CN201491336U - Adaptive lighting energy-saving intelligent network control system - Google Patents

Abstract

The utility model relates to a self-adaptive lighting energy-saving intelligent network control system which comprises a series of street lamps linked on a power line and distributed in different ranges, and the system is characterized in that the street lamps in each range are respectively connected on a zone controller for controlling the street lamps in the range, a single lamp controller is arranged between each street lamp and the zone controller, and all the zone controllers are connected with a remote control center through a wireless module. Compared with the prior art, the self-adaptive lighting energy-saving intelligent network control system has the advantages of being capable of realizing the flexible control and the self-adaptive control of grading and zoning, effectively reducing the using cost, leading the work to be stable and reliable and reducing the energy consumption.

Description

Adaptive lighting energy-saving intelligent network control system

Technical field

The utility model relates to a lighting energy-saving control device, in particular to an adaptive lighting energy-saving intelligent network control system.

Background technique

At present, the traditional street lamp control methods are all controlled through the street lamp control box. The time to turn on and turn off the lights is determined through the street light control box, and when the time reaches the set point, all street lights are turned on or off. The disadvantage is that the flexibility of the system is very poor. There is only one time to turn on and off the lights. Turning off the lights in a block will seriously affect the sight of pedestrians and vehicles. The efficiency is low, and it cannot be controlled adaptively according to the actual light conditions of the environment to achieve energy saving.

Contents of the invention

In order to overcome the shortcomings of the existing traditional street lamp control box, the utility model provides an adaptive lighting energy-saving intelligent network control system. The adaptive lighting energy-saving intelligent network control system can realize hierarchical and sub-regional control, the overall layout is reasonable, and the control is flexible. High performance; it solves the technical problems of unreasonable layout and poor system flexibility existing in the prior art.

The technical solution adopted by the utility model to solve its technical problems is: an adaptive lighting energy-saving intelligent network control system, including a series of street lamps connected to the power line, the above-mentioned street lamps are distributed in different ranges, and it is characterized in that each range Each street lamp in the area is connected to the regional controller that controls the street lamps in this range, and a single lamp controller is installed between each street lamp and the regional controller, and each regional controller communicates with the remote control center through a wireless module. couplet.

In the above-mentioned self-adaptive lighting energy-saving intelligent network control system, the single lamp controller and the regional controller are provided with a carrier interface, and the carrier interface adopts a PLC3105 carrier interface chip, and each single lamp controller and the regional controller form a A network that communicates via electrical carrier waves.

In the above-mentioned adaptive lighting energy-saving intelligent network control system, a rectification circuit is provided between each single lamp controller and each street lamp, a relay and a detection circuit are provided on the single lamp controller, and the relay and detection circuit respectively connected with the rectifier circuit. When the power consumption peak occurs, it can be known through the detection circuit. The zone controller can adaptively reduce the number of lights and reduce the output voltage to the minimum to control the lamps. Achieve energy saving effect without affecting lighting.

The beneficial effect of the utility model is to provide an adaptive lighting energy-saving intelligent network control system that effectively reduces the use cost, works stably and reliably, and reduces energy consumption; solves the problems of high equipment cost and large energy consumption in the prior art technical problem.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

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

In the figure, street lamp 1, area controller 2, single lamp controller 3, wireless module 4, remote control center 5, local setting interface 6, rectification circuit 7, relay 8, detection circuit 9, carrier interface 10.

Detailed ways

As shown in Figure 1, the street lamp carrier control system includes street lamp 1, area controller 2, single lamp controller 3, remote control center 5, local setting interface 6 and other devices. The street lamps 1 are connected to the transmission line, and the street lamps 1 are distributed in different areas. Each street lamp 1 in each area is respectively connected to an area controller 2 which controls the operation of all street lamps 1 in the area, and a single lamp controller 3 is respectively arranged between each street lamp 1 and the area controller 2 . The regional controller 2 and the single lamp controller 3 are connected through a carrier interface 10 . The carrier interface 10 adopts PLC3105 carrier interface chip.

Each regional controller 2 is connected with a remote control center 5 through a wireless module 4 . The regional controller 2 is also provided with a local setting interface 6 . Each regional controller 2 can also be individually set through the local setting interface 6, further improving the flexibility of the entire system. The regional controller 2 is connected with the remote control center 5 through GPRS wireless communication. Street lamp control and adjustment can be carried out in time under special circumstances and moving state.

A rectification circuit 7 is provided between each single lamp controller 3 and each street lamp 1 . The single lamp controller 3 is provided with a relay 8, and the relay 8 is connected with the rectification circuit 7. A detection circuit 9 is provided on the single lamp controller 3 , and the detection circuit 9 is connected with the rectification circuit 7 . When the power consumption peak occurs, it can be known by the detection circuit 9 . The regional controller 2 can adaptively select the most energy-saving operation mode including reducing the number of lights and reducing the output voltage to the lowest level to control the lamps. In order to reduce the pressure of electricity consumption and achieve the effect of energy saving, it can still play the function of lighting.

When working, a series of street lights in each area are controlled by an area controller, and the remote control center connects the area controllers in each area, so as to realize hierarchical and sub-area control, which effectively improves the flexibility of the entire system , the overall layout is reasonable. In addition, it can also be connected to a computer at a short distance through the local setting interface for separate data setting. In this way, any single lamp can be controlled at any time, and at the same time, the output voltage of each rectifier circuit connected to the lamp can be set to achieve the purpose of energy saving.

Claims (3)

1. self adaptation lighting energy saving intelligent network control system, comprise a series of street lamps (1) that are connected on the power circuit, above-mentioned street lamp (1) is distributed in each different scope, it is characterized in that, each street lamp (1) in each scope is connected on the zone controller of this scope street lamp of control, be respectively equipped with a single-lamp controller (3) between each street lamp (1) and the zone controller (2), described each zone controller (2) links by wireless module (4) and remote control center (5).

2. self adaptation lighting energy saving intelligent network control system according to claim 1, it is characterized in that, be provided with rectification circuit (7) between described each single-lamp controller (3) and each street lamp (1), single-lamp controller (3) is provided with a relay (8) and testing circuit (9), and relay (8) and testing circuit (9) link with rectification circuit (7) respectively.

3. self adaptation lighting energy saving intelligent network control system according to claim 1, it is characterized in that, described single-lamp controller (3) and zone controller (2) all are provided with carrier interface (10), and described carrier interface (10) adopts PLC3105 carrier interface chip.