CN201916828U

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

Info

Publication number: CN201916828U
Application number: CN2010206054356U
Authority: CN
Inventors: 邵锋
Original assignee: Yangxing Middle School Affiliated to East China Normal University
Current assignee: Yangxing Middle School Affiliated to East China Normal University
Priority date: 2010-11-12
Filing date: 2010-11-12
Publication date: 2011-08-03
Anticipated expiration: 2020-11-12

Abstract

Provided is a double-control infrared detection solar streetlamp system, specifically, an energy-saving streetlamp system. The system includes a luminescent member, a streetlamp, and further includes an automatic detection control system and a manual control system. The automatic detection control system comprises an active infrared sensor system and a signal processing system. The active infrared sensor system is connected to the signal processing system which is connected to a luminescent member switch control module, and the luminescent member switch control module is connected to the luminescent member. The manual control system comprises a remote control switch emitting device and a remote control switch receiving device, and the remote control switch receiving device is connected the luminescent member switch control module. The system in the utility model can realize automatic control via the automatic detection control system, and also can realize manual control via the manual control system. Therefore, each single streetlamp can be separately controlled, thereby facilitating in the debugging and maintenance of streetlamps.

Description

Two control infrared monitoring energy-saving solar road lamp systems

Technical field

The utility model relates to lighting field, is specifically related to the energy-conserving road lamp system.

Background technology

The control system function of common street lamp is simple, can't control according to the actual illumination needs on road surface, can only carry out simple switch control, so road lamp system is in normally open usually at night.Under the situation that no traffic passes through, street lamp is leaving, and is undoubtedly a kind of waste, also will inevitably increase the load of electrical network.

Occurred a kind of novel street lamp in recent years, it can be adjusted the luminance of luminescent device according to pedestrian on the road or vehicle condition, thereby effectively saves electric power energy, this kind street lamp control systems of control automatically that adopt more.In the debugging of carrying out street lamp, installation, maintenance process, need control separately the carrying out of single street lamp or problem street lamp usually, but the control system of existing novel street lamp can't reach requirement.

The utility model content

The purpose of this utility model is to provide a kind of two control infrared monitoring energy-saving solar road lamp system, to solve the problems of the technologies described above.

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

Two control infrared monitoring energy-saving solar road lamp systems, the light pole, one that comprise luminescent device, is used to support described luminescent device is used to provide the solar electric power supply system of electric energy, it is characterized in that, also comprise an automatic detection and control system, described automatic detection and control system comprises that one is used to respond to active infra-red sensing system, a signal processing system of pedestrian on the road or vehicle condition;

Described active infra-red sensing system connects described signal processing system, and described signal processing system connects the luminescent device switch control module of the luminescent device luminance of a control street lamp, and described luminescent device switch control module connects described luminescent device;

Also comprise a manual control system, described manual control system comprises a remote control switch emitter, one and the supporting remote control switch receiving system of described remote control switch emitter, and described remote control switch receiving system connects described luminescent device switch control module.

Two control infrared monitoring energy-saving solar road lamp systems both can be realized control automatically by automatic detection and control system, can realize manually control by manual control system again.When the pedestrian on the road or vehicle are in the induction range of described active infra-red sensing system, the response of active infra-red sensing system, send corresponding signal to described signal processing system, described signal processing system transmits control signal to described luminescent device switch control module according to received signal, described luminescent device switch control module is controlled described luminescent device and is lighted, thereby provides road lighting for pedestrian or vehicle.Program by the configuration switch control module, do not detect at the active infra-red sensing system under the situation of the situation that needs the unlatching luminescent device, still can control the unlatching of luminescent device by the remote control switch emitter, equally, under the situation of the situation that needs the unlatching luminescent device, can control not opening of luminescent device in the active infra-red sensor system senses by the remote control switch emitter.

As a kind of preferred version, described active infra-red sensing system is between two street lamps of road homonymy, also be connected with an adjacent street lamp control system between described signal processing system and the described luminescent device switch control module, described signal processing system connects described adjacent street lamp control system, described adjacent street lamp control system connects described luminescent device switch control module, described luminescent device switch control module connects the luminescent device of first street lamp, described first street lamp is to be positioned at a described active infra-red sensing system the place ahead and a nearest street lamp of the described active infra-red sensing system of distance, described luminescent device switch control module also connects the luminescent device of second street lamp, and described second street lamp is to be positioned at a described active infra-red sensing system rear and a nearest street lamp of the described active infra-red sensing system of distance.

When the luminescent device of first street lamp is in illuminating state, the luminescent device of second street lamp is in when extinguishing state, described active infra-red sensing system is when sensing pedestrian or vehicle, adjacent street lamp control system is controlled the luminescent device control system of second street lamp and is opened, and opening delayed time, the luminescent device of first street lamp is delayed time no longer again.Pedestrian or the vehicle luminescent device of first street lamp of process at first can at first extinguish, so that cut down the consumption of energy like this.

Beneficial effect: owing to adopted technique scheme, the utility model both can be realized control automatically by automatic detection and control system, can realize manually control by manual control system again, thus convenient to single street lamp enforcement control separately, thus be convenient to street lamp is debugged and keeped in repair.

Description of drawings

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

The specific embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

With reference to Fig. 1, two control infrared monitoring energy-saving solar road lamp systems mainly comprise luminescent device 6, light pole, automatic detection and control system, manual control system, solar electric power supply system.Light pole is used to support luminescent device 6.

Automatic detection and control system comprises active infra-red sensing system 1, signal processing system 2; Active infra-red sensing system 1 is used to respond to the situation of pedestrian on the road or vehicle, connects signal processing system 2.Signal processing system 2 connects luminescent device switch control modules 4, and luminescent device switch control module 4 connects luminescent devices 6, is used to control the luminance of the luminescent device 6 of street lamp.

Manual control system comprises remote control switch emitter, remote control switch receiving system 5, and remote control switch emitter and remote control switch receiving system 5 complement one another, and remote control switch receiving system 5 connects luminescent device switch control module 4.

Control procedure: when the pedestrian on the road or vehicle are in the induction range of active infra-

red sensing system

1,1 response of active infra-red sensing system, send corresponding signal to signal processing system 2, signal processing system 2 transmits control signal to luminescent device switch control module 4 according to received signal, luminescent device switch control module 4 control luminescent devices 6 are lighted, thereby provide road lighting for pedestrian or vehicle.Program by the configuration switch control module, do not detect at active infra-red sensing system 1 under the situation of the situation that needs unlatching luminescent device 6, still can control the unlatching of luminescent device 6 by the remote control switch emitter, equally, detect at active infra-red sensing system 1 under the situation of the situation that needs unlatching luminescent device 6, can control not opening of luminescent device 6 by the remote control switch emitter.

Active infra-red sensing system 1 is between two street lamps of road homonymy.Can also be connected with an adjacent street lamp control system 3 between signal processing system 2 and the luminescent device switch control module 4.Signal processing system 2 connects adjacent street lamp control system 3, and adjacent street lamp control system 3 connects luminescent device switch control module 4.Luminescent device switch control module 4 connects the luminescent device of first street lamp, and first street lamp is to be positioned at a nearest street lamp of the described active infra-red sensing system of active infra-red sensing system 1 the place ahead and distance 1.Luminescent device switch control module 4 also connects the luminescent device of second street lamp, and second street lamp is to be positioned at active infra-red sensing system 1 rear and a street lamp nearest apart from active infra-red sensing system 1.

When the luminescent device of first street lamp is in illuminating state, the luminescent device of second street lamp is in when extinguishing state, active infra-red sensing system 1 is when sensing pedestrian or vehicle, the luminescent device control system of adjacent street lamp control system 3 controls second street lamp is opened, and opening delayed time, the luminescent device of first street lamp is delayed time no longer again.Pedestrian or the vehicle luminescent device of first street lamp of process at first can at first extinguish, so that cut down the consumption of energy like this.

More than show and described basic principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the specification just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims

1. two control infrared monitoring energy-saving solar road lamp systems, the light pole, one that comprise luminescent device, is used to support described luminescent device is used to provide the solar electric power supply system of electric energy, it is characterized in that, also comprise an automatic detection and control system, described automatic detection and control system comprises that one is used to respond to active infra-red sensing system, a signal processing system of pedestrian on the road or vehicle condition;

2. two control infrared monitoring energy-saving solar road lamp system according to claim 1 is characterized in that described active infra-red sensing system is between two street lamps of road homonymy;

Also be connected with an adjacent street lamp control system between described signal processing system and the described luminescent device switch control module;

Described signal processing system connects described adjacent street lamp control system, and described adjacent street lamp control system connects described luminescent device switch control module;

Described luminescent device switch control module connects the luminescent device of first street lamp, and described first street lamp is to be positioned at a described active infra-red sensing system the place ahead and a nearest street lamp of the described active infra-red sensing system of distance;

Described luminescent device switch control module also connects the luminescent device of second street lamp, and described second street lamp is to be positioned at a described active infra-red sensing system rear and a nearest street lamp of the described active infra-red sensing system of distance.