CN102427640A - Remotely-monitored wind-light complementary LED road lamp system - Google Patents

Abstract

The invention discloses a wind-solar complementary LED street lamp system for remote monitoring, which comprises a wind power generator, a solar panel, an LED street lamp, a wind-solar complementary controller, a storage battery and a remote monitoring computer. The invention adopts latitude and longitude control and illuminance control technology to ensure the accuracy of street lamp turn-on time. The system can remotely monitor the working status of LED street lights, batteries, wind turbines and solar panels, and has functions such as fault alarms. The control scheme of reducing the brightness of LED street lights at night can reduce the system configuration and achieve the effect of high efficiency and energy saving.

Description

A remote monitoring wind-solar complementary LED street light system

technical field

The invention relates to a remote monitoring system for a wind-solar complementary street lamp, in particular to a remote monitoring system for a wind-solar complementary LED street lamp.

Background technique

LED has been recognized globally as a new generation of environmentally friendly high-tech electric light source. It has the advantages of high efficiency, energy saving, long life, dynamic color control, safety and environmental protection, and has been widely used in the field of road lighting.

With the reduction of conventional energy and the enhancement of people's awareness of environmental protection, the development and utilization of renewable energy is particularly noticeable. Wind energy and solar energy are the most common natural resources, and they are also inexhaustible renewable energy sources, and the two have strong complementarity in time variation distribution. The advantages of the wind-solar hybrid system: it has a stable total power output, and the system has high stability and reliability; it no longer needs mains power supply, and has good social and economic benefits.

At present, there are the following problems in the wind-solar hybrid street lamp: (1) It is impossible to remotely monitor the working status of the street lamp, even if the street lamp is in a bad state; Phenomenon.

In order to solve the above problems, someone invented an intelligent control method for wind-solar hybrid street lamps (public number: CN101078486A), which can realize the work data collection of street lamps through the remote controller, and can realize switch lamp control and battery charging and discharging in the remote control center Control and other operations can effectively avoid street lamp theft, but the degree of automation of system control is not high. Someone also invented the wind-solar hybrid solar street lamp (public number: CN 201606803U) which uses a light-controlled switch and a power control circuit to automatically adjust the brightness of the street lamp to achieve energy-saving control, but it cannot remotely monitor the working status of the street lamp.

Contents of the invention

In view of the above problems, the present invention proposes a remote monitoring wind-solar hybrid LED street lamp system, which can not only automatically control the street lamps in the area, monitor them and detect faults, but also transmit data through the GPRS module to achieve the purpose of remote monitoring .

The technical solution of the present invention is: a wind-solar hybrid LED street lamp system for remote monitoring, which includes a wind generator, a solar panel, an LED street lamp, a wind-solar hybrid controller, a storage battery and a remote monitoring computer, a wind-solar hybrid controller and a wind generator , Solar panels and LED street lamps use one-way connection, and realize remote wireless two-way connection with the remote monitoring computer through GPRS. The wind-solar complementary controller includes a microprocessor, an acquisition circuit, a high-precision clock chip, and a GPRS communication module. Described microprocessor adopts AT91RM9200 chip. The high-precision clock chip adopts DS12887. The GPRS communication module adopts MC52i.

The beneficial effects of the present invention: (1) The present invention intelligently manages the street lamps through latitude and longitude control and illuminance control technologies, automatically sets and changes the switch light time according to the latitude and longitude, and performs dimming operation, ensuring the lighting quality (2) The present invention has the functions of on-line inspection and automatic alarm, which can know the operating parameters of the system at any time, find faults in time, greatly improve the management efficiency of the street lamp system, and further improve the image of the city and municipal services.

Description of drawings

Fig. 1 is an overall structural diagram of a remote monitoring wind-solar hybrid LED street lamp system provided by the present invention.

Fig. 2 is a working flow chart of a remote monitoring wind-solar hybrid LED street lamp system provided by the present invention.

Detailed ways

Please refer to Fig. 1, a remote monitoring wind-solar hybrid LED street lamp system of the present invention includes a wind generator, a solar panel, an LED street lamp, a wind-solar hybrid controller, a storage battery and a remote monitoring computer. The core of the whole system is the intelligent wind-solar hybrid controller, which not only has basic circuits such as charge and discharge control, switch control and acquisition, but also includes an intelligent microprocessor, a high-precision clock chip and a GPRS communication module. The intelligent microprocessor adopts AT91RM9200 chip to realize the charge and discharge control of the battery, the switch and dimming control of the LED street lamp. The high-precision clock chip DS12887 automatically calculates the switching time of the lights according to the longitude and latitude, and can automatically adjust according to the seasonal changes, so as to ensure the accuracy and rationality of the switching time. The GPRS wireless communication module adopts the MC52i module of Siemens Company to realize the two-way data communication between the remote monitoring computer and the wind-solar hybrid controller. The remote monitoring computer sends control commands to the wind-solar hybrid controller through the GPRS network to realize remote control; The collected work information of LED street lamps, storage batteries, wind turbines and solar panels is uploaded to the remote monitoring computer, and managers can check the LED switch light time and working status, battery charging and discharging current value and working status on the display. The output current of wind turbines and solar panels, when the system fails (such as abnormal switch lights, battery overcharge or overdischarge, controller under voltage or over voltage, etc.), the controller can send alarm information to SMS The form is sent to the designated mobile phone.

Please refer to Fig. 2, in the present invention, the control command of the remote monitoring computer has a high priority, that is, the wind-solar hybrid controller first detects whether there is a remote control command, and if so, executes the corresponding command; The automatic control method combined with control technology, the high-precision clock chip automatically adjusts the switch light time according to the latitude and longitude every day, and notifies the microprocessor in the form of interruption, the microprocessor analyzes the interruption type, and controls the switch according to the pre-stored control strategy Lamp and dimming control, control strategies include daily time period control strategies, holiday control strategies are stored in EEPROM, and control strategies can be remotely modified.

The present invention can realize the following functions: 1. Automatic control, which can automatically perform operations such as switching lights, dimming, and querying the working status of the system; Turn off the lights early, turn on the lights early in winter, and turn off the lights at night; 3. When ordinary lighting is required, the system performs dimming control to save energy consumption; when controlling on holidays and special requirements, such as November or May 1st, control street lights to stay on , to enhance the city's festive lighting and enhance the festive atmosphere of the holidays.

In summary, the above embodiments are only used to illustrate the technical solutions of the present invention and not to limit them; all changes and modifications based on the above basic ideas without departing from the spirit and scope of this creation shall belong to The scope disclosed by the present invention.

Claims (5)

1. the wind light mutual complementing LED road lamp system of a remote monitoring; It is characterized in that; It comprises wind-driven generator, solar panel, LED street lamp, wind light mutual complementing controller, storage battery and remote monitoring computer; The wind light mutual complementing controller adopts unidirectional the connection with wind-driven generator, solar panel and LED street lamp, realizes that through GPRS the two-way of long distance wireless is connected with the remote monitoring computer.

2. the wind light mutual complementing LED road lamp system of a kind of remote monitoring according to claim 1 is characterized in that, described wind light mutual complementing controller comprises microprocessor, Acquisition Circuit, high precision clock chip, GPRS communication module.

3. the wind light mutual complementing LED road lamp system of a kind of remote monitoring according to claim 2 is characterized in that, described microprocessor adopts the AT91RM9200 chip.

4. the wind light mutual complementing LED road lamp system of a kind of remote monitoring according to claim 2 is characterized in that, described high precision clock chip adopts DS12887.

5. the wind light mutual complementing LED road lamp system of a kind of remote monitoring according to claim 2 is characterized in that, described GPRS communication module adopts MC52i.

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