CN110139450B - Street lamp control system based on Internet of things - Google Patents

Abstract

The invention discloses an Internet of things street lamp control system, which realizes the Internet of things of street lamp equipment and solar street lamp controllers through an independent Internet of things module, and the Internet of things module can be matched with the solar street lamp controllers of different communication protocols, respectively analyzes street lamp information and storage battery information transmitted by the solar street lamp controllers of different communication protocols into street lamp information and storage battery information which can be identified by a server, and analyzes control information issued by the server into control information which can be identified by the solar street lamp controllers of different communication protocols.

Description

Street lamp control system based on Internet of things

Technical Field

The invention relates to the technical field of the Internet of things, in particular to a street lamp control system of the Internet of things.

Background

In recent years, along with the development of social economy, people pay more and more attention to the management of urban street lamps, and the control of the urban street lamps is also an important work in urban management. In urban street lamp control systems, solar street lamp control systems are a trend of development in recent years in order to save resources. The solar street lamp controller in the solar street lamp control system is mainly used for controlling the work of a solar cell panel, a storage battery and street lamp equipment, and is an important component in the solar street lamp system. The communication protocols of each manufacturer produced by the existing solar street lamp controllers are different, if the function of the Internet of things of street lamp equipment is to be realized, the Internet of things solar street lamp controllers with the function of the Internet of things of the same manufacturer must be selected, so that the following two problems are caused:

1. the price of the Internet of things solar street lamp controller with the Internet of things function of the same manufacturer is usually much higher than that of a common solar street lamp controller without the Internet of things function;

2. if the Internet of things solar street lamp controllers of different factories are selected in one street lamp engineering project, the Internet of things of the whole street lamp engineering project can not be realized or the realization is complex and the cost is high because the communication protocols of the Internet of things solar street lamp controllers of different factories are different.

In view of this, specially put forward this application, an thing networking street lamp control system can realize the thing networking of different communication protocol controllers.

Disclosure of Invention

The invention provides an Internet of things street lamp control system aiming at the defects of the prior art, so that the problems that the existing Internet of things solar street lamp control system cannot realize the Internet of things by using various solar street lamp controllers, and has small selectivity and high cost are solved.

The invention provides an Internet of things street lamp control system which comprises street lamp equipment, an Internet of things module, a solar street lamp controller, a storage battery, a solar cell panel, a server and a display module;

the solar street lamp controller is in bidirectional connection with the street lamp equipment, the Internet of things module and the storage battery, the output end of the solar cell panel is in communication connection with the input end of the solar street lamp controller, the Internet of things module is in bidirectional connection with the server, and the server is in bidirectional connection with the display module;

the system comprises an Internet of things module, a server, a display module, a communication protocol format, a storage battery module, a communication protocol format, a storage battery module and a display module, wherein the Internet of things module analyzes street lamp information and storage battery information acquired by a solar street lamp controller into the street lamp information and the storage battery information which can be identified by the server, and transmits the analyzed street lamp information and the analyzed storage battery information to the server so that the server controls the display module to display corresponding information; and analyzing the control information issued by the server into control information in a communication protocol format which can be identified by the solar street lamp controller, and transmitting the control information to the solar street lamp controller so that the solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information.

Further, as an executable scheme, the solar street lamp controller is used for controlling the solar panel to charge the storage battery in the daytime, controlling the storage battery to supply power for the street lamp equipment at night, and performing charge and discharge management on the storage battery.

Further, as an executable scheme, the solar street lamp controller communication protocol format may be any one of the following communication protocol formats:

infrared communication, bluetooth communication, general packet radio service technology GPRS, code division multiple access CDMA, wireless network WiFi, zigBee technology, and radio frequency identification RFID technology.

Further, as an executable scheme, the internet of things module is a data transmission module capable of analyzing data information transmitted by the controller in various communication protocol formats.

Further, as an executable scheme, the server is further configured to initiate a protocol modification command carrying a required protocol modification format to the internet of things module, and perform remote code update on the internet of things module according to the protocol modification command carrying the required protocol modification format, so as to modify a protocol analysis code of the internet of things module into a protocol analysis code of the required protocol modification format.

Further, as an executable scheme, the internet of things module is further configured to receive a protocol changing command carrying a required format of a communication protocol issued by the server, so that the server performs remote code update according to the protocol changing command carrying the required format of the communication protocol, and changes the protocol analysis code into the protocol analysis code of the required format of the communication protocol.

Further, as an executable scheme, the internet of things module comprises a power module, a 2G transmission module and a communication interface module;

the output end of the power supply module is connected with the input end of the 2G transmission module, and the 2G transmission module is connected with the communication interface module;

the 2G transmission module analyzes the street lamp information and the storage battery information which are received by the communication interface module and collected by the solar street lamp controller into street lamp information and storage battery information in a communication protocol format which can be identified by the server, and transmits the analyzed street lamp information and storage battery information to the server so that the server controls the display module to display corresponding information; the received control information issued by the server is analyzed into control information in a communication protocol format which can be identified by the solar street lamp controller, and the control information is transmitted to the solar street lamp controller through a communication interface module so that the solar street lamp controller controls street lamp equipment and a storage battery according to the analyzed control information; and receiving a protocol changing command carrying a required communication protocol changing format issued by the server, so that the server can update the remote code according to the protocol changing command carrying the required communication protocol changing format, and change the protocol analysis code into the protocol analysis code of the required communication protocol changing format.

Further, as an executable scheme, the communication interface module is any one of the following interfaces: the system comprises an RS-232 serial communication interface, an RS-485 serial communication interface, a Modbus serial communication interface and an infrared communication interface.

Further, as an executable scheme, a plurality of groups of protocol analysis codes for analyzing different communication protocol formats are prestored in the internet of things module;

the internet of things module is used for receiving street lamp information and storage battery information which are sent by the solar street lamp controller and carry self communication protocol format identifiers, matching corresponding protocol analysis codes according to the communication protocol format identifiers of the solar street lamp controller, analyzing the received street lamp information and storage battery information into street lamp information and storage battery information in communication protocol formats which can be identified by the server, and transmitting the analyzed street lamp information and storage battery information to the server so that the server can control the display module to display the corresponding information; and analyzing the control information issued by the server into control information in a communication protocol format which can be identified by the solar street lamp controller, and transmitting the control information to the solar street lamp controller so that the solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information.

By adopting the technical scheme, the invention can obtain the following technical effects: compared with the prior art, the Internet of things street lamp control system realizes the Internet of things of street lamp equipment and solar street lamp controllers through the independent Internet of things module, the Internet of things module can be matched with the solar street lamp controllers with different communication protocols, street lamp information and storage battery information transmitted by the solar street lamp controllers with different communication protocols are respectively analyzed into street lamp information and storage battery information which can be identified by a server, and control information issued by cloud service is analyzed into control information which can be identified by the solar street lamp controllers with different communication protocols, so that if one solar street lamp project engineering adopts the solar street lamp controllers with multiple communication protocol formats, the Internet of things of all street lamp equipment can still be realized, the Internet of things solar street lamp controllers with the Internet of things function are not required to be purchased, the system cost is reduced, the flexibility of system matching is improved, and the selectivity is also more.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an internet of things street lamp control system according to a first embodiment of the present invention;

fig. 2 is a schematic flow chart of an internet of things street lamp control system according to a first embodiment of the invention;

fig. 3 is a schematic flow chart of an internet of things street lamp control system in a second embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The embodiment of the invention provides an Internet of things street lamp control system, which is shown in fig. 1 and comprises street lamp equipment, an Internet of things module, a solar street lamp controller, a storage battery, a solar cell panel, a server and a display module;

the solar street lamp controller is in bidirectional connection with the street lamp equipment, the Internet of things module and the storage battery, the output end of the solar cell panel is in communication connection with the input end of the solar street lamp controller, the Internet of things module is in bidirectional connection with the server, and the server is in bidirectional connection with the display module;

the system comprises an Internet of things module, a server, a display module, a communication protocol format, a storage battery module, a communication protocol format, a storage battery module and a display module, wherein the Internet of things module analyzes street lamp information and storage battery information acquired by a solar street lamp controller into the street lamp information and the storage battery information which can be identified by the server, and transmits the analyzed street lamp information and the analyzed storage battery information to the server so that the server controls the display module to display corresponding information; and analyzing the control information issued by the server into control information in a communication protocol format which can be identified by the solar street lamp controller, and transmitting the control information to the solar street lamp controller so that the solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information.

It should be noted that, in the street lamp control system of the internet of things, the solar street lamp controller can select a solar street lamp controller without the internet of things function, and the main functions of the solar street lamp controller are to control the working state of street lamp equipment, control the solar panel to charge the storage battery in daytime, control the storage battery to supply power to the street lamp equipment at night, and perform charge and discharge management on the storage battery, and basically have the functions of preventing short circuit, preventing reverse connection of lines, indicating state, modifying parameters and the like.

In addition, the server in the street lamp control system of the Internet of things can use a cloud server.

Further, the solar street lamp controller communication protocol format may be any one of the following communication protocol formats:

infrared communication, bluetooth communication, general Packet Radio Service (GPRS), code Division Multiple Access (CDMA), wireless network WiFi, zigBee technology, and RFID technology. Optionally, in order to better adapt to the existing solar street lamp controller, the controller can also select an infrared communication protocol, and the corresponding internet of things module can also be matched with the infrared communication protocol.

Further, as an executable scheme, the internet of things module is a data transmission module capable of analyzing data information transmitted by the controller in various communication protocol formats.

That is, the street lamp control system of the internet of things can analyze street lamp information and storage battery information sent by the solar street lamp controllers with different communication protocols through the internet of things module. In an example, the solar street lamp controller A and the solar street lamp controller B with different communication protocols respectively send the collected street lamp information and the storage battery information to the corresponding internet of things module A and the corresponding internet of things module B, so that the internet of things module A can analyze the street lamp information and the storage battery information collected by the solar street lamp controller A into the street lamp information and the storage battery information in the communication protocol format which can be identified by the server, and the internet of things module B can analyze the street lamp information and the storage battery information collected by the solar street lamp controller B into the street lamp information and the storage battery information in the communication protocol format which can be identified by the server and upload the street lamp information and the storage battery information to the server so as to control the display module to display the corresponding information by the server; of course, the control information issued by the forwarding server can be also analyzed into the control information in a communication protocol format which can be identified by the corresponding solar street lamp controller, so that the corresponding solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information. Therefore, if one solar street lamp project engineering adopts the solar street lamp controllers with various communication protocol formats, the Internet of things of all street lamp equipment can still be realized, and the Internet of things solar street lamp controllers with the Internet of things function do not need to be purchased, so that the system cost is reduced, and meanwhile, the flexibility and the selectivity of system matching are improved.

Further, as an executable scheme, when the analysis protocol code of the internet of things module needs to be changed, the server is further configured to initiate a change protocol command carrying a communication protocol format to the internet of things module, and update the remote code of the internet of things module according to the change protocol command carrying the communication protocol format to change the protocol analysis code of the internet of things module into the protocol analysis code of the communication protocol format.

In an example, in a specific implementation, the internet of things street lamp control system selects the solar street lamp controller a to control the solar street lamp device, the initial protocol analysis code of the internet of things module is a protocol analysis code adapted to the communication protocol format of the solar street lamp controller a, when the internet of things street lamp control system changes the solar street lamp controller used, and selects the solar street lamp controller B to control the solar street lamp device, a server is required to initiate a protocol changing command carrying the communication protocol format of the solar street lamp controller B to the internet of things module, and remote code update is performed on the internet of things module according to the protocol changing command carrying the communication protocol format of the solar street lamp controller B, so that the internet of things can be realized when the solar street lamp controllers with different communication protocol formats are replaced in the internet of things street lamp control system, or the internet of things of street lamp devices and the solar street lamp controllers can also be realized when the solar street lamp controllers with different communication protocol formats are used in the internet of things street lamp control system.

Further, as an executable scheme, after the server issues the protocol changing command carrying the required format of the communication protocol, the internet of things module may be further configured to receive the protocol changing command carrying the required format of the communication protocol issued by the server, so that the server may update the remote code according to the protocol changing command carrying the required format of the communication protocol, and change the protocol analysis code into the protocol analysis code of the required format of the communication protocol.

In order to understand the control system of the street lamp of the internet of things in more detail in this embodiment, a specific embodiment is described below, as shown in fig. 2.

The precondition is that: the communication protocol formats of the solar street lamp controller A and the solar street lamp controller B are different, the street lamp control system of the Internet of things firstly selects the solar street lamp controller A to control the street lamp system, and the initial protocol analysis code of the Internet of things module is a protocol analysis code which is matched with the communication protocol format of the solar street lamp controller A.

Step S1: in the daytime, the solar street lamp controller A controls the solar cell panel to charge the storage battery; at night, the solar street lamp controller A controls the storage battery to supply power for street lamp equipment.

Step S2: the solar street lamp controller A collects street lamp information and storage battery information of street lamp equipment and transmits the street lamp information and storage battery information to the Internet of things module.

Step S3: the internet of things module analyzes the street lamp information and the storage battery information acquired by the solar street lamp controller A into street lamp information and storage battery information in a communication protocol format which can be identified by the server, and transmits the analyzed street lamp information and storage battery information to the server.

Step S4: the server controls the display module to display corresponding information (street lamp information and storage battery information).

The display module may be a displayable device such as a mobile terminal, a computer, a display screen, etc., which is not limited in any way.

Step S5: when the street lamp equipment needs to be controlled (such as lighting parameters, lighting strategy adjustment and the like), the server transmits control information to the Internet of things module.

Step S6: the Internet of things module analyzes the received control information into control information in a communication protocol format which can be identified by the solar street lamp controller A, and transmits the control information to the solar street lamp controller A.

Step S7: and the solar street lamp controller A controls the street lamp equipment and the storage battery according to the analyzed control information.

Step S8: when the street lamp control system of the Internet of things changes the solar street lamp controller B to control the street lamp equipment, the server initiates a protocol changing command carrying the communication protocol format of the solar street lamp controller B to the Internet of things module, and carries out remote code updating on the Internet of things module according to the protocol changing command carrying the communication protocol format of the solar street lamp controller B.

Step S9: the internet of things module receives a protocol changing command and remote code updating which are sent by a server and carry the communication protocol format of the solar street lamp controller B, and changes the protocol analysis code into the protocol analysis code of the communication protocol format of the solar street lamp controller B. Steps S1 to S7 may then be performed, wherein the solar street lamp controller a is replaced by a solar street lamp controller B.

It should be noted that in the process of implementing the above technical scheme, the internet of things module may select an existing internet of things data transmission module, where the existing internet of things data transmission module may include a power module, an MCU, a 2G transmission module and a communication interface module, where the parsing protocol and the command processing are all processed by the MCU, but if the existing internet of things data transmission module is selected, the overall cost of the system is also higher.

The internet of things module of the invention can comprise a power supply module, a 2G transmission module and a communication interface module;

the output end of the power supply module is connected with the input end of the 2G transmission module, and the 2G transmission module is connected with the communication interface module in a bidirectional way;

the 2G transmission module analyzes the street lamp information and the storage battery information which are received by the communication interface module and collected by the solar street lamp controller into street lamp information and storage battery information in a communication protocol format which can be identified by the server, and transmits the analyzed street lamp information and storage battery information to the server so that the server controls the display module to display corresponding information; the received control information issued by the server is analyzed into control information in a communication protocol format which can be identified by the solar street lamp controller, and the control information is transmitted to the solar street lamp controller through a communication interface module so that the solar street lamp controller controls street lamp equipment and a storage battery according to the analyzed control information; and receiving a protocol changing command carrying a required communication protocol changing format issued by the server, so that the server can update the remote code according to the protocol changing command carrying the required communication protocol changing format, and change the protocol analysis code into the protocol analysis code of the required communication protocol changing format.

That is, compared with the existing internet of things data transmission module, the internet of things module of the invention performs protocol analysis, stores analysis protocol codes and the like, all operate by the 2G transmission module, and the analysis protocol codes are directly written into the 2G transmission module, and data transmission is performed through the communication interface module.

Wherein the communication interface module may be any one of the following interfaces: the system comprises an RS-232 interface, an RS-485 interface, a Modbus interface and an infrared transmission interface.

The first embodiment of the invention provides an Internet of things street lamp control system, which realizes the Internet of things of street lamp equipment and solar street lamp controllers through a single Internet of things module, and the Internet of things module can be matched with solar street lamp controllers of different communication protocols, respectively analyzes street lamp information and storage battery information transmitted by the solar street lamp controllers of different communication protocols into street lamp information and storage battery information which can be identified by a server, and analyzes control information issued by cloud services into control information which can be identified by the solar street lamp controllers of different communication protocols, so that if one solar street lamp project engineering adopts the solar street lamp controllers of multiple communication protocol formats, the Internet of things of all street lamp equipment can still be realized, and the Internet of things solar street lamp controllers with the Internet of things function do not need to be purchased, thereby reducing the system cost, simultaneously improving the flexibility of system matching, and having more selectivity.

Example two

In another embodiment, in order to simplify the operation, improve the working efficiency of replacing the solar street lamp controller, avoid updating the analysis protocol codes, and may also pre-store a plurality of groups of protocol analysis codes for analyzing different communication protocol formats in the internet of things module.

In specific implementation, the internet of things module can be used for receiving street lamp information and storage battery information which are sent by the solar street lamp controller and carry self communication protocol format identifiers, matching corresponding protocol analysis codes according to the communication protocol format identifiers of the solar street lamp controller, analyzing the received street lamp information and storage battery information into street lamp information and storage battery information in communication protocol formats which can be identified by the server, and transmitting the analyzed street lamp information and storage battery information to the server so that the server can control the display module to display corresponding information; and analyzing the control information issued by the server into control information in a communication protocol format which can be identified by the solar street lamp controller, and transmitting the control information to the solar street lamp controller so that the solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information. Therefore, if a solar street lamp project engineering adopts a solar street lamp controller with a plurality of communication protocol formats, the Internet of things of all street lamp equipment can still be realized, the Internet of things solar street lamp controller with the Internet of things function is not required to be purchased, the analysis protocol codes of the Internet of things module are not required to be updated again through a server, the overall efficiency of the system is improved, the system cost is reduced, meanwhile, the flexibility of system matching is improved, and the selectivity is also more.

In order to understand the control system of the street lamp of the internet of things in more detail in this embodiment, a specific embodiment is described below, as shown in fig. 3.

The precondition is that: the internet of things street lamp control system simultaneously selects the solar street lamp controller A and the solar street lamp controller B to control street lamp equipment.

Step A1: in daytime, the solar street lamp controller A and the solar street lamp controller B control the corresponding solar panels to charge the storage battery; at night, the solar street lamp controller A and the solar street lamp controller B control the corresponding storage batteries to supply power for the street lamp equipment.

Step A2: the solar street lamp controller A collects street lamp information and storage battery information of street lamp equipment and transmits the street lamp information and the storage battery information carrying the self communication protocol format identification to the Internet of things module A; the solar street lamp controller B collects street lamp information and storage battery information of street lamp equipment and transmits the street lamp information and storage battery information carrying the self communication protocol format identification to the Internet of things module B.

Step A3: the internet of things module A is matched with a corresponding protocol analysis code according to the communication protocol format identification of the solar street lamp controller A, analyzes the received street lamp information and the storage battery information into street lamp information and storage battery information in a communication protocol format which can be identified by a server, and transmits the analyzed street lamp information and storage battery information to the server; the internet of things module B is matched with a corresponding protocol analysis code according to the communication protocol format identification of the solar street lamp controller B, analyzes the received street lamp information and the storage battery information into street lamp information and storage battery information in a communication protocol format which can be identified by the server, and transmits the analyzed street lamp information and storage battery information to the server.

Step A4: and the server controls the display module to display corresponding information according to the received analyzed street lamp information and the storage battery information.

Step A5: when the road lamp equipment is required to be controlled (such as lighting parameters, lighting strategy adjustment and the like), the server transmits control information to the Internet of things module A and the Internet of things module B.

Step A6: the Internet of things module A analyzes the received control information into control information in a communication protocol format which can be identified by the solar street lamp controller A, and transmits the control information to the solar street lamp controller A; the Internet of things module B analyzes the received control information into control information in a communication protocol format which can be identified by the solar street lamp controller B, and transmits the control information to the solar street lamp controller B.

Step A7: the solar street lamp controller A controls the street lamp equipment and the storage battery according to the analyzed control information; and the solar street lamp controller B controls the street lamp equipment and the storage battery according to the analyzed control information.

The second embodiment of the invention provides an internet of things street lamp control system, which realizes the internet of things of street lamp equipment and solar street lamp controllers through a single internet of things module, and the internet of things module can be matched with solar street lamp controllers with different communication protocols, respectively analyzes street lamp information and storage battery information transmitted by the solar street lamp controllers with different communication protocols into street lamp information and storage battery information which can be identified by a server, and analyzes control information issued by cloud services into control information which can be identified by the solar street lamp controllers with different communication protocols, so that if one solar street lamp project engineering adopts the solar street lamp controllers with multiple communication protocol formats, the internet of things of all street lamp equipment can still be realized, and the internet of things solar street lamp controllers with the internet of things function are not required to be purchased, thereby reducing the system cost, simultaneously improving the flexibility of system matching, and having more selectivity.

While preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit or scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims and the equivalents thereof, the present application is intended to cover such modifications and variations.

Claims (4)

1. The street lamp control system based on the Internet of things is characterized by comprising street lamp equipment, an Internet of things module, a solar street lamp controller, a storage battery, a solar cell panel, a server and a display module;

the solar street lamp controller is in bidirectional connection with the street lamp equipment, the Internet of things module and the storage battery, the output end of the solar cell panel is in communication connection with the input end of the solar street lamp controller, the Internet of things module is in bidirectional connection with the server, and the server is in bidirectional connection with the display module;

the system comprises an Internet of things module, a server, a display module, a communication protocol format, a storage battery module, a communication protocol format, a storage battery module and a display module, wherein the Internet of things module analyzes street lamp information and storage battery information acquired by a solar street lamp controller into the street lamp information and the storage battery information which can be identified by the server, and transmits the analyzed street lamp information and the analyzed storage battery information to the server so that the server controls the display module to display corresponding information; the control information issued by the server is analyzed into control information in a communication protocol format which can be identified by the solar street lamp controller, and the control information is transmitted to the solar street lamp controller so that the solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information;

the internet of things module is a data transmission module capable of analyzing data information transmitted by the controller in various communication protocol formats;

the server is further configured to initiate a protocol modification command carrying a communication protocol modification format to the internet of things module, and update a remote code of the internet of things module according to the protocol modification command carrying the communication protocol modification format, so as to change a protocol analysis code of the internet of things module into a protocol analysis code of the communication protocol modification format;

the internet of things module is further configured to receive a protocol changing command carrying a communication protocol format to be changed issued by the server, so that the server performs remote code update according to the protocol changing command carrying the communication protocol format to be changed, and changes the protocol analysis code into a protocol analysis code of the communication protocol format to be changed;

the internet of things module comprises a power supply module, a 2G transmission module and a communication interface module;

the output end of the power supply module is connected with the input end of the 2G transmission module, and the 2G transmission module is connected with the communication interface module;

the 2G transmission module analyzes the street lamp information and the storage battery information which are received by the communication interface module and collected by the solar street lamp controller into street lamp information and storage battery information in a communication protocol format which can be identified by the server, and transmits the analyzed street lamp information and storage battery information to the server so that the server controls the display module to display corresponding information; the received control information issued by the server is analyzed into control information in a communication protocol format which can be identified by the solar street lamp controller, and the control information is transmitted to the solar street lamp controller through a communication interface module so that the solar street lamp controller controls street lamp equipment and a storage battery according to the analyzed control information; receiving a protocol changing command carrying a communication protocol format required to be changed issued by the server, and updating remote codes by the server according to the protocol changing command carrying the communication protocol format required to be changed, so as to change the protocol analysis code into the protocol analysis code of the communication protocol format required to be changed;

a plurality of groups of protocol analysis codes for analyzing different communication protocol formats are prestored in the Internet of things module;

the internet of things module is used for receiving street lamp information and storage battery information which are sent by the solar street lamp controller and carry self communication protocol format identifiers, matching corresponding protocol analysis codes according to the communication protocol format identifiers of the solar street lamp controller, analyzing the received street lamp information and storage battery information into street lamp information and storage battery information in communication protocol formats which can be identified by the server, and transmitting the analyzed street lamp information and storage battery information to the server so that the server can control the display module to display the corresponding information; and analyzing the control information issued by the server into control information in a communication protocol format which can be identified by the solar street lamp controller, and transmitting the control information to the solar street lamp controller so that the solar street lamp controller can control the street lamp equipment and the storage battery according to the analyzed control information.

2. The system of claim 1, wherein the solar street lamp controller is configured to control the solar panel to charge the battery during daytime, control the battery to power the street lamp equipment at night, and manage charging and discharging of the battery.

3. The system of claim 1, wherein the solar street light controller communication protocol format may be any one of the following communication protocol formats:

infrared communication, bluetooth communication, general packet radio service technology GPRS, code division multiple access CDMA, wireless network WiFi, zigBee technology, and radio frequency identification RFID technology.

4. The system of claim 1, wherein the communication interface module is any one of the following interfaces: the system comprises an RS-232 serial communication interface, an RS-485 serial communication interface, a Modbus serial communication interface and an infrared communication interface.