CN113099595A - Intelligent street lamp control management system and automatic dimming method - Google Patents

Abstract

The invention discloses an intelligent street lamp control management system and an automatic dimming method, wherein the intelligent street lamp control management system comprises a data processing center and a plurality of control management subsystems arranged in different areas, each control management subsystem comprises an intelligent gateway and a plurality of lamp control nodes, and the data processing center is respectively connected with the intelligent gateway in each control management subsystem; in the same intelligent control subsystem, the intelligent gateway is connected with the plurality of lamp control nodes through an ad hoc network, and the lamp control nodes are arranged at different street lamps and used for receiving an automatic dimming strategy from the data processing center through the intelligent gateway, controlling the street lamps to perform automatic dimming control according to the strategy, acquiring street lamp information in the working process and uploading the street lamp information to the data processing center through the intelligent gateway. According to the invention, the lighting strategy is formulated according to the actual conditions of the street lamp nodes, so that the accurate lighting control of each street lamp node is realized, and the utilization rate of electric energy is improved.

Description

Intelligent street lamp control management system and automatic dimming method

Technical Field

The invention relates to an intelligent street lamp, in particular to an intelligent street lamp control and management system and an automatic dimming method.

Background

Wisdom street lamp is the important component part in wisdom city. The urban street lamp remote centralized control system is applied to urban sensors, a power line carrier/ZIGBEE communication technology, a wireless GPRS/CDMA communication technology and the like, street lamps in a city are connected in series to form an internet of things, and remote centralized control and management of the street lamps are realized.

Generally, the control and dimming strategies of street lamps are relatively consistent, such as turning off the lamps in the daytime and turning on the lamps at night; however, the actual times of brightness (sunrise) and darkness (sunset) are different in different seasons and different areas, and if the dimming control is performed by using a uniform standard, the lighting control is not accurate, and the utilization rate of electric energy is reduced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an intelligent street lamp control management system and an automatic dimming method, which can make an illumination strategy according to the actual conditions of street lamp nodes, thereby realizing accurate illumination control of each street lamp node and improving the utilization rate of electric energy.

The purpose of the invention is realized by the following technical scheme: an intelligent street lamp control and management system comprises a data processing center and a plurality of control and management subsystems arranged in different areas, wherein each control and management subsystem comprises an intelligent gateway and a plurality of lamp control nodes, and the data processing center is respectively connected with the intelligent gateway in each control and management subsystem;

in the same intelligent control subsystem, the intelligent gateway is connected with a plurality of lamp control nodes through an ad hoc network, and the lamp control nodes are arranged at different street lamps and used for receiving an automatic dimming strategy from a data processing center through the intelligent gateway, controlling the street lamps to perform automatic dimming control according to the strategy, acquiring street lamp information in the working process and uploading the street lamp information to the data processing center through the intelligent gateway;

the data processing center is used for formulating an automatic dimming strategy of each lamp control node and issuing the strategy to the lamp control nodes in the intelligent control subsystem through the intelligent gateways in the intelligent control subsystems; and receiving and summarizing the street lamp information uploaded by the intelligent gateways in the intelligent control subsystems, and giving an alarm when the street lamp information is abnormal.

An automatic dimming method for intelligent street lamp control management comprises the following steps:

s1, calculating sunrise and sunset time by a data processing center according to the time zone and the position information of each light control node:

wherein, sunrise time t₁The calculation method is as follows:

sunset time t₂The calculation method is as follows:

t₂＝24*(1+(T*15-m)/180)-t₁；

wherein T represents a time zone, m represents longitude, n represents latitude, the longitude and the latitude adopt an angle system, east longitude and north latitude are positive, west longitude and south latitude are negative, and k represents date sequence number, namely a sequence of the day of dimming in one year;

s2, the data processing center makes an automatic dimming strategy of each lamp control node:

sunset time t at a lamp control node₂Time to sunrise t₁During the period, the period is divided into M periods, and corresponding dimming brightness is set for each period;

sunrise time t at a lamp control node₁Time to sunset t₂During the period, dividing the ambient brightness into a plurality of brightness intervals, and setting corresponding dimming brightness for each brightness interval;

s3, the data processing center issues the automatic dimming strategy to the corresponding lamp control nodes in each intelligent control subsystem through the intelligent gateway in the intelligent control subsystem;

s4, after each lamp control node receives the automatic dimming strategy, at sunset time t₂Time to sunrise t₁Meanwhile, dimming control is carried out on the street lamp according to dimming brightness of different time periods; at sunrise time t₁Time to sunset t₂And in the period, dimming control is carried out on the street lamp according to the brightness interval of the ambient brightness.

The invention has the beneficial effects that: the street lamps in the city are connected in series to form the Internet of things, so that remote centralized control and management of the street lamps are realized, the public lighting management level can be effectively improved, the maintenance and management cost is reduced, meanwhile, the abnormal conditions of the street lamps can be comprehensively monitored and alarmed, so that the maintenance is facilitated, the normal work of the street lamps is ensured, meanwhile, the lighting strategy is formulated according to the actual conditions of the street lamp nodes, the accurate lighting control of each street lamp node can be realized, and the utilization rate of electric energy is improved.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a schematic diagram of a lamp control node;

FIG. 3 is a flow chart of the method of the present invention.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

As shown in fig. 1, an intelligent street lamp control and management system includes a data processing center and a plurality of control and management subsystems arranged in different areas, where the control and management subsystems include an intelligent gateway and a plurality of lamp control nodes, and the data processing center is connected to the intelligent gateway in each control and management subsystem;

in the same intelligent control subsystem, the intelligent gateway is connected with a plurality of lamp control nodes through an ad hoc network, and the lamp control nodes are arranged at different street lamps and used for receiving an automatic dimming strategy from a data processing center through the intelligent gateway, controlling the street lamps to perform automatic dimming control according to the strategy, acquiring street lamp information in the working process and uploading the street lamp information to the data processing center through the intelligent gateway;

the data processing center is used for formulating an automatic dimming strategy of each lamp control node and issuing the strategy to the lamp control nodes in the intelligent control subsystem through the intelligent gateways in the intelligent control subsystems; and receiving and summarizing the street lamp information uploaded by the intelligent gateways in the intelligent control subsystems, and giving an alarm when the street lamp information is abnormal.

As shown in fig. 2, in the embodiment of the present application, the lamp control node includes a wireless networking module, an intelligent lamp control module, a GPS positioning module, a current collecting module for collecting street lamp working current information, a voltage collecting module for collecting street lamp working voltage information, and an illumination intensity collecting module for collecting illumination information around the street lamp;

the output ends of the current acquisition module, the voltage acquisition module, the illumination intensity acquisition module and the GPS positioning module are all connected with the intelligent lamp control module, and the intelligent lamp control module is connected with the wireless networking module;

the wireless networking module in each lamp control node establishes an ad hoc network communication network through a Sub1G wireless ad hoc network protocol by an intelligent gateway;

the intelligent lamp control module is used for transmitting information acquired by the current acquisition module, the voltage acquisition module and the GPS positioning module to the intelligent gateway at regular time through an ad hoc network communication network, transmitting the information to the data processing center through the intelligent gateway, and simultaneously carrying out automatic dimming control on the street lamp by combining information acquired by the illumination intensity module based on an automatic dimming strategy from the data processing center.

In an embodiment of the present application, the data processing center includes:

the communication module is used for establishing communication with each intelligent gateway;

the intelligent street lamp control management system comprises an account management module, a password management module and a control module, wherein the account management module is used for creating, logging in and managing account information of the intelligent street lamp control management system, and the account information comprises account information and password information;

the strategy formulation module is used for formulating an automatic dimming strategy for each lamp control node and issuing the strategy to the lamp control nodes in the intelligent control subsystem through the intelligent gateways in each intelligent control subsystem;

the data monitoring module is used for summarizing and comprehensively monitoring the lamp control node information of each control management subsystem, and judging the lamp control node as an alarm node when the information uploaded by the lamp control node exceeds a set threshold range;

the display module is used for displaying alarm prompt information and data of the alarm nodes when the alarm nodes exist;

the database module is used for storing the lamp control node information of each control management subsystem;

the historical data query module is used for querying the historical information in the database module by a user;

and the historical curve generation module is used for performing curve generation on the information of the lamp controller nodes according to the user instruction to obtain the voltage and current curves of the street lamps at each lamp controller node, and displaying the curves in the display module.

In the embodiment of the application, after the intelligent gateway establishes communication with the data processing center, heartbeat data is sent to the data processing center every 30 seconds, so that disconnection caused by long-time non-communication is avoided.

As shown in fig. 3, an automatic dimming method for intelligent street lamp control management includes the following steps:

s1, calculating sunrise and sunset time by a data processing center according to the time zone and the position information of each light control node:

wherein, sunrise time t₁The calculation method is as follows:

sunset time t₂The calculation method is as follows:

t₂＝24*(1+(T*15-m)/180)-t₁；

wherein T represents a time zone, for example, the chinese time zone is an east 8 zone, the time zone is 8, m represents longitude, n represents latitude, the longitude and latitude adopt an angle system, east longitude and north latitude are positive, west longitude and south latitude are negative, k represents a date sequence number, that is, a sequence of the day of dimming in one year; for example, if day 2, day 11 is day 42 of the year, day 2, day 12 is day 42.

S2, the data processing center makes an automatic dimming strategy of each lamp control node:

day at lamp control nodeTime of fall t₂Time to sunrise t₁During the period, the period is divided into M periods, and corresponding dimming brightness is set for each period;

sunrise time t at a lamp control node₁Time to sunset t₂During the period, dividing the ambient brightness into a plurality of brightness intervals, and setting corresponding dimming brightness for each brightness interval;

s3, the data processing center issues the automatic dimming strategy to the corresponding lamp control nodes in each intelligent control subsystem through the intelligent gateway in the intelligent control subsystem;

s4, after each lamp control node receives the automatic dimming strategy, at sunset time t₂Time to sunrise t₁Meanwhile, dimming control is carried out on the street lamp according to dimming brightness of different time periods; at sunrise time t₁Time to sunset t₂And in the period, dimming control is carried out on the street lamp according to the brightness interval of the ambient brightness.

While the foregoing description shows and describes a preferred embodiment of the invention, it is to be understood, as noted above, that the invention is not limited to the form disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and may be modified within the scope of the inventive concept described herein by the above teachings or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. The utility model provides an wisdom street lamp control management system which characterized in that: the intelligent gateway control system comprises a data processing center and a plurality of control management subsystems arranged in different areas, wherein each control management subsystem comprises an intelligent gateway and a plurality of lamp control nodes, and the data processing center is respectively connected with the intelligent gateway in each control management subsystem;

in the same intelligent control subsystem, the intelligent gateway is connected with a plurality of lamp control nodes through an ad hoc network, and the lamp control nodes are arranged at different street lamps and used for receiving an automatic dimming strategy from a data processing center through the intelligent gateway, controlling the street lamps to perform automatic dimming control according to the strategy, acquiring street lamp information in the working process and uploading the street lamp information to the data processing center through the intelligent gateway;

the data processing center is used for formulating an automatic dimming strategy of each lamp control node and issuing the strategy to the lamp control nodes in the intelligent control subsystem through the intelligent gateways in the intelligent control subsystems; and receiving and summarizing the street lamp information uploaded by the intelligent gateways in the intelligent control subsystems, and giving an alarm when the street lamp information is abnormal.

2. The intelligent street lamp control and management system of claim 1, wherein: the lamp control node comprises a wireless networking module, an intelligent lamp control module, a GPS positioning module, a current acquisition module for acquiring street lamp working current information, a voltage acquisition module for acquiring street lamp working voltage information and an illumination intensity acquisition module for acquiring illumination information around the street lamp;

the output ends of the current acquisition module, the voltage acquisition module, the illumination intensity acquisition module and the GPS positioning module are all connected with the intelligent lamp control module, and the intelligent lamp control module is connected with the wireless networking module;

the wireless networking module in each lamp control node establishes an ad hoc network communication network through a Sub1G wireless ad hoc network protocol by an intelligent gateway;

the intelligent lamp control module is used for transmitting information acquired by the current acquisition module, the voltage acquisition module and the GPS positioning module to the intelligent gateway at regular time through an ad hoc network communication network, transmitting the information to the data processing center through the intelligent gateway, and simultaneously carrying out automatic dimming control on the street lamp by combining information acquired by the illumination intensity module based on an automatic dimming strategy from the data processing center.

3. The intelligent street lamp control and management system of claim 1, wherein: the data processing center includes:

the communication module is used for establishing communication with each intelligent gateway;

the intelligent street lamp control management system comprises an account management module, a password management module and a control module, wherein the account management module is used for creating, logging in and managing account information of the intelligent street lamp control management system, and the account information comprises account information and password information;

the strategy formulation module is used for formulating an automatic dimming strategy for each lamp control node and issuing the strategy to the lamp control nodes in the intelligent control subsystem through the intelligent gateways in each intelligent control subsystem;

the data monitoring module is used for summarizing and comprehensively monitoring the lamp control node information of each control management subsystem, and judging the lamp control node as an alarm node when the information uploaded by the lamp control node exceeds a set threshold range;

the display module is used for displaying alarm prompt information and data of the alarm nodes when the alarm nodes exist;

the database module is used for storing the lamp control node information of each control management subsystem;

the historical data query module is used for querying the historical information in the database module by a user;

and the historical curve generation module is used for performing curve generation on the information of the lamp controller nodes according to the user instruction to obtain the voltage and current curves of the street lamps at each lamp controller node, and displaying the curves in the display module.

4. The intelligent street lamp control and management system of claim 1, wherein: after the intelligent gateway establishes communication with the data processing center, heartbeat data is sent to the data processing center every 30 seconds, and disconnection caused by long-time non-communication is avoided.

5. An automatic dimming method for intelligent street lamp control management, based on the system of any one of claims 1 to 4, characterized in that: the method comprises the following steps:

s1, calculating sunrise and sunset time by a data processing center according to the time zone and the position information of each light control node:

wherein the sunrise timet₁The calculation method is as follows:

sunset time t₂The calculation method is as follows:

t₂＝24*(1+(T*15-m)/180)-t₁；

wherein T represents a time zone, m represents longitude, n represents latitude, the longitude and the latitude adopt an angle system, east longitude and north latitude are positive, west longitude and south latitude are negative, and k represents date sequence number, namely a sequence of the day of dimming in one year;

s2, the data processing center makes an automatic dimming strategy of each lamp control node:

sunset time t at a lamp control node₂Time to sunrise t₁During the period, the period is divided into M periods, and corresponding dimming brightness is set for each period;

sunrise time t at a lamp control node₁Time to sunset t₂During the period, dividing the ambient brightness into a plurality of brightness intervals, and setting corresponding dimming brightness for each brightness interval;

s3, the data processing center issues the automatic dimming strategy to the corresponding lamp control nodes in each intelligent control subsystem through the intelligent gateway in the intelligent control subsystem;

s4, after each lamp control node receives the automatic dimming strategy, at sunset time t₂Time to sunrise t₁Meanwhile, dimming control is carried out on the street lamp according to dimming brightness of different time periods; at sunrise time t₁Time to sunset t₂And in the period, dimming control is carried out on the street lamp according to the brightness interval of the ambient brightness.

Images