform a corresponding alarm event cancellation action.

Further, the remote monitoring center 1 is further configured to dynamically display the reported alarm event on the electronic map.

Further, the remote control center 1 and the centralized controller 3 interact through an Internet/GPRS network.

As shown in FIG. 2, the street lamp controller 2 includes:

The illuminance monitoring module 205 is configured to monitor the lighting effect of the street lamp and transmit the monitored illuminance parameter;

The electrical parameter collecting module 206 is configured to collect electrical parameters of the street lamp and transmit the electrical parameters;

The water level monitoring module 207 is configured to monitor the water condition of the road area under the light pole and transmit the monitored water level parameter;

In a specific embodiment, the monitoring probe portion of the water level monitoring module 207 is pulled out under the light pole and the signal processing portion is placed in the controller.

The first processor 201 is configured to receive the monitoring command transmitted by the centralized controller 3, perform analysis and judgment, and transmit the determination data; and further, receive the illuminance detection module 205, the electrical parameter collection module 206, and the water level monitoring module 207. The monitored monitoring parameter is compared with the preset parameter, and an alarm signal is generated when the abnormal event is determined, and the monitoring data and the alarm signal are transmitted to the centralized controller 3;

In a particular embodiment, the first processor can employ an MCU processor.

The relay switch module 202 is connected to the first processor 201 for controlling the turning on or off of the street light power after receiving the determination data transmitted by the first processor 201;

The dimming module 208 is connected to the first processor 201 and configured to receive the determination data transmitted by the first processor 201 to adjust the brightness or darkness of the street lamp;

The power line carrier communication module 203 is connected to the first processor 201 for interacting with the centralized controller 3 through a power line;

The wireless communication module 204 is connected to the first processor 201 for interacting with the centralized controller 3 through a wireless communication protocol.

As shown in FIG. 3, the centralized controller 3 includes:

The second processor 301 is configured to receive the monitoring command sent by the remote monitoring center 1 and send it to the street lamp controller 2; and further, receive the monitoring parameter and the alarm signal transmitted by the street lamp controller 2 for analysis and judgment, When it is determined that the report needs to be reported, a report signal is generated and transmitted to the remote monitoring center 1, and an operation command is generated and transmitted, and the alarm signal is cancelled if it is determined that the report is not required to be reported;

In a specific embodiment, the second processor may employ an ARM processor.

The data storage module 302 is connected to the second processor phase 301 for data storage and management;

The GPRS communication module 305 is connected to the second processor phase 301 for performing GPRS communication with the remote monitoring center 1;

The Ethernet interface module 306 is connected to the second processor phase 301 for accessing the Internet and the remote monitoring center 1 for communication;

The power line carrier communication module 303 is connected to the second processor phase 301 for interacting with the street light controller 2 through a power line.

The wireless communication module 304 is coupled to the second processor phase 301 for interacting with the street light controller 2 via a wireless communication protocol.

The AC contactor driving module 307 is connected to the second processor phase 301 for receiving the operation command to control the opening and closing of the power supply of the power distribution cabinet and the street lamp line;

The real-time real clock module 308 is connected to the second processor phase 301 for recording the event time point generated by each street lamp, and also for setting different time timing tasks;

The key input module 309 is connected to the second processor phase 301 for local control and input configuration parameters;

In a specific embodiment, the local operation generally refers to an operation that does not connect to the background server. For example, in the initial stage of installation, the network has not been installed and debugged, and the centralized controller 3 has a corresponding operation menu, for example, for all lights or a certain light. The operation of turning on, turning off the lights, dimming, etc., through the local operation of the centralized controller 3, is very convenient for on-site debugging and maintenance.

The liquid crystal display module 310 is connected to the second processor phase 301 for a human-machine display interface during local operation;

The following is a specific use example of a smart lighting street lamp centralized control system provided by the present invention:

The public lighting management personnel of the urban roads transmit the monitoring instructions of the public lighting through the remote monitoring center 1, and transmit the monitoring commands to the centralized controller 3 through the Internet/GPRS network. After receiving the instructions of the remote monitoring center 1, the centralized controller 3 passes the instructions. The analysis process is performed, and the monitoring command is sent to the street lamp controller 2 through the power line carrier communication and the wireless communication network, and the street lamp controller 2 performs corresponding actions, such as turning on the lights, dimming, and the like. On the other hand, when the street light controller 2 detects an alarm event, the event is recorded and reported to the centralized controller 3 through the power line carrier communication and the wireless communication network, and the centralized controller 3 analyzes and determines the reported event. For the alarm event that needs to be reported to the remote monitoring center 1, the event is reported through the Internet/GPRS network, and the alarm information can be dynamically displayed on the electronic map, and the maintenance personnel are reminded to process the alarm event and release the alarm message. Otherwise, the corresponding alarm event cancellation action is performed under the intelligent centralized controller 3. If it is determined whether the lamp is damaged, it is determined by parameters such as voltage, current, and power. The power levels of different luminaires are inconsistent during normal operation, that is, it may be in a normal working state, but it is in conflict with the set judgment of whether the luminaire is damaged. For these situations, the setting parameters and the judgment basis may be appropriately adjusted. This will cancel the alarm message.

The alarm event here can be:

The water level monitoring alarm, the urban road is easy to cause the street lamp pole to leak due to the accumulation of water, thereby causing personal safety accidents. The water level monitoring module 207 can detect the water accumulation under the lamp pole and transmit the monitoring data to the street lamp controller 2, thereby generating a The alarm signal is transmitted to the centralized controller 3, and the centralized controller 3 generates a power-off operation command according to the received water level alarm signal, and the AC contactor driving module 307 receives the operation command and then disconnects the street lamp power supply line in the power distribution cabinet to ensure Line safety and prevention of personal safety due to leakage:

The lamp damage alarm, the street lamp controller 2 is in working state during the working period (assuming that the time period is 19:00 to 7:00 pm), at this time, it should be able to detect that the state of the relay is closed, and the electric parameter collecting module 206 can also detect The parameters of the working voltage, current, and power of the entire street lamp. If the street lamp is working, it can't collect any electrical parameters. If it is like this for several days, it can judge the lamp failure;

Light quality alarm, when the street light is working, but the light level monitoring module 205 under the light pole detects that the light is very dark, this is the case for several days. At this time, the street light generates a parameter alarm to remind the maintenance personnel to go to the equipment for inspection. See if the trees are heavily covered or the lamps are aging.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. Within the scope.

Claims

A smart lighting street lamp centralized control system, comprising: a remote monitoring center, at least one centralized controller and at least one street lamp controller for controlling the work of the street lamp and real-time monitoring the working state parameter of the street lamp;

The centralized controller connects one or more street lamp controllers through a power line, and simultaneously transmits and receives the same information in a power line carrier communication and a wireless communication manner simultaneously with the street lamp controller;

The street lamp controller is configured to send the monitored street lamp working state parameter to the remote monitoring center through the centralized controller; and when receiving the monitoring instruction from the remote monitoring center forwarded by the centralized controller, Perform corresponding control operations on the street lights.
The intelligent lighting street lamp centralized control system according to claim 1, wherein the remote monitoring center is further configured to output the running status of the queried street lamp in the form of an electronic map after receiving the street lamp running query request.
The intelligent lighting street lamp centralized control system according to claim 1, wherein the street lamp controller is further configured to monitor an environmental parameter of the street lamp in real time, and when the monitored environmental parameter satisfies a preset alarm condition, correspondingly Alarm event is sent to the centralized controller;

The centralized controller is configured to determine whether the received alarm event meets the reporting condition, and if yes, report the alarm event to the remote control center, and if not, perform a corresponding alarm event cancellation action.
The intelligent lighting streetlight centralized control system according to claim 2, wherein the remote monitoring center is further configured to dynamically display the reported alarm event on the electronic map.
The intelligent lighting street lamp centralized control system according to any one of claims 1 to 4, wherein the remote control center and the centralized controller interact through an Internet/GPRS network.
The intelligent lighting street light centralized control system according to claim 1, wherein the street light controller comprises:

a power line carrier communication module, configured to interact with the centralized controller through a power line;

a wireless communication module, configured to interact with the centralized controller by using a wireless communication protocol;

An illuminance monitoring module for monitoring the lighting effect of the street lamp and transmitting the monitored illuminance parameter;

An electrical parameter acquisition module for collecting electrical parameters of the street lamp and transmitting the same;

a water level monitoring module for monitoring the water condition of the road area under the light pole and transmitting the monitored water level parameter;

The first processor is configured to receive the monitoring instruction transmitted by the centralized controller, perform analysis and judgment, and transmit the judgment data; and receive the monitoring parameter transmitted by the illuminance detecting module, the electric parameter collecting module, and the water level monitoring module. The preset parameter is compared and judged, and an alarm signal is generated when the abnormal event is determined, and the monitoring data and the alarm signal are transmitted to the centralized controller;

a relay switch module, configured to control on or off of the street lamp power after receiving the determination data transmitted by the first processor;

The dimming module is configured to adjust the brightness or darkness of the street lamp after receiving the determination data transmitted by the first processor.
The intelligent lighting street lamp centralized control system according to claim 1, wherein the centralized controller comprises:

The second processor is configured to receive the monitoring instruction sent by the remote monitoring center and send the monitoring instruction to the street lamp controller; and further, receive the monitoring parameter and the alarm signal transmitted by the street lamp controller for analysis and judgment, and determine that the A report signal is generated and transmitted to the remote monitoring center, and an operation command is generated and transmitted, and the alarm signal is cancelled if it is determined that the report is not required to be reported;

a data storage module coupled to the second processor for data storage and management;

a GPRS communication module, connected to the second processor, for performing GPRS communication with the remote monitoring center;

An Ethernet interface module, connected to the second processor, for accessing the Internet and the remote monitoring center for communication;

a power line carrier communication module, coupled to the second processor, for interacting with the street light controller through the power line;

a wireless communication module, coupled to the second processor, for interacting with the street light controller through a wireless communication protocol;

The AC contactor driving module is connected to the second processor, and configured to receive the operation command to control opening and closing of the power supply of the power distribution cabinet and the street lamp line;

a real-time real clock module, connected to the second processor, for recording the event time point generated by each street lamp, and also for setting different time timing tasks;

a key input module connected to the second processor for local control and input configuration parameters;

The liquid crystal display module is connected to the second processor and is used for a man-machine display interface during local operation.