CN204168560U - A kind of solar street light Monitoring and control system - Google Patents

Abstract

The utility model belongs to the field of wireless communication, relates to the Internet of Things technology, in particular to a solar street lamp monitoring and control system; including a wireless sensor network module, a gateway, a control center host computer, and a host computer, wherein the wireless sensor network module includes a wireless sensor node, coordinating node; wherein the wireless sensor node is a mesh network topology, connected to the coordinating node, the coordinating node is connected to the gateway, and transmits the data of the wireless sensor node to the gateway, wherein the The gateway is preferably sent to the control center in the form of wireless WIFI; the utility model has the advantages of node ad hoc network, wide monitoring range, low power consumption, good flexibility, low system cost and little impact on the ecological environment.

Description

A solar street light monitoring and control system

technical field

    The utility model belongs to the field of wireless communication, relates to the Internet of Things technology, and in particular relates to a system for wireless transmission and reception through the ZigBee protocol.

Background technique

    Among the many urban infrastructure hardware, urban lighting facilities such as urban street lights and landscape lights are undoubtedly the highlights of the entire city at night, adding infinite charm to the night of the city. The lack of energy (electric energy, coal, water, non-ferrous metals, etc.) has become the bottleneck of the sustainable and stable economic growth at present. The traditional street lamp control method is not only inefficient, but also greatly wastes electric energy. The lighting and management of traditional street lamps are wasteful, the service life of street lamps is short, the remote control and inspection cannot be monitored, the manual workload is large, the response efficiency of fault maintenance is low, and the statistical query function is weak. In order to meet the standards of a conservation-oriented and sustainable development society, starting from the perspective of saving electric energy, improving management level and improving the social effect of urban investment environment, the intelligent construction of street lamps has become an inevitable trend of municipal construction.

Contents of the invention

According to the current management status of the national street lamp management department, comprehensively analyze the actual situation of the construction of urban functional lighting street lamps, and build a solar street lamp monitoring and control system based on Internet of Things technology.

The following are the specific technical solutions:

A solar street lamp monitoring and control system, including a wireless sensor network module, a gateway, a control center host computer, and a host computer, wherein the wireless sensor network module includes a wireless sensor node and a coordinating node; wherein the wireless sensor node It is a mesh network topology, connected to the coordinating node, and the coordinating node is connected to the gateway, and transmits the data of the wireless sensor nodes to the gateway, wherein the gateway preferably sends the data to the control center through wireless WIFI.

The wireless sensor node includes a sensor module, a processor module, a wireless communication module, and a power supply module.

The sensor module includes a voltage sensor, a data acquisition circuit, and an amplification circuit.

Described processor module is the one-chip computer of model MSP430F5638 and includes A/D conversion circuit.

The wireless communication module is a single-chip microcomputer of model CC2530.

Described gateway comprises receiving data part, data processing part, data sending part, and wherein said data receiving part comprises the wireless transceiver module that model is CC2530; Data processing part comprises Cortex-M3 processor; Data transmission part comprises ZigBee transmission protocol and wireless transceiver modules.

The transmission mode between the sensor node and the coordination node is ZigBee wireless transmission.

The secondary development environment of the upper computer of the control center is Niagara software.

The data transmission mode between the gateway and the control center is preferably a wired network.

Described upper computer is a kind of in PC and handheld mobile network equipment.

Beneficial effects: the solar street lamp monitoring system involved in the utility model has the advantages of node self-organizing network, wide monitoring range, low power consumption, good flexibility, low system cost and little impact on the ecological environment, etc., and it is easier to realize the monitoring of solar street lamps monitoring and control.

Description of drawings

Fig. 1 is a system structure diagram of the utility model.

Fig. 2 is a block diagram of the sensor node hardware structure of the utility model.

Fig. 3 is a block diagram of the hardware structure of the gateway node of the present invention.

specific embodiment

A solar street lamp monitoring and control system, including a wireless sensor network module, a gateway, and a control center host computer, wherein the wireless sensor network module includes a wireless sensor node and a coordinating node; wherein the wireless sensor node is a mesh The network topology is connected with the coordinating node, and the coordinating node is connected with the gateway, and transmits the data of the wireless sensor node to the gateway, wherein the gateway preferably sends the data to the control center by wireless WIFI.

The wireless sensor node includes a sensor module, a processor module, a wireless communication module, and a power supply module.

The sensor module includes a voltage sensor, a data acquisition circuit, and an amplification circuit.

Described processor module is the one-chip computer of model MSP430F5638 and includes A/D conversion circuit.

The wireless communication module is a single-chip microcomputer of model CC2530.

Described gateway comprises receiving data part, data processing part, data sending part, and wherein said data receiving part comprises the wireless transceiver module that model is CC2530; Data processing part comprises Cortex-M3 processor; Data transmission part comprises ZigBee transmission protocol and wireless transceiver modules.

The transmission mode between the sensor node and the coordination node is ZigBee wireless transmission.

The secondary development environment of the upper computer of the control center is Niagara software.

The data transmission mode between the gateway and the control center is preferably a wired network.

In Figure 1, the solar street lamp monitoring and control system measures the voltage of the solar panel and the battery voltage parameters through the voltage sensor on the node, and then transmits the measured data through ZigBee, and the transmission distance of each node can reach 1 km, each node forms a network through an ad hoc network, transmits wirelessly through the ZigBee protocol, transmits to the next wireless node, and so on, transmits step by step, and finally receives it by the gateway. The mesh network topology is used for networking, and each wireless node is both a data collection node and a routing node, responsible for receiving and transmitting data from other nodes. The gateway sends it to the control center through WiFi, and the host computer receives the voltage data of each monitoring point through WiFi. The system uses Niagara software as the upper computer development environment for secondary development. It can monitor and control the data collected by the sensor in real time in the upper computer, and can also monitor and control the data in real time on the Internet.

In Figure 2, the sensor module includes a voltage sensor, which is mainly responsible for collecting the voltage of the solar panel and the battery voltage, amplifying the analog signal, and then transmitting the analog signal to the processor module. The processor module adopts the single-chip microcomputer chip MSP430F5638 of TI Company, which can debug the single-chip microcomputer online and download the program, and the processor module is converted into digital quantity through analog-to-digital conversion. The wireless communication module is a CC2530 single-chip microcomputer. CC2530 obtains the digital quantity and sends the index value to the coordinating node through the routing node in the wireless ZigBee way. When CC2530 sends data, it uses direct quadrature up-conversion. The in-phase component and quadrature component of the baseband signal are directly converted into an analog signal by the DAC, passed through a low-frequency filter, directly converted to the set channel, and then transmitted by the antenna. The power management module provides energy for the sensor unit, the processor unit, and the wireless communication module, and manages the power to improve energy utilization.

The data receiving part of the gateway shown in Figure 3 still uses the CC2530 wireless transceiver module, and a unified transmission protocol can be used to ensure the reliability of the transmission; since data processing is also required, the gateway node does not attach sensors to improve the processing of data by the processor At the same time, when the control center is generally far away from the monitoring, it needs to use the WiFi module to realize the remote transmission of data, and use the wired network for transmission when the distance is not far.

The above-mentioned embodiments are only one of the more preferred specific implementations of the present utility model, and the usual changes and replacements performed by those skilled in the art within the scope of the technical solution shall be included in the protection scope of the present utility model.

Claims (10)

1. a solar street light Monitoring and control system, is characterized in that, comprises wireless sensor network module, gateway, control centre's host computer, host computer, and wherein said wireless sensor network module comprises wireless sensing node, coordinator node; Wherein said wireless sensing node is mesh network topologies structure, is connected with coordinator node, and described coordinator node is connected with gateway, and the data of wireless sensing node are passed to gateway, and wherein said gateway is sent to control centre in wireless WIFI mode.

2. a kind of solar street light Monitoring and control system according to claim 1, it is characterized in that, described wireless sensing node comprises sensor assembly, processor module, wireless communication module, power module.

3. a kind of solar street light Monitoring and control system according to claim 2, it is characterized in that, described sensor assembly comprises voltage sensor, data acquisition circuit, amplifying circuit.

4. a kind of solar street light Monitoring and control system according to claim 2, is characterized in that, described processor module is that the single-chip microcomputer of model MSP430F5638 comprises A/D change-over circuit.

5. a kind of solar street light Monitoring and control system according to claim 2, is characterized in that, described wireless communication module is the single-chip microcomputer of model C C2530.

6. a kind of solar street light Monitoring and control system according to claim 1, it is characterized in that, described gateway comprises reception data division, data processing section, data transmitting portion, and wherein said data reception portion is divided and comprised the radio receiving transmitting module that model is CC2530; Data processing section comprises Cortex-M3 processor; Tcp data segment comprises ZigBee host-host protocol and radio receiving transmitting module.

7. a kind of solar street light Monitoring and control system according to claim 1, is characterized in that, the transmission means between described sensing node and coordinator node is ZigBee wireless transmission.

8. a kind of solar street light Monitoring and control system according to claim 1, is characterized in that, the secondary development environment of described control centre's host computer is Niagara software.

9. a kind of solar street light Monitoring and control system according to claim 1, is characterized in that, described gateway and the data transfer mode of control centre are cable network.

10. a kind of solar street light Monitoring and control system according to claim 1, is characterized in that, described host computer is the one in PC and hand-held mobile network appliance.