CN201916828U - Double-control infrared detection energy-saving solar streetlamp system - Google Patents

Abstract

The utility model relates to a dual-control infrared monitoring energy-saving solar street lamp system, which relates to an energy-saving street lamp system. It includes light-emitting devices, street light poles, and an automatic detection and control system. The automatic detection and control system includes an active infrared sensor system and a signal processing system; the active infrared sensor system is connected to the signal processing system, and the signal processing system is connected to a light-emitting device. The switch control module is connected to the light emitting device switch control module; it also includes a manual control system, the manual control system includes a remote control switch transmitter and a remote control switch receiver, and the remote control switch receiver is connected to the light emitting device switch control module. The utility model can not only realize automatic control through the automatic detection control system, but also realize manual control through the manual control system, so it is convenient to implement independent control on a single street lamp, thereby facilitating debugging and maintenance of the street lamp.

Description

Dual-control infrared monitoring energy-saving solar street light system

technical field

The utility model relates to the lighting field, in particular to an energy-saving street lamp system.

Background technique

The control system of ordinary street lamps has simple functions and cannot be controlled according to the actual lighting needs of the road surface. It can only be controlled by a simple switch. Therefore, the street lamp system is usually in the normal open state at night. In the case of no vehicles and pedestrians passing by, it is undoubtedly a waste to turn on the street lights, and it will inevitably increase the load on the power grid.

In recent years, a new type of street lamp has appeared, which can adjust the light-emitting state of the light-emitting device according to the conditions of pedestrians or vehicles on the road, so as to effectively save power and energy. This kind of street lamp mostly adopts an automatic control control system. During the debugging, installation, and maintenance of street lamps, it is usually necessary to individually control a single street lamp or problematic street lamps, but the existing control systems for new street lamps cannot meet the requirements.

Utility model content

The purpose of this utility model is to provide a dual-control infrared monitoring energy-saving solar street lamp system to solve the above technical problems.

The utility model can be realized by adopting the following technical solutions:

The dual-control infrared monitoring energy-saving solar street lamp system includes a light-emitting device, a street light pole for supporting the light-emitting device, and a solar power supply system for providing electric energy. It is characterized in that it also includes an automatic detection control system. The automatic detection The control system includes an active infrared sensor system for sensing pedestrians or vehicles on the road, and a signal processing system;

The active infrared sensor system is connected to the signal processing system, and the signal processing system is connected to a light-emitting device switch control module for controlling the light-emitting state of the light-emitting device of the street lamp, and the light-emitting device switch control module is connected to the light-emitting device;

It also includes a manual control system, the manual control system includes a remote control switch transmitting device, a remote control switch receiving device matched with the remote control switch transmitting device, the remote control switch receiving device is connected to the light emitting device switch control module.

The dual-control infrared monitoring energy-saving solar street light system can realize automatic control through the automatic detection control system, and can also realize manual control through the manual control system. When a pedestrian or vehicle on the road is within the sensing range of the active infrared sensor system, the active infrared sensor system responds and sends a corresponding signal to the signal processing system, and the signal processing system sends a corresponding signal to the signal processing system according to the received signal. The switch control module of the light emitting device sends a control signal, and the switch control module of the light emitting device controls the lighting of the light emitting device, so as to provide road lighting for pedestrians or vehicles. By setting the program of the switch control module, when the active infrared sensor system does not detect the situation that the light-emitting device needs to be turned on, the light-emitting device can still be controlled to be turned on through the remote control switch transmitter. Similarly, when the active infrared sensor system detects In the case of a situation where the light-emitting device needs to be turned on, the light-emitting device can be controlled not to be turned on by the remote control switch emission device.

As a preferred solution, the active infrared sensor system is located between two street lamps on the same side of the road, and an adjacent street lamp control system is also connected between the signal processing system and the switch control module of the light emitting device. The signal processing system is connected to the adjacent street lamp control system, the adjacent street lamp control system is connected to the light-emitting device switch control module, and the light-emitting device switch control module is connected to the light-emitting device of the first street lamp, and the first street lamp is located at A street lamp in front of the active infrared sensor system and closest to the active infrared sensor system, the light-emitting device switch control module is also connected to a light-emitting device of a second street lamp, the second street lamp is located in the active infrared sensor system A street light behind the sensor system and closest to the active infrared sensor system.

When the light-emitting device of the first street lamp is on and the light-emitting device of the second street lamp is off, when the active infrared sensor system senses pedestrians or vehicles, the adjacent street lamp control system controls the light-emitting device of the second street lamp The control system is turned on, and the turn-on state is delayed, and the light-emitting device of the first street lamp does not need to be delayed again. In this way, the light-emitting device of the first street lamp that pedestrians or vehicles pass by first will be extinguished first, so as to reduce energy consumption.

Beneficial effects: due to the adoption of the above technical solution, the utility model can realize automatic control through the automatic detection control system, and can also realize manual control through the manual control system, so it is convenient to implement individual control on a single street lamp, thereby facilitating debugging and maintenance of the street lamp. repair.

Description of drawings

Fig. 1 is the circuit diagram of the utility model.

Detailed ways

In order to make the technical means, creative features, goals and effects achieved by the utility model easy to understand, the utility model will be further elaborated below in conjunction with specific illustrations.

Referring to Figure 1, the dual-control infrared monitoring energy-saving solar street light system mainly includes light emitting devices 6, street light poles, automatic detection control system, manual control system, and solar power supply system. The lamp post is used to support the light emitting device 6 .

The automatic detection and control system includes an active infrared sensor system 1 and a signal processing system 2; The signal processing system 2 is connected to the light emitting device switch control module 4, and the light emitting device switch control module 4 is connected to the light emitting device 6 for controlling the light emitting state of the light emitting device 6 of the street lamp.

The manual control system includes a remote control switch transmitting device and a remote control switch receiving device 5 , the remote control switch transmitting device and the remote control switch receiving device 5 are matched with each other, and the remote control switch receiving device 5 is connected to the switch control module 4 of the light emitting device.

Control process: When a pedestrian or vehicle on the road is within the sensing range of the active infrared sensor system 1, the active infrared sensor system 1 responds and sends a corresponding signal to the signal processing system 2, and the signal processing system 2 according to the received signal The control signal is sent to the light emitting device switch control module 4, and the light emitting device switch control module 4 controls the light emitting device 6 to light up, thereby providing road lighting for pedestrians or vehicles. By setting the program of the switch control module, when the active infrared sensor system 1 does not detect the situation that the light emitting device 6 needs to be turned on, the opening of the light emitting device 6 can still be controlled by the remote control switch transmitting device. When the sensor system 1 detects that the light-emitting device 6 needs to be turned on, the light-emitting device 6 can be controlled not to be turned on by the remote control switch emitting device.

The active infrared sensor system 1 is located between two street lights on the same side of the road. An adjacent street lamp control system 3 may also be connected between the signal processing system 2 and the light emitting device switch control module 4 . The signal processing system 2 is connected to the adjacent street lamp control system 3 , and the adjacent street lamp control system 3 is connected to the light emitting device switch control module 4 . The light-emitting device switch control module 4 is connected to the light-emitting device of the first street lamp. The first street lamp is a street lamp located in front of the active infrared sensor system 1 and closest to the active infrared sensor system 1 . The light-emitting device switch control module 4 is also connected to the light-emitting device of the second street lamp. The second street lamp is a street lamp located behind the active infrared sensor system 1 and closest to the active infrared sensor system 1 .

When the light-emitting device of the first street lamp is on and the light-emitting device of the second street lamp is off, when the active infrared sensor system 1 senses pedestrians or vehicles, the adjacent street lamp control system 3 controls the light-emitting device of the second street lamp The control system is turned on, and the turn-on state is delayed, and the light-emitting device of the first street lamp does not need to be delayed again. In this way, the light-emitting device of the first street lamp that pedestrians or vehicles pass by first will be extinguished first, so as to reduce energy consumption.

The basic principles and main features of the present utility model and the advantages of the present utility model have been shown and described above. Those skilled in the industry should understand that the utility model is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principle of the utility model. Without departing from the spirit and scope of the utility model, the utility model The new model also has various changes and improvements, and these changes and improvements all fall within the scope of the claimed utility model. The scope of protection required by the utility model is defined by the appended claims and their equivalents.

Claims (2)

1. A dual-control infrared monitoring energy-saving solar street lamp system, including a light-emitting device, a street light pole for supporting the light-emitting device, and a solar power supply system for providing electric energy. It is characterized in that it also includes an automatic detection control system. The automatic detection and control system includes an active infrared sensor system for sensing pedestrians or vehicles on the road, and a signal processing system; The active infrared sensor system is connected to the signal processing system, and the signal processing system is connected to a light-emitting device switch control module for controlling the light-emitting state of the light-emitting device of the street lamp, and the light-emitting device switch control module is connected to the light-emitting device; It also includes a manual control system, the manual control system includes a remote control switch transmitting device, a remote control switch receiving device matched with the remote control switch transmitting device, the remote control switch receiving device is connected to the light emitting device switch control module. 2. The dual-control infrared monitoring energy-saving solar street lamp system according to claim 1, wherein the active infrared sensor system is located between two street lamps on the same side of the road; An adjacent street lamp control system is also connected between the signal processing system and the light emitting device switch control module; The signal processing system is connected to the adjacent street lamp control system, and the adjacent street lamp control system is connected to the light emitting device switch control module; The light-emitting device switch control module is connected to a light-emitting device of a first street lamp, and the first street lamp is a street lamp located in front of the active infrared sensor system and closest to the active infrared sensor system; The light-emitting device switch control module is also connected to a light-emitting device of a second street lamp, and the second street lamp is a street lamp located behind the active infrared sensor system and closest to the active infrared sensor system.

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