CN106028586A - Intelligent light sensing device used for city train - Google Patents

Abstract

The invention discloses an intelligent light sensing device used for a city train. The intelligent light sensing device comprises a first ambient light sensor, a second ambient light sensor, a recognition device, a determination device and a control device, wherein the first ambient light sensor is arranged on a train head; the second ambient light sensor is arranged on a train tail; the recognition device is used for reading the status messages of the first ambient light sensor and the status messages of the second ambient light sensor respectively; the determination device is connected with the recognition device, and is used for processing the reading result of the recognition device so as to output a level signal; the control deice is connected with the determination device, and is used for controlling turn-on and turn-off of headlamps in carriages according to the level information output by the determination device; the first ambient light sensor and the second ambient light sensor are used for sensing the intensity of ambient light outside the carriages; when the ambient light is relatively bright, a bright current message is output; and when the ambient light is relatively dark, a dark current message is output. The intelligent light sensing device disclosed by the invention can accurately guarantee that passengers in the carriages are in a relatively comfortable light environment, electric energy can also be saved, and the burden for the driver of the city train is alleviated.

Description

A kind of Intelligent light sensing device for subway

Technical field:

The present invention relates to a kind of Intelligent light sensing device, a kind of Intelligent light sensing device for subway.

Background technology:

Along with the development in city, urban transportation becomes the focus that everybody pays close attention to, and big city has huge population, and working-trip pressure grows with each passing day, because subway and subway will not block up, so subway and subway become the important selection of everybody working-trip.The many construction of subway are on overpass, wherein part way is tunnel, owing to not having light in tunnel, so the illuminating lamp that subway is switched in compartment before entering tunnel, existing method typically has two kinds, a kind of is that the illuminating lamp in compartment is always on, although this ensure that the illumination in compartment, but causes the significant wastage of electric energy, actually, outside the tunnel of bright light, car light need not be held open；Another method is driver's Non-follow control, and when extraneous light is brighter, manual-lock illuminating lamp, entering before tunnel, more manually opened illuminating lamp, but this is inconvenient for driver, sometimes due to driver's lamp of forgetting to open the light, passenger can be brought impact.The method using ambient light sensor to automatically control light in prior art has, ambient light sensor is such as set on street lamp, street lamp is automatically turned on when dark, but, prior art has not been used to the automatic light-sensitive system of subway, this is because, subway has certain length, ambient light sensor is arranged at a certain position and can not be accurately controlled the light in all compartments.

Summary of the invention:

The present invention proposes a kind of Intelligent light sensing device for subway, and it can not only be accurately controlled the open and close of light in compartment, saves electric energy, moreover it is possible to solves the inconvenience that subway driver's hand switch brings.

The present invention realizes especially by following manner: a kind of Intelligent light sensing device for subway, including:

It is located at the first environment optical sensor of headstock；It is located at the second environment optical sensor of the tailstock；Identify device, read described first environment optical sensor and the status information of described second environment optical sensor respectively；Decision maker, is connected with described identification device, processes the reading result of described identification device, to export a level signal；

Controlling device, be connected with described decision maker, the level information exported according to described decision maker controls the open and close of interior vehicular illumination lamp；Wherein, described first environment optical sensor and described second environment optical sensor are respectively induced the ambient light intensity of vehicle exterior, when ambient light is brighter, export a light current information, when ambient light is dark, export a dark current information；Light current information described in described identification device identification and described dark current information；Described decision maker is arranged to: when at least one in described first environment optical sensor and described second environment optical sensor exports dark current information, output low level signal, when described first environment optical sensor and described second environment optical sensor both export light current information, export high level signal；Described control device, when receiving the low level signal of described decision maker output, controls the illuminating lamp in compartment and opens, and when receiving the high level signal of described decision maker output, controls the illuminating lamp in compartment and closes.

Further, described decision maker includes logic control circuit.

Further, described logic control circuit includes and door, and it includes two inputs and an outfan.

Further, described identification device comprises the first outfan and the second outfan, and described first outfan and the second outfan are connected with described two inputs with door respectively.

Further, described first outfan is corresponding with the output signal of described first environment optical sensor, and described second outfan is corresponding with the output signal of described second environment optical sensor.

Further, described identification device includes a threshold value comparison circuit, when the output electric current of described first environment optical sensor is less than this threshold value, described first outfan exports a low level, when the output off current HIGH of described first environment optical sensor is in this threshold value, described first outfan exports a high level.

Further, described identification device includes a threshold value comparison circuit, when the output electric current of described second environment optical sensor is less than this threshold value, described second outfan exports a low level, when the output off current HIGH of described second environment optical sensor is in this threshold value, described second outfan exports a high level.

Further, described control device is a single-chip microcomputer.

Further, described first environment optical sensor is arranged at outside the windshield of described headstock, and described second environment optical sensor is arranged at outside the windshield of the described tailstock.

Further, it is characterised in that: described first environment optical sensor and described second environment optical sensor are photoconductive resistance.

Accompanying drawing explanation:

Accompanying drawing 1 is the overall structure figure of the present invention；

Accompanying drawing 2 is an optimal way of decision maker；

Accompanying drawing 3 is the logical relation correspondence table of the present invention.

Detailed description of the invention:

As shown in Figure 1, the first environment optical sensor being located at headstock and the second environment optical sensor being located at the tailstock are respectively used to sense headstock position and the environmental light brightness of tailstock position, its output is connected with identification device, identifies that device reads described first environment optical sensor and the status information of described second environment optical sensor respectively；Identify that the first outfan of device is corresponding with the output of first environment optical sensor, identify that the second outfan of device is corresponding with the output of second environment optical sensor, first outfan of identification device and the second outfan connect two inputs of decision maker respectively, the reading result of described identification device is processed by decision maker, to export a level signal, control device, being connected with described decision maker, the level information exported according to described decision maker controls the open and close of interior vehicular illumination lamp.

As in figure 2 it is shown, decision maker is specifically as follows one and door, it is connected with controlling device with the outfan of door.As shown in Figure 3, only when first environment optical sensor and second environment optical sensor all export light current, i.e. headstock and parking stall be in brighter environment time, just can close the illuminating lamp in car, when the headstock of subway has just enter into tunnel or the tailstock does not also roll tunnel away from, the illuminating lamp in car is not turn off.So can not only accurately ensure that the passenger in compartment is in a more suitably photoenvironment, additionally it is possible to save electric energy, and alleviate the burden of subway driver.

Technique effect:

Assume that subway one saves compartment and has fluorescent tube 30, every lamp 40W, common subway has 6 joint compartments, each column subway power consumption hourly is then 40 × 30 × 6=7.2KWh, as a example by Beijing Metro, its every day runs time average 16 hours, it is assumed that output 600 train numbers every day, then the Beijing Metro power consumption of 1 year is 7.2 × 16 × 600 × 365=2.52 × 10⁷ KWh, as a example by present commercial electricity price 1.1 yuan, the electricity charge of annual subway consumption are up to more than 2,700 ten thousand, if using the Intelligent light sensing system of the present invention, even if only having 1/3rd turn off the light the time (the shortest actual time) every day, the electricity charge being often only Beijing Metro saving are up to more than 900 ten thousand, and this is an appreciable numeral.

Embodiments of the invention the most preferably, are not used to limit the present invention.

Claims (10)

1. for an Intelligent light sensing device for subway, including:

It is located at the first environment optical sensor of headstock；

It is located at the second environment optical sensor of the tailstock；

Identify device, read described first environment optical sensor and the status information of described second environment optical sensor respectively；

Decision maker, is connected with described identification device, processes the reading result of described identification device, to export a level signal；

Controlling device, be connected with described decision maker, the level information exported according to described decision maker controls the open and close of interior vehicular illumination lamp；

Wherein, described first environment optical sensor and described second environment optical sensor are respectively induced the ambient light intensity of vehicle exterior, when ambient light is brighter, export a light current information, when ambient light is dark, export a dark current information；Light current information described in described identification device identification and described dark current information；Described decision maker is arranged to: when at least one in described first environment optical sensor and described second environment optical sensor exports dark current information, output low level signal, when described first environment optical sensor and described second environment optical sensor both export light current information, export high level signal；Described control device, when receiving the low level signal of described decision maker output, controls the illuminating lamp in compartment and opens, and when receiving the high level signal of described decision maker output, controls the illuminating lamp in compartment and closes.

Device the most according to claim 1, it is characterised in that: described decision maker includes logic control circuit.

Device the most according to claim 2, it is characterised in that: described logic control circuit includes and door, and it includes two inputs and an outfan.

Device the most according to claim 3, it is characterised in that: described identification device comprises the first outfan and the second outfan, and described first outfan and the second outfan are connected with described two inputs with door respectively.

Device the most according to claim 4, it is characterised in that: described first outfan is corresponding with the output signal of described first environment optical sensor, and described second outfan is corresponding with the output signal of described second environment optical sensor.

Device the most according to claim 5, it is characterized in that: described identification device includes a threshold value comparison circuit, when the output electric current of described first environment optical sensor is less than this threshold value, described first outfan exports a low level, when the output off current HIGH of described first environment optical sensor is in this threshold value, described first outfan exports a high level.

Device the most according to claim 5, it is characterized in that: described identification device includes a threshold value comparison circuit, when the output electric current of described second environment optical sensor is less than this threshold value, described second outfan exports a low level, when the output off current HIGH of described second environment optical sensor is in this threshold value, described second outfan exports a high level.

8. according to the device described in any one of claim 1-7, it is characterised in that: described control device is a single-chip microcomputer.

9. according to the device described in any one of claim 1-7, it is characterised in that: described first environment optical sensor is arranged at outside the windshield of described headstock, and described second environment optical sensor is arranged at outside the windshield of the described tailstock.

10. according to the device described in any one of claim 1-7, it is characterised in that: described first environment optical sensor and described second environment optical sensor are photoconductive resistance.