阅读说明：本技术 一种基于物联网的集成化智慧路灯控制管理系统及其方法 (Integrated intelligent street lamp control management system based on Internet of things and method thereof ) 是由 朱飞 黄立行 童琳 林礼听 于 2020-06-30 设计创作，主要内容包括：本发明公开了一种基于物联网的集成化智慧路灯控制管理系统及其方法,包括控制管理终端、分区管理终端、智能管理系统和数据存储云端,本发明涉及物联网智慧路灯技术领域。该基于物联网的集成化智慧路灯控制管理系统及其方法,通过控制管理终端分别与分区管理终端、数据存储云端实现双向连接,智能管理系统包括处理器、视频监控单元、环境感控单元、故障自检单元和数据处理模块,分别利用视频监控单元、环境感控单元和故障自检单元实现对智慧路灯的智能管理控制,让智慧路灯在不同的情况下改变亮度,从而有效解决了对比文件中存在的路灯反复开启增加电能损耗的问题,大幅延长了智慧路灯的使用寿命,降低路灯的故障率。(The invention discloses an integrated intelligent street lamp control management system and method based on the Internet of things. The integrated intelligent street lamp control management system based on the Internet of things and the method thereof realize bidirectional connection with a partition management terminal and a data storage cloud end through the control management terminal, the intelligent management system comprises a processor, a video monitoring unit, an environment sensing and controlling unit, a fault self-checking unit and a data processing module, the video monitoring unit, the environment sensing and controlling unit and the fault self-checking unit are respectively utilized to realize intelligent management control on the intelligent street lamp, the intelligent street lamp is enabled to change brightness under different conditions, the problem that the street lamp existing in a comparison file is repeatedly opened to increase electric energy loss is effectively solved, the service life of the intelligent street lamp is greatly prolonged, and the fault rate of the street lamp is reduced.)

1. The utility model provides an integrate wisdom street lamp control management system based on thing networking, includes control management terminal (1), subregion management terminal (2), intelligent management system (3) and data storage high in the clouds (4), its characterized in that: the control management terminal (1) is respectively in bidirectional connection with the partition management terminal (2) and the data storage cloud end (4), the partition management terminal (2) is respectively in bidirectional connection with the intelligent management system (3) and the data storage cloud end (4), and the output end of the intelligent management system (3) is connected with the input end of the data storage cloud end (4);

the intelligent management system (3) comprises a processor (31), a video monitoring unit (32), an environment sensing and controlling unit (33), a fault self-checking unit (34), a street lamp control module (35), a GPRS positioning module (36) and a data processing module (37), wherein the processor (31) is respectively in bidirectional connection with the video monitoring unit (32), the environment sensing and controlling unit (33), the fault self-checking unit (34), the street lamp control module (35), the GPRS positioning module (36) and the data processing module (37);

the partition management terminal (2) comprises an information processing module (21), a street lamp positioning module (22) and an information transmission module (23).

2. The internet of things-based integrated intelligent street lamp control and management system according to claim 1, characterized in that: the video monitoring unit (32) comprises a video monitor (321), an intelligent identification module (322), a flow analysis module (323), a data feedback module (324), a video acquisition module (325), a video sending module (326) and an instruction receiving module (327), wherein the output end of the video monitor (321) is connected with the input ends of the intelligent identification module (322) and the video acquisition module (325), the output end of the intelligent identification module (322) is connected with the input end of the flow analysis module (323), the output end of the flow analysis module (323) is connected with the input end of the data feedback module (324), the video acquisition module (325) is in bidirectional connection with the video sending module (326), and the input end of the video sending module (326) is connected with the output end of the instruction receiving module (327).

3. The internet of things-based integrated intelligent street lamp control and management system according to claim 1, characterized in that: the environment sensing and controlling unit (33) comprises an internet (331), a weather information module (332), an environment sensor (333), an information acquisition module (334), an information display module (335), an information feedback module (336) and an information sending module (337), the internet (331) and the weather information module (332) realize two-way connection, the weather information module (332) and the information display module (335) realize two-way connection, the environment sensor (333) and the information acquisition module (334) realize two-way connection, the output end of the environment sensor (333) is connected with the input end of the information feedback module (336), and the output end of the information acquisition module (334) is connected with the input end of the information sending module (337).

4. The internet of things-based integrated intelligent street lamp control and management system according to claim 1, characterized in that: the fault self-detection unit (34) comprises a voltage sensor (341), a current sensor (342), a data acquisition module (343), a fault analysis module (344), a fault feedback module (345) and a data transmission module (346).

5. The integrated intelligent street lamp control and management system based on the internet of things as claimed in claim 4, wherein: the output end of the data acquisition module (343) is connected with the input ends of the voltage sensor (341) and the current sensor (342), the output end of the data acquisition module (343) is connected with the input end of the fault analysis module (344), and the output end of the fault analysis module (344) is connected with the input ends of the fault feedback module (345) and the data sending module (346) respectively.

6. The internet of things-based integrated intelligent street lamp control and management system according to claim 1, characterized in that: the data processing module (37) comprises a data output module (371), a data input module (372), a data classification module (373), a data storage module (374) and a data acquisition module (375).

7. The integrated intelligent street lamp control and management system based on the internet of things as claimed in claim 6, wherein: the input end of the data output module (371) is connected with the output end of the data acquisition module (375), the output end of the data input module (372) is connected with the input end of the data classification module (373), and the output end of the data classification module (373) is connected with the input end of the data storage module (374).

8. The internet of things-based integrated intelligent street lamp control and management system according to claim 1, characterized in that: the street lamp control module (35) comprises an opening and closing control module (351), a brightness adjusting module (352), a time setting module (353) and an information receiving module (354), the input end of the opening and closing control module (351) is connected with the output end of the time setting module (353), the input end of the time setting module (353) is connected with the output end of the information receiving module (354), and the input end of the information receiving module (354) is connected with the output end of the brightness adjusting module (352).

9. A control method for implementing the integrated intelligent street lamp control management system based on the internet of things as claimed in any one of claims 1 to 8, wherein: the method specifically comprises the following steps:

s1, acquiring flow information: the method comprises the steps that pedestrian and driving data around a street lamp are collected through a video monitor (321) in a video monitoring unit (32), the collected data are sent to an intelligent recognition module (322) to be intelligently recognized, then the pedestrian and the driving are analyzed through a flow analysis module (323) to be specifically analyzed in flow, an analysis result is sent to a processor (31) through a data feedback module (324), the processor (31) controls a street lamp control module (35) according to the analysis data sent by the data feedback module (324), and the brightness of the street lamp is adjusted through a brightness adjusting module (352) in the street lamp control module (35) according to the flow of the pedestrian and the driving;

s2, meteorological information acquisition: weather information is acquired through a weather information module (332) in the environment sensing and controlling unit (33), the weather information module (332) acquires weather information of a street lamp area in real time through the Internet (331), and the information display module (335) displays the meteorological information of the area, the environmental sensor (333) monitors the illumination, air humidity and wind power around the street lamp in real time, the data information monitored and acquired by the environmental sensor (333) is acquired by an information acquisition module (334), and transmits the data information to the processor (31) through the information transmitting module (337), then the processor (31) sends out monitoring data according to the received information sending module (337), the street lamp control module (35) is controlled, according to the ambient illumination, air humidity and wind power conditions of the street lamp, the brightness of the street lamp is adjusted by a brightness adjusting module (352) in the street lamp control module (35);

s3, street lamp fault self-checking: the voltage and the current in the working process of the street lamp are monitored in real time through a voltage sensor (341) and a current sensor (342) in a fault self-checking unit (34), monitoring data are collected through a data collecting module (343), the collected data are sent to a fault analyzing module (344), the voltage and the current are analyzed abnormally through the fault analyzing module (344), the analysis result is sent to a processor (31) through a fault feedback module (345) in the fault analyzing module (344), and in addition, fault information is sent to a data storage cloud (4) through the data sending module (346);

s4, fault early warning information: fault analysis results in the fault self-checking unit (34) are classified into fault types by a data classification module (373) through a data input module (372), and classified fault information is sent to a data storage cloud (4) through a data storage module (374);

s5, street lamp fault processing: the street lamp fault information in the data storage cloud (4) is sent to the corresponding partition management terminal (2), the fault street lamp information is processed in time by using an information processing module (21) in the partition management terminal (2), meanwhile, the street lamp is positioned by using a street lamp positioning module (22) in the partition management terminal (2) and a GPRS positioning module (36) in an intelligent management system (3), the street lamp is controlled to be turned on and off by using a time setting module (353), and the street lamp is controlled to be intelligently by using an on-off control module (351).

10. The control method of the integrated intelligent street lamp control management system based on the internet of things according to claim 9, characterized in that: the intelligent management system is characterized in that the partition management terminals (2) are arranged in a plurality, each partition management terminal (2) is in bidirectional connection with the control management terminal (1), and each partition management terminal (2) correspondingly manage a plurality of intelligent management systems (3).

Technical Field

The invention relates to the technical field of intelligent street lamps based on the Internet of things, in particular to an integrated intelligent street lamp control management system based on the Internet of things and a method thereof.

Background

The intelligent street lamp is a street lamp which realizes remote centralized control and management of the street lamp by applying an advanced, efficient and reliable power line carrier communication technology, a wireless GPRS/CDMA communication technology and the like, and the intelligent street lamp has the functions of automatically adjusting brightness according to traffic flow, controlling remote illumination, actively alarming faults, preventing theft of lamp cables, remotely reading meters and the like, so that power resources can be greatly saved, the management level of public illumination is improved, and the maintenance cost is saved.

Reference is made to publication No. CN110213858A to provide an integrated LED intelligent street lamp management system, in which a monitoring end and an LED illumination end are integrated to transmit road information between LED street lamp terminals, and the on and off of street lamps are controlled according to the traffic conditions of people and vehicles traveling on the road, so that the street lamps are turned off when no people or vehicles are present, and are turned on when pedestrians or vehicles are detected on the road to illuminate the road for convenient passage, thereby achieving the purpose of energy saving and emission reduction, and such a design of the scheme has obvious use defects, firstly, the street lamps have high electric energy loss when being turned on repeatedly, and have large loss for the service life of the street lamps, so that the purpose of energy saving and emission reduction cannot be achieved, the service life of the street lamps can be shortened, the interior of the street lamps is prone to malfunction, the maintenance rate of the street lamps is increased, and when people and vehicles traveling on the road are detected, not only appear detecting error easily, cause opening repeatedly of street lamp, but also can increase the power consumption of street lamp, reduce by a wide margin to the management effect of wisdom street lamp, for this reason, technical personnel in the field have provided a wisdom street lamp control management system integrates based on thing networking.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an integrated intelligent street lamp control management system based on the Internet of things and a method thereof, and solves the problems that the street lamp in the publication number CN110213858A has high electric energy loss when being repeatedly started, and has large loss on the service life of the street lamp, so that the purposes of energy conservation and emission reduction cannot be achieved, the service life of the street lamp can be shortened, the interior of the street lamp is easy to break down, the maintenance rate of the street lamp is improved, and secondly, when the street lamp detects people and vehicles moving on the road, the detection error is easy to occur, the repeated starting of the street lamp is caused, the electric energy consumption of the street lamp is increased, and the management effect of the intelligent street lamp is greatly reduced.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an integrate wisdom street lamp control management system based on thing networking, includes control management terminal, subregion management terminal, intelligent management system and data storage high in the clouds, control management terminal realizes two-way connection with subregion management terminal, data storage high in the clouds respectively, and subregion management terminal realizes two-way connection with intelligent management system, data storage high in the clouds respectively, intelligent management system's output and the input of data storage high in the clouds are connected, intelligent management system includes treater, video monitoring unit, environmental sense accuse unit, trouble self-checking unit, street lamp control module, GPRS orientation module and data processing module, and the treater realizes two-way connection with video monitoring unit, environmental sense accuse unit, trouble self-checking unit, street lamp control module, GPRS orientation module, data processing module respectively, subregion management terminal includes information processing module, Street lamp orientation module and information transmission module.

Preferably, the video monitoring unit comprises a video monitor, an intelligent identification module, a flow analysis module, a data feedback module, a video acquisition module, a video sending module and an instruction receiving module, wherein the output end of the video monitor is respectively connected with the input ends of the intelligent identification module and the video acquisition module, the output end of the intelligent identification module is connected with the input end of the flow analysis module, the output end of the flow analysis module is connected with the input end of the data feedback module, the video acquisition module is in bidirectional connection with the video sending module, and the input end of the video sending module is connected with the output end of the instruction receiving module.

Preferably, the environment sensing and control unit comprises an internet, a meteorological information module, an environment sensor, an information acquisition module, an information display module, an information feedback module and an information sending module, the internet and the meteorological information module are connected in a two-way mode, the meteorological information module and the information display module are connected in a two-way mode, the environment sensor and the information acquisition module are connected in a two-way mode, the output end of the environment sensor is connected with the input end of the information feedback module, and the output end of the information acquisition module is connected with the input end of the information sending module.

Preferably, the fault self-checking unit comprises a voltage sensor, a current sensor, a data acquisition module, a fault analysis module, a fault feedback module and a data sending module.

Preferably, the output end of the data acquisition module is connected with the input ends of the voltage sensor and the current sensor respectively, the output end of the data acquisition module is connected with the input end of the fault analysis module, and the output end of the fault analysis module is connected with the input ends of the fault feedback module and the data sending module respectively.

Preferably, the data processing module comprises a data output module, a data input module, a data classification module, a data storage module and a data acquisition module.

Preferably, the input end of the data output module is connected with the output end of the data acquisition module, the output end of the data input module is connected with the input end of the data classification module, and the output end of the data classification module is connected with the input end of the data storage module.

Preferably, the street lamp control module comprises an on-off control module, a brightness adjusting module, a time setting module and an information receiving module, wherein the input end of the on-off control module is connected with the output end of the time setting module, the input end of the time setting module is connected with the output end of the information receiving module, and the input end of the information receiving module is connected with the output end of the brightness adjusting module.

The invention also discloses a control method of the integrated intelligent street lamp control management system based on the Internet of things, which specifically comprises the following steps:

s1, acquiring flow information: the system comprises a video monitoring unit, an intelligent identification module, a data feedback module, a processor, a street lamp control module and a brightness adjustment module, wherein the video monitoring unit is used for collecting data of pedestrians and driving vehicles around a street lamp, sending the collected data to the intelligent identification module for intelligent identification, analyzing the flow of the pedestrians and the driving vehicles through the flow analysis module, sending an analysis result to the processor through the data feedback module, controlling the street lamp control module through the processor according to the analysis data sent by the data feedback module, and adjusting the brightness of the street lamp according to the flow of the pedestrians and the driving vehicles through the brightness adjustment module in the street lamp control module;

s2, meteorological information acquisition: the method comprises the steps that meteorological information is acquired through a meteorological information module in an environment sensing and controlling unit, the meteorological information module acquires weather information of a street lamp area in real time through the Internet, the meteorological information of the area is displayed through an information display module, the illumination, air humidity and wind power conditions around the street lamp are monitored in real time through an environment sensor, data information acquired through monitoring of the environment sensor is acquired through an information acquisition module, the data information is sent to a processor through an information sending module, then the processor controls a street lamp control module according to monitoring data sent by the information receiving sending module, and the brightness of the street lamp is adjusted through a brightness adjusting module in the street lamp control module according to the illumination, air humidity and wind power conditions around the street lamp;

s3, street lamp fault self-checking: the voltage and the current in the working process of the street lamp are monitored in real time through a voltage sensor and a current sensor in a fault self-detection unit, monitoring data are collected through a data collection module, the collected data are sent to a fault analysis module, the voltage and the current are subjected to abnormal analysis through the fault analysis module, an analysis result is sent to a processor through a fault feedback module in the fault analysis module, and in addition, fault information is sent to a data storage cloud end through the data sending module;

s4, fault early warning information: classifying fault analysis results in the fault self-checking unit by the data input module through the data classification module, and sending classified fault information to the data storage cloud end through the data storage module;

s5, street lamp fault processing: the fault information in the data storage cloud is sent to the corresponding partition management terminal, the information processing module in the partition management terminal is used for timely processing fault street lamp information, meanwhile, the street lamp positioning module in the partition management terminal and the GPRS positioning module in the intelligent management system are used for carrying out position positioning on the fault street lamp, the time setting module is used for carrying out on-off control on the street lamp, and the on-off control module is used for carrying out intelligent control on the street lamp.

Preferably, a plurality of partition management terminals are arranged, each partition management terminal is in bidirectional connection with the control management terminal, and each partition management terminal correspondingly manage a plurality of intelligent management systems.

(III) advantageous effects

The invention provides an integrated intelligent street lamp control management system based on the Internet of things and a method thereof. Compared with the prior art, the method has the following beneficial effects:

(1) the integrated intelligent street lamp control management system based on the Internet of things comprises a control management terminal, a data storage cloud end, a video monitoring unit, an environment sensing and control unit, a fault self-checking unit, a street lamp control module, a GPRS positioning module and a data processing module, wherein the control management terminal is respectively connected with a partition management terminal, the data storage cloud end is in bidirectional connection, the partition management terminal is respectively connected with the intelligent management system, the data storage cloud end is in bidirectional connection, the output end of the intelligent management system is connected with the input end of the data storage cloud end, the intelligent management system comprises a processor, the video monitoring unit, the environment sensing and control unit, the street lamp control module, the GPRS positioning module and the data processing module, the partition management terminal comprises an information processing module, a street lamp positioning module and an information transmission module, the video monitoring unit is respectively utilized, The intelligent management control to the wisdom street lamp is realized to environmental sense accuse unit and trouble self-checking unit, lets the wisdom street lamp change luminance under the condition of difference to effectively having solved the street lamp that exists among the comparison file and having opened the problem that increases the electric energy loss repeatedly, prolonged the life of wisdom street lamp by a wide margin, reduced the fault rate of street lamp.

(2) The integrated intelligent street lamp control management system based on the Internet of things comprises a video monitoring unit, an intelligent identification module, a flow analysis module, a data feedback module, a video acquisition module, a video sending module and a command receiving module, wherein the output end of the video monitoring unit is respectively connected with the input ends of the intelligent identification module and the video acquisition module, the output end of the intelligent identification module is connected with the input end of the flow analysis module, the output end of the flow analysis module is connected with the input end of the data feedback module, the video acquisition module is in bidirectional connection with the video sending module, the input end of the video sending module is connected with the output end of the command receiving module, an environment sensing and control unit comprises the Internet, a meteorological information module, an environment sensor, an information acquisition module, an information display module, an information feedback module and an information sending module, the internet and the meteorological information module realize the both way junction, and the meteorological information module realizes the both way junction with the information display module, the environmental sensor realizes the both way junction with the information acquisition module, and the output of environmental sensor is connected with the input of information feedback module, the output of information acquisition module is connected with the input of information sending module, utilize the video monitoring unit to detect the traffic stream people flow in street lamp irradiation area respectively, the control unit is felt to the environment detects external weather and illumination intensity, thereby convenient realization is to the intelligent management control of wisdom street lamp.

(3) This wisdom street lamp control management system integrates based on thing networking, include voltage sensor through trouble self-checking unit, current sensor, data acquisition module, fault analysis module, trouble feedback module and data transmission module, data acquisition module's output respectively with voltage sensor, current sensor's input is connected, and data acquisition module's output is connected with fault analysis module's input, fault analysis module's output respectively with trouble feedback module, data transmission module's input is connected, utilize trouble self-checking module to detect the voltage current of wisdom street lamp, thereby can let the maintainer can improve the maintenance efficiency to the wisdom street lamp.

(4) The control method of the integrated intelligent street lamp control management system based on the Internet of things comprises the steps of collecting pedestrian and driving data around a street lamp through a video monitor in a video monitoring unit, sending the collected data to an intelligent identification module for intelligent identification, analyzing the pedestrian and driving through a flow analysis module for specific flow analysis, sending an analysis result to a processor through a data feedback module, controlling the street lamp control module through the processor according to the analysis data sent by the data feedback module, adjusting the brightness of the street lamp through a brightness adjustment module in the street lamp control module according to the flow of the pedestrian and the driving, acquiring weather information in a street lamp area through an internet by a weather information module in an environment sensing control unit, and displaying the weather information in the area through an information display module, the system comprises an environment sensor, an information acquisition module, a processor, a brightness adjustment module, a voltage sensor and a current sensor, wherein the environment sensor is used for monitoring the illumination, air humidity and wind power conditions around a street lamp in real time, the information acquisition module is used for acquiring data information acquired by the environment sensor, the information transmission module is used for transmitting the data information to the processor, the processor is used for controlling a street lamp control module according to monitoring data transmitted by the information transmission module, the brightness adjustment module in the street lamp control module is used for adjusting the brightness of the street lamp according to the illumination, air humidity and wind power conditions around the street lamp, the voltage sensor and the current sensor in a fault self-checking unit are used for monitoring the voltage and the current in the working process of the street lamp in real time, the data acquisition module is used for acquiring the monitoring data, the acquired data are transmitted to a fault analysis module, and the fault analysis module, in the fault analysis module, the analysis result is sent to the processor through the fault feedback module, in addition, the data sending module simultaneously sends fault information to the data storage cloud end, the data input module classifies the fault analysis result in the fault self-checking unit into fault types by the data classification module and sends the classified fault information to the data storage cloud end through the data storage module, the fault information in the data storage cloud end is sent to the corresponding subarea management terminal, the fault street lamp information is processed in time by the information processing module in the subarea management terminal, the position of the fault street lamp is positioned by the street lamp positioning module in the subarea management terminal and the GPRS positioning module in the intelligent management system, the street lamp is controlled to be turned on and off by the time setting module, and the street lamp is intelligently controlled by the on-off control module, the intelligent street lamp control management system is reasonable in overall control management, the loss of the street lamps to electric energy and the fault rate of the street lamps can be greatly reduced, the service life of the street lamps can be prolonged, and the management effect of the intelligent street lamps can be greatly improved by utilizing the multiple sensing and controlling units.

Drawings

FIG. 1 is a block diagram of the intelligent street lamp control management system according to the present invention;

FIG. 2 is a schematic block diagram of the intelligent management system of the present invention;

FIG. 3 is a schematic block diagram of the partition management terminal according to the present invention;

FIG. 4 is a schematic block diagram of the structure of a video monitoring unit according to the present invention;

FIG. 5 is a schematic block diagram of an environment sensing and controlling unit according to the present invention;

FIG. 6 is a schematic block diagram of the structure of the self-checking unit for faults according to the present invention;

FIG. 7 is a schematic block diagram of the structure of a data processing module according to the present invention;

FIG. 8 is a schematic block diagram of the structure of a street lamp control module according to the present invention;

FIG. 9 is a flowchart of a management method of the intelligent street lamp control management system according to the present invention;

fig. 10 is a schematic block diagram of the structure of the control management terminal, the partition management terminal and the intelligent management system according to the present invention.

In the figure, 1-control management terminal, 2-partition management terminal, 21-information processing module, 22-street lamp positioning module, 23-information transmission module, 3-intelligent management system, 31-processor, 32-video monitoring unit, 321-video monitor, 322-intelligent identification module, 323-flow analysis module, 324-data feedback module, 325-video acquisition module, 326-video transmission module, 327-instruction receiving module, 33-environment sensing control unit, 331-internet, 332-weather information module, 333-environment sensor, 334-information acquisition module, 335-information display module, 336-information feedback module, 337-information transmission module, 34-fault unit, self-checking module, and the like, 341-a voltage sensor, 342-a current sensor, 343-a data acquisition module, 344-a fault analysis module, 345-a fault feedback module, 346-a data transmission module, 35-a street lamp control module, 351-an on-off control module, 352-a brightness adjustment module, 353-a time setting module, 354-an information receiving module, 36-a GPRS positioning module, 37-a data processing module, 371-a data output module, 372-a data input module, 373-a data classification module, 374-a data storage module, 375-a data acquisition module and a 4-a data storage cloud.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention provides a technical solution: an integrated intelligent street lamp control management system based on the Internet of things and a method thereof comprise a control management terminal 1, a partition management terminal 2, an intelligent management system 3 and a data storage cloud end 4, wherein the control management terminal 1 is respectively in bidirectional connection with the partition management terminal 2 and the data storage cloud end 4, the partition management terminal 2 is respectively in bidirectional connection with the intelligent management system 3 and the data storage cloud end 4, and the output end of the intelligent management system 3 is connected with the input end of the data storage cloud end 4.

Referring to fig. 2-3, the intelligent management system 3 includes a processor 31, a video monitoring unit 32, an environment sensing and controlling unit 33, a fault self-checking unit 34, a street lamp control module 35, a GPRS positioning module 36, and a data processing module 37, where the processor 31 is respectively connected to the video monitoring unit 32, the environment sensing and controlling unit 33, the fault self-checking unit 34, the street lamp control module 35, the GPRS positioning module 36, and the data processing module 37 in a bidirectional manner, and the partition management terminal 2 includes an information processing module 21, a street lamp positioning module 22, and an information transmission module 23.

Referring to fig. 4, the video monitoring unit 32 includes a video monitor 321, an intelligent recognition module 322, a traffic analysis module 323, a data feedback module 324, a video capture module 325, a video sending module 326 and a command receiving module 327, an output end of the video monitor 321 is connected to input ends of the intelligent recognition module 322 and the video capture module 325 respectively, an output end of the intelligent recognition module 322 is connected to an input end of the traffic analysis module 323, an output end of the traffic analysis module 323 is connected to an input end of the data feedback module 324, the video capture module 325 is connected to the video sending module 326 in a bidirectional manner, and an input end of the video sending module 326 is connected to an output end of the command receiving module 327.

Referring to fig. 5, the environmental sensing and controlling unit 33 includes an internet 331, a weather information module 332, an environmental sensor 333, an information collecting module 334, an information displaying module 335, an information feedback module 336, and an information sending module 337, where the internet 331 and the weather information module 332 are bidirectionally connected, the weather information module 332 and the information displaying module 335 are bidirectionally connected, the environmental sensor 333 and the information collecting module 334 are bidirectionally connected, an output end of the environmental sensor 333 is connected with an input end of the information feedback module 336, and an output end of the information collecting module 334 is connected with an input end of the information sending module 337.

Referring to fig. 6, the fault self-checking unit 34 includes a voltage sensor 341, a current sensor 342, a data acquisition module 343, a fault analysis module 344, a fault feedback module 345 and a data sending module 346, an output end of the data acquisition module 343 is connected to input ends of the voltage sensor 341 and the current sensor 342, an output end of the data acquisition module 343 is connected to an input end of the fault analysis module 344, and an output end of the fault analysis module 344 is connected to input ends of the fault feedback module 345 and the data sending module 346.

Referring to fig. 7, the data processing module 37 includes a data output module 371, a data input module 372, a data classification module 373, a data storage module 374 and a data acquisition module 375, wherein an input end of the data output module 371 is connected to an output end of the data acquisition module 375, an output end of the data input module 372 is connected to an input end of the data classification module 373, and an output end of the data classification module 373 is connected to an input end of the data storage module 374.

Referring to fig. 8, the street lamp control module 35 includes an on-off control module 351, a brightness adjustment module 352, a time setting module 353 and an information receiving module 354, wherein an input end of the on-off control module 351 is connected to an output end of the time setting module 353, an input end of the time setting module 353 is connected to an output end of the information receiving module 354, and an input end of the information receiving module 354 is connected to an output end of the brightness adjustment module 352.

Referring to fig. 9, a control method of an integrated intelligent street lamp control management system based on the internet of things specifically includes the following steps:

s1, acquiring flow information: the pedestrian and vehicle data around the street lamp are collected by the video monitor 321 in the video monitoring unit 32, the collected data are sent to the intelligent identification module 322 for intelligent identification, then the pedestrian and vehicle are analyzed by the flow analysis module 323 for specific flow analysis, the analysis result is sent to the processor 31 by the data feedback module 324, the processor 31 controls the street lamp control module 35 according to the analysis data sent by the data feedback module 324, and the brightness of the street lamp is adjusted by the brightness adjusting module 352 in the street lamp control module 35 according to the flow of the pedestrian and the vehicle;

s2, meteorological information acquisition: the weather information module 332 in the environment sensing and controlling unit 33 obtains weather information, the weather information module 332 obtains weather information of street lamp area in real time through the internet 331, and the information display module 335 displays the weather information of the area, the environmental sensor 333 monitors the illumination, air humidity and wind conditions around the street lamp in real time, the data information monitored and acquired by the environmental sensor 333 is acquired by the information acquisition module 334, and transmits the data information to the processor 31 through the information transmitting module 337, and then the processor 31 transmits the data information to the processor 31 according to the monitoring data transmitted by the information transmitting module 337, the street lamp control module 35 is controlled to control the lighting of the street lamp, the air humidity and the wind power, the brightness adjusting module 352 in the street lamp control module 35 is used for adjusting the brightness of the street lamp;

s3, street lamp fault self-checking: the voltage and the current in the working process of the street lamp are monitored in real time through a voltage sensor 341 and a current sensor 342 in the fault self-checking unit 34, monitoring data are collected through a data collecting module 343, the collected data are sent to a fault analyzing module 344, the voltage and the current are analyzed abnormally through the fault analyzing module 344, an analysis result is sent to the processor 31 through a fault feedback module 345 in the fault analyzing module 344, and in addition, fault information is sent to the data storage cloud 4 through the data sending module 346;

s4, fault early warning information: classifying the fault analysis result in the fault self-checking unit 34 by using the data classification module 373 through the data input module 372, and sending the classified fault information to the data storage cloud 4 through the data storage module 374;

s5, street lamp fault processing: fault information in the data storage cloud 4 is sent to the corresponding partition management terminal 2, fault street lamp information is processed in time by using an information processing module 21 in the partition management terminal 2, a street lamp positioning module 22 in the partition management terminal 2 and a GPRS positioning module 36 in the intelligent management system 3 are used for positioning a fault street lamp, a time setting module 353 is used for carrying out on-off control on the street lamp, and an on-off control module 351 is used for carrying out intelligent control on the street lamp.

Referring to fig. 10, a plurality of partition management terminals 2 are provided, and each partition management terminal 2 is in bidirectional connection with the control management terminal 1, wherein each partition management terminal 2 and each partition management terminal 2 correspondingly manage a plurality of intelligent management systems 3.

And those not described in detail in this specification are well within the skill of those in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.