KR101389006B1 - Lighting apparatus and method for pedestrian crossing zone - Google Patents

Abstract

The present invention relates to a lighting device and a lighting method of a crosswalk for illuminating the pedestrian so that the driver easily recognizes the pedestrian, and more particularly, by dividing the corresponding area of the crosswalk into a plurality of areas from the closest to the pedestrian. The present invention relates to a lighting device and a lighting method of a crosswalk for sequentially lighting each area of a crosswalk divided according to a pedestrian's passage direction.
According to the lighting device and the lighting method of the crosswalk according to the present invention, LEDs installed on each side of the lighting substrate illuminate each area of the virtually divided crosswalk, thereby reducing installation costs and applying to wide lane crosswalks. This is possible and there is a significant effect that can prevent the light from being concentrated in some areas of the crosswalk.
In addition, according to the lighting device and the lighting method of the crosswalk according to the present invention by dividing the corresponding area of the crosswalk into a plurality of areas to sequentially illuminate each area of the crosswalk divided according to the pedestrian's traffic direction from the region closest to the pedestrian. The energy efficiency is improved, and the driver can easily recognize a pedestrian crossing the crosswalk.

Description

LIGHTING APPARATUS AND METHOD FOR PEDESTRIAN CROSSING ZONE}

The present invention relates to a lighting device and a lighting method of a crosswalk for illuminating the pedestrian so that the driver easily recognizes the pedestrian, and more particularly, by dividing the corresponding area of the crosswalk into a plurality of areas from the closest to the pedestrian. The present invention relates to a lighting device and a lighting method of a crosswalk for sequentially lighting each area of a crosswalk divided according to a pedestrian's passage direction.

The pedestrian crossing is a part of a pedestrian crossing by a road sign or a road sign in accordance with the Road Traffic Act. In general, on a road where a car is traveling, a pedestrian crossing is provided on the road surface so that pedestrians can cross the road safely. Pedestrian traffic lights are installed on pedestrian crosswalks, which are located on roads with high traffic volume and pedestrian crossing, so that pedestrians can securely cross the roads.

On the other hand, the street including the area surrounding the pedestrian crossing is provided with a street light which is turned on at sunset and unlit during the day, so that a vehicle traveling on the road at night and a pedestrian crossing the road can safely run and walk.

However, since a general streetlight as described above should not confuse a driver's vision of a driving car, its brightness must be comparatively dark, so that a person or an object at a close range can be identified. However, There was a problem that it was not easy.

As an example of the prior art for solving the above problems, Korean Patent No. 10-0530956 discloses a 'crosswalk warning and lighting device'. In this technique, pedestrians can be easily identified by illuminating a pedestrian crossing with a plurality of illuminating lamps mounted on a transverse bar extending from the upper part of a pillar on the road side of the road where the pedestrian crossing is located to the road.

As another example of the prior art, Korean Patent No. 10-1045451 discloses a signal lighting control device for a pedestrian crossing. In the above technique, at least one lighting unit is coupled to one side of a horizontal bar arranged along the moving direction of a crosswalk at an upper portion of a vertical bar installed at one side of a road so as to be able to transmit a gait signal.

Fig. 1 is a view schematically showing a crosswalk illumination device shown in each example of the above-mentioned prior art. Referring to FIG. 1, the lighting apparatus of the conventional crosswalk is provided with a plurality of illumination lamps 3 on a support 2 having a predetermined height on a road adjacent to both ends of the crosswalk 1 and extending along the direction of travel of the crosswalk. To illuminate the crosswalk.

However, in the conventional art as described above, there is a problem that the initial installation cost of the illumination lamp is increased by installing a plurality of illumination lamps at predetermined intervals. In addition, a crosswalk lighting device installed in a road or a traffic light located on the road is generally installed at a position which is considerably spaced from the crosswalk, so that the support is extended along the direction of the crosswalk, There was a difficult problem.

Secondly, when the pedestrian crosses a pedestrian crossing, the conventional pedestrian crossing illuminating device as described above has a problem of increasing power consumption and energy efficiency by illuminating a plurality of lighting fixtures installed on the pedestrian crossing illuminator, There is a problem that it is difficult for the driver approaching the highway from the street to identify the pedestrian on the pedestrian crossing.

The present invention has been made to solve the above problems, an object of the present invention is to install a plurality of lights in the lower portion of the support in the conventional crosswalk lighting device extending along the traveling direction of the crosswalk lighting The present invention relates to a lighting device and a lighting method of a crosswalk that can solve the problem of high initial installation cost and difficult to apply to a wide lane crosswalk.

In addition, an object of the present invention is to solve the problem that it is difficult to identify the pedestrian on the crosswalk at a long distance when the pedestrian crosses the crosswalk lighting the entire number of lights to increase the power consumption and energy efficiency and the driver at a distance. A lighting device and a lighting method of a crosswalk.

Crosswalk lighting apparatus according to the present invention for achieving the above object is a crosswalk lighting device for illuminating the crosswalk, respectively installed on both ends of the crosswalk, the plurality of areas of the crosswalk sequentially from one end to An illumination substrate formed by dividing a plurality of surfaces which are divided to face each area of the divided crosswalk; A plurality of LEDs installed on respective surfaces of the lighting substrate; A pedestrian detector configured to detect whether there is a pedestrian waiting at one end of the crosswalk; And when a waiting pedestrian is detected from the pedestrian detection unit, an LED installed on a surface of the lighting substrate facing the pedestrian area closest to the pedestrian of each of the divided crosswalks is turned on. A controller for lighting an LED installed on a surface of the lighting substrate that sequentially faces each region from an adjacent region,

Preferably, the area of the crosswalk further comprises an area on the sidewalk block where the waiting pedestrian is located, the area closest to the pedestrian is the area on the sidewalk block where the waiting pedestrian is located,

Each surface of the lighting substrate includes an angle adjusting portion formed at one or both ends thereof, and each surface is coupled to each other to allow angle adjustment by the angle adjusting portion.

The pedestrian detection unit is a pedestrian detection sensor for detecting whether the waiting pedestrian is located on the sidewalk block located at one end of the crosswalk,

The pedestrian detection unit is a pedestrian detection camera for photographing the image on the crosswalk and the sidewalk block located at one end of the crosswalk, an image analyzer for detecting the presence of pedestrians from the captured image and stores the image taken from the pedestrian detection camera Including a storage unit,

The controller illuminates the LEDs installed on the surface of the lighting substrate sequentially facing the respective areas from the region closest to the sidewalk block at predetermined time intervals at the time of the pedestrian traffic signal,

The pedestrian detection unit further detects the walking speed of the pedestrian, the controller adjusts the lighting time interval of the LED according to the walking speed of the pedestrian detected from the pedestrian detection unit,

LEDs installed on each side of the illumination substrate vary the illuminance to illuminate each area of the crosswalk with uniform illuminance,

It further comprises a laser diode that is turned on when the pedestrian traffic signal illuminates the boundary of the crosswalk,

Further comprising an illuminance detection sensor for sensing the external light amount, the controller turns on the LED only when the external light amount is less than a predetermined amount,

A solar cell that collects sunlight and converts it into electrical energy; And a capacitor configured to store the converted electrical energy to supply power to the LED.

In addition, the crosswalk lighting method according to the present invention for achieving the above object in the crosswalk lighting method for illuminating the crosswalk using a lighting device respectively installed on both ends of the crosswalk, the corresponding area of the crosswalk Installing a plurality of LEDs on each side of the lighting substrate, the plurality of LEDs being sequentially divided from one end, the plurality of surfaces facing each area of the divided crosswalk being connected to each other; Detecting whether there is a pedestrian waiting at one end of the crosswalk by a pedestrian detector; When the waiting pedestrian is detected from the pedestrian detector, lighting up an LED installed on a surface of the illumination substrate facing the area nearest to the pedestrian among respective areas of the divided crosswalk; And lighting, by the controller, the LEDs installed on the surface of the lighting substrate sequentially facing the respective areas from the area closest to the pedestrian upon the pedestrian traffic signal.

Preferably, the area of the crosswalk further comprises an area on the sidewalk block where the waiting pedestrian is located, the area closest to the pedestrian is the area on the sidewalk block where the waiting pedestrian is located,

The pedestrian detection unit detects whether the waiting pedestrian is located on the sidewalk block located at one end of the crosswalk by the pedestrian detection sensor,

The pedestrian detection unit captures the image on the crosswalk and the sidewalk block located at one end of the crosswalk by a pedestrian detection camera, detects the presence or absence of pedestrians from the captured image by the image analyzer, and captures the image from the pedestrian detection camera. Saved images to the storage,

The controller illuminates the LEDs installed on the surface of the lighting substrate sequentially facing the respective areas from the region closest to the sidewalk block at predetermined time intervals at the time of the pedestrian traffic signal,

The pedestrian detection unit further detects the walking speed of the pedestrian, the controller adjusts the lighting time interval of the LED according to the walking speed of the pedestrian detected from the pedestrian detection unit,

The method may further include lighting a boundary of the crosswalk by turning on a laser diode when the pedestrian traffic signal is signaled.

According to the lighting device and the lighting method of the crosswalk according to the present invention, LEDs installed on each side of the lighting substrate illuminate each area of the virtually divided crosswalk, thereby reducing installation costs and applying to wide lane crosswalks. This is possible and there is a significant effect that can prevent the light from being concentrated in some areas of the crosswalk.

In addition, according to the lighting device and the lighting method of the crosswalk according to the present invention by dividing the corresponding area of the crosswalk into a plurality of areas to sequentially illuminate each area of the crosswalk divided according to the pedestrian's traffic direction from the region closest to the pedestrian. The energy efficiency is improved, and the driver can easily recognize a pedestrian crossing the crosswalk.

1 is a view showing a crosswalk lighting apparatus according to the prior art.
2 is a side view schematically showing the components of a pedestrian crossing lighting apparatus according to the present invention.
3 is a state diagram showing an installation state of the pedestrian crossing lighting apparatus according to the present invention.

The lighting device and the lighting method of the crosswalk according to the present invention can divide the corresponding area of the crosswalk into a plurality of, to sequentially illuminate each area of the crosswalk divided according to the pedestrian's passage direction from the region closest to the pedestrian. Present technical features.

In the following, preferred embodiments, advantages and features of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a side view schematically showing the components of the crosswalk lighting apparatus according to the present invention, Figure 3 is a state diagram showing the installation state of the crosswalk lighting apparatus according to the present invention. 2 and 3, the crosswalk lighting apparatus 100 according to the present invention divides a corresponding area of the crosswalk 10 into a plurality of sequentially from one end to each area of the divided crosswalk 10. A lighting substrate formed by connecting a plurality of surfaces 40a and 40b facing each other, a plurality of LEDs 50a and 50b installed on respective surfaces 40a and 40b of the lighting substrate, and one end of the crosswalk 10. Pedestrian detector (not shown) for detecting whether there is a pedestrian waiting in the area and when the waiting pedestrian is detected from the pedestrian detector, the area 10a closest to the pedestrian among the respective areas of the divided crosswalk 10 LED 50a installed on the surface 40a of the lighting substrate facing the lighting panel, and LEDs provided on the surface of the lighting substrate facing the respective regions sequentially from the region 10a closest to the pedestrian upon the pedestrian traffic signal. To Equal includes a controller (not shown).

The lighting substrate according to the present invention divides the corresponding area of the crosswalk 10 into a plurality in sequence from one end to a plurality of faces 40a and 40b facing the respective areas 10a and 10b of the divided crosswalk 10. ) Is connected to each other. For example, as shown in FIG. 3, the area of the crosswalk 10 is virtually divided into four, and the crosswalk illuminated by the crosswalk lighting device 100 installed at one end of the crosswalk 10 ( 10) The illumination substrate can be constructed by connecting the two surfaces 40a and 40b facing the respective regions 10a and 10b with the region A as the region 10a and the region B as the region 10b.

In this figure, the corresponding area of the crosswalk 10 is divided into four, and the surface of the crosswalk illumination device 100 installed at one end of the crosswalk 10 faces two areas 10a and 10b adjacent thereto. Although shown as abutting 40a, 40b, it is apparent that the number of areas of the crosswalk 10 to be divided and the number of faces of the illumination substrate facing each area of the crosswalk 10 can be configured in various ways. Do.

In addition, although not shown, the corresponding area of the crosswalk 10 may further include an area on the sidewalk block where waiting pedestrians are located. Thus, the illumination substrate may be constructed such that one or more faces of the illumination substrate face an area on the sidewalk block and the other face toward each divided area of the crosswalk.

The illumination substrate of the present invention is integrally formed to face each area of the divided crosswalk 10, or the illumination substrate is formed of a plurality of angles adjustable to adjust the illumination angle of the crosswalk 10. Of course you can. In addition, each surface of the illumination substrate may include an angle adjusting unit such as a hinge formed at one or both ends thereof, and may be coupled to each other so that each surface may be adjusted by the angle adjusting unit.

The LEDs 50a and 50b according to the present invention are provided in plural on the respective surfaces 40a and 40b of the illumination substrate to illuminate the respective divided regions 10a and 10b of the crosswalk 10. LEDs 50a and 50b have been used as light sources of various lighting recently because they convert electrical energy into light energy and thus have high light conversion efficiency and very low power consumption and long life.

By installing a plurality of LEDs 50a and 50b on each surface 40a and 40b of the lighting substrate, the illuminance can be adjusted according to the number of LEDs to be installed, and the LEDs emit light due to failure or power failure. If not, the entire LED that illuminates the crosswalk 10 is not turned off by lighting the remaining LEDs. In addition, even if the same number of LEDs are installed on each side of the lighting substrate, it is of course possible to adjust the illuminance of the LEDs installed on each side by the controller.

In addition, the LEDs 50a and 50b provided on the respective surfaces 40a and 40b of the lighting substrate may be provided with a plurality of illuminations, each of which has different illuminance depending on the surfaces 10a and 10b facing the respective regions of the divided crosswalk 10. LEDs 50a and 50b can be installed to illuminate the respective regions 10a and 10b of the crosswalk 10 with uniform illumination.

That is, since the illuminance is lower as the distance from the LED increases, in the case of the LED 50b installed on the surface 40b of the lighting substrate facing the B region 10b of the crosswalk 10, the A of the crosswalk 10 It is possible to illuminate the entire area of the crosswalk 10 with uniform illuminance using an LED having a higher illuminance than the LED 50a provided on the surface 40a of the illuminating substrate facing the region 10a.

In addition, the crosswalk lighting apparatus 100 according to the present invention preferably further includes an LED cover (not shown) so that the light irradiated from the LEDs 50a and 50b is excluded from the corresponding area of the crosswalk 10. It can be distributed elsewhere to prevent driver's view such as glare.

The pedestrian detector (not shown) according to the present invention detects whether there is a pedestrian waiting at one end of the crosswalk 10. The pedestrian detection unit refers to detecting a pedestrian waiting automatically by a pedestrian detection sensor, a pedestrian detection camera, or manually by an operation of a user button when a pedestrian approaches one end of the crosswalk 10 to cross.

The pedestrian detection unit may be a pedestrian detection sensor that detects whether a waiting pedestrian is located on the sidewalk block 30 located at one end of the crosswalk 10. The pedestrian detection sensor may adopt an appropriate sensor as necessary, such as an infrared sensor, a motion detection sensor, and the pedestrian who wants to pass the crosswalk 10 on the sidewalk block 30 adjacent to one end of the crosswalk 10. Detect whether or not you are waiting.

In addition, the pedestrian detection unit is a pedestrian detection camera for taking an image on the crosswalk 10 and the sidewalk block 30 located at one end of the crosswalk 10, the image analysis unit for detecting the presence of pedestrians from the captured image And it may be configured to include a storage unit for storing the image taken from the pedestrian detection camera.

In this case, the pedestrian detection unit may detect whether the pedestrian is waiting on the sidewalk block 30 by analyzing the image captured by the pedestrian detection camera by the image analyzer. In addition, the pedestrian detection camera photographs the image around the crosswalk 10 as well as the sidewalk block 30, and the image taken by the storage unit is stored, such as a variety of traffic accidents occurring in the crosswalk 10. The accident situation can be secured with data.

The controller (not shown) according to the present invention, when a waiting pedestrian is detected from the pedestrian detecting unit, the surface of the lighting substrate facing the area 10a closest to the pedestrian among the respective areas of the divided crosswalk 10 ( The LED 50a installed in 40a is turned on, and when the pedestrian traffic signal is signaled, the LEDs provided on the surface of the lighting substrate facing the respective areas are sequentially turned on from the region 10a closest to the pedestrian.

More specifically, the controller turns off the LED when there is no pedestrian, and when the waiting pedestrian is detected by the pedestrian detector, it determines the area A 10a which is the divided area of the pedestrian crossing 10 closest to the pedestrian. The LED 50a provided on the surface 40a of the illuminated substrate is turned on to illuminate the A region 10a. As described above, when there is a pedestrian waiting, it is possible to inform the driver of the presence of a waiting pedestrian to pass the crosswalk 10 to the driver by illuminating the area 10a.

When there is a pedestrian waiting at one end of the crosswalk 10, the controller illuminates the A region 10a by lighting the LED 50a installed on the surface 40a of the illumination substrate facing the A region 10a. In response to the pedestrian traffic signal of a traffic light (not shown) installed in the crosswalk 10, the LEDs 50b installed in the B area 10b are sequentially turned on from the A area 10a. Thereafter, the C area 10c and the D area 10d of the crosswalk 10 are sequentially illuminated by the crosswalk lighting device 100 installed at the other end of the crosswalk 10.

In addition, although not shown, as described above, the corresponding area of the crosswalk may further include an area on the sidewalk block where the waiting pedestrian is located. Therefore, the controller may be configured to illuminate an area on the sidewalk block where the waiting pedestrian is located when there is a pedestrian waiting and sequentially illuminate each divided area of the crosswalk at the time of the pedestrian traffic signal.

Preferably, the controller sequentially steps LEDs respectively provided on the surfaces of the lighting substrates facing the A region 10a, B region 10b, C region 10c, and D region 10d at predetermined time intervals at the time of the pedestrian traffic signal. Can be lit. That is, the position of the pedestrian on the crosswalk 10 by illuminating the area A 10a according to the direction of the pedestrians and sequentially illuminating the area B 10b, area C 10c and area D 10d at intervals of several seconds. The driver can identify. In addition, when illuminating the crosswalk 10 sequentially according to the pedestrian traffic direction, it is possible to predict the time lapse of the pedestrian traffic signal according to the illumination position of the pedestrian crossing 10, and therefore, generally installed in traffic lights Can produce the same effect as a traffic light timer.

More preferably, the pedestrian detection unit further detects the walking speed of the pedestrian passing through the crosswalk 10 and the controller lights up the LED 50a and 50b according to the walking speed of the pedestrian detected from the pedestrian detection unit. The interval can be adjusted. The walking speed of the pedestrian is detected by a motion detection sensor or the above-described pedestrian detection camera and image analysis unit, and the controller adjusts the lighting time intervals of the LEDs 50a and 50b accordingly and passes the pedestrian crossing through the crosswalk 10. There is a case and the elderly can be identified in a variety of situations, such as the elderly.

In addition, the pedestrian crossing lighting apparatus 100 according to the present invention further includes an illumination sensor (not shown) for detecting an external light amount, so that the controller can light the LEDs 50a and 50b only when the external light amount is less than a predetermined amount. have. It is possible to illuminate the crosswalk 10 irrespective of the illuminance or to illuminate the crosswalk 10 only when the street lights are turned on, but the safety of the crosswalk 10 is more problematic at night or in bad weather when the view is not secured. Therefore, the illuminance detection sensor detects the external light amount and transmits the information to the controller to illuminate the crosswalk 10 by lighting the LEDs 50a and 50b when the external light amount is less than a predetermined amount.

The pedestrian crossing lighting apparatus 100 according to the present invention may further include a laser diode 70 that lights when the pedestrian traffic signal is illuminated and illuminates the pedestrian crossing boundary line 20. The laser diode 70 is small in size, consumes very little power, and amplifies and emits light, which is excellent in directivity. When the laser diode 70 is included, the laser diode 70 emits light along the crosswalk boundary line 20 when the pedestrian traffic signal is signaled so that the pedestrian can easily recognize the boundary of the crosswalk 10. , To guide the passage into the crosswalk (10).

FIG. 2 schematically shows the configuration of the pedestrian crossing lighting device 100, and the position where the laser diode 70 is installed is not limited thereto, and various types of light emitted and guided along the pedestrian crossing boundary line 20 may be provided. Of course, the location can be configured.

The crosswalk lighting device 100 according to the present invention includes a solar cell (not shown) for collecting and converting sunlight into electrical energy, and a capacitor for storing the converted electrical energy to supply power to the LEDs 50a and 50b ( Not shown) may be further included. As described above, since the LED has high light conversion efficiency and very low power consumption, sufficient power can be supplied from the solar cell. Solar cells for condensing sunlight and converting them into electrical energy and capacitors for storing the converted electrical energy are well-known configurations and detailed descriptions thereof will be omitted.

As shown in FIG. 3, the crosswalk lighting apparatus according to the present invention is provided to have a plurality of illumination angles in a vertical direction in order to sequentially illuminate each region by dividing a corresponding region of the crosswalk into a plurality of crosswalks. Of course, it can also be installed so as to have a plurality of illumination angles in the horizontal direction according to the installation position of the sidewalk lighting device.

Hereinafter, a crosswalk lighting method according to the present invention will be described in detail with reference to the accompanying drawings.

Crosswalk lighting method according to the present invention is a step (S1) for detecting whether there is a pedestrian waiting for the pedestrian detection unit at one end of the pedestrian crossing, if the pedestrian waiting from the pedestrian detection unit detects the pedestrian crossing ( 10) by dividing the corresponding areas of 10) into a plurality in sequence, so that the controller is configured to select the area 10a closest to the pedestrian in the lighting substrate formed by connecting a plurality of surfaces facing each area of the divided crosswalk 10. LED (50a) installed on the facing surface (40a) and the step of lighting the pedestrian traffic signal controller is installed on the surface of the illumination substrate facing the respective areas sequentially from the area (10a) closest to the pedestrian Lighting step (S4).

The crosswalk lighting method according to the present invention first detects whether there is a pedestrian waiting at one end of the crosswalk 10 (S1).

The pedestrian detection unit may be a pedestrian detection sensor that detects whether a waiting pedestrian is located on the sidewalk block 30 located at one end of the crosswalk 10, and is located around the sidewalk block 30 and the crosswalk 10. It may be configured to include a pedestrian detection camera for taking an image and a storage unit for storing the captured image.

Subsequently, when waiting pedestrians are detected from the pedestrian detection unit, the corresponding areas of the crosswalk 10 are sequentially divided into a plurality, so that a plurality of surfaces facing the respective areas of the divided crosswalk 10 are provided. The LED 50a installed on the surface 40a facing the area 10a closest to the pedestrian is turned on (S2).

An illumination substrate formed by virtually dividing an area of the crosswalk 10 and connecting a plurality of surfaces 40a and 40b facing each of the divided regions 10a and 10b and an LED installed on the illumination substrate ( The contents of 50a and 50b are the same as those described above, and repeated descriptions thereof will be omitted.

As described above, when there are waiting pedestrians, the area A of the crosswalk 10 may be illuminated to inform the driver that there are waiting pedestrians to pass the crosswalk 10.

Finally, in the crosswalk lighting method according to the present invention, when the pedestrian traffic signal, the controller turns on the LEDs installed on the surface of the lighting substrate facing the respective areas sequentially from the area 10a closest to the pedestrian (S3).

That is, when there is a pedestrian waiting at one end of the crosswalk 10, the controller illuminates the A region 10a by lighting the LED 50a installed on the surface 40a of the illumination substrate facing the A region 10a. Then, when the pedestrian traffic signal of the traffic light provided in the crosswalk 10, the LED 50b provided in the B area 10b is sequentially turned on from the A area 10a according to the pedestrian's traffic direction. Thereafter, the C area 10c and the D area 10d of the crosswalk 10 are sequentially illuminated by the crosswalk lighting device 100 installed at the other end of the crosswalk 10.

In addition, although not shown, the controller further includes an area on a sidewalk block where a waiting pedestrian is located in a corresponding area of the crosswalk, and the controller illuminates an area on the sidewalk block where the waiting pedestrian is located when there is a waiting pedestrian, and passes the pedestrian passage. It may be configured to sequentially illuminate each divided area of the crosswalk upon signaling.

The controller may further include LEDs installed on the surfaces of the lighting substrate toward the A region 10a, the B region 10b, the C region 10c, and the D region 10d at predetermined time intervals, that is, several seconds at the time of the pedestrian traffic signal. May be sequentially turned on, and the above-described pedestrian detector may additionally detect the walking speed of the pedestrian so as to adjust a time interval that is sequentially turned on according to the detected walking speed of the pedestrian.

Preferably, the crosswalk lighting method according to the present invention may further include the step (S4) of illuminating the boundary line 20 of the crosswalk 10 by turning on the laser diode 70 in the pedestrian traffic signal. In this case, the laser diode 70 emits light along the crosswalk boundary line 20 so that the pedestrian can easily recognize the boundary of the crosswalk 10 upon the pedestrian traffic signal, and the crosswalk 10 You will be guided to pass.

While the preferred embodiments of the present invention have been described and illustrated above using specific terms, such terms are used only for the purpose of clarifying the invention, and it is to be understood that the embodiment It will be obvious that various changes and modifications can be made without departing from the spirit and scope of the invention. Such modified embodiments should not be understood individually from the spirit and scope of the present invention, but should be regarded as being within the scope of the claims of the present invention.

10: crosswalk 20: crosswalk boundary
30: sidewalk block 40a, 40b: lighting substrate
50a, 50b: LED 70: laser diode
100: crosswalk lighting device

Claims (18)

In the crosswalk lighting apparatus for illuminating the crosswalk, respectively installed at both ends of the crosswalk,
An illuminating substrate formed by dividing a corresponding area of the crosswalk into a plurality of sequentially from one end and connecting a plurality of surfaces facing each area of the divided crosswalk;
A plurality of LEDs installed on respective surfaces of the lighting substrate;
A pedestrian detector configured to detect whether there is a pedestrian waiting at one end of the crosswalk;
When a waiting pedestrian is detected from the pedestrian detection unit, an LED installed on a surface of the lighting substrate facing the pedestrian area closest to the pedestrian of each of the divided crosswalks is turned on, and the pedestrian traffic signal is closest to the pedestrian. A controller for lighting the LEDs provided on the surface of the lighting substrate sequentially from the region toward the respective regions; And
A laser diode that lights when the pedestrian traffic signal is illuminated and illuminates the boundary of the crosswalk,
The pedestrian detection unit further detects the walking speed of the pedestrian,
And the controller adjusts a lighting time interval of the LED according to the walking speed of the pedestrian detected by the pedestrian detector.
The method according to claim 1,
The corresponding area of the pedestrian crossing further includes an area on the sidewalk block where the waiting pedestrian is located,
And an area closest to the pedestrian is an area on a sidewalk block on which the waiting pedestrian is located.
The method according to claim 1,
Each surface of the illumination substrate includes an angle adjusting portion formed at one end or both ends, the sidewalk lighting apparatus, characterized in that each of the surfaces are coupled to each other to enable the angle adjustment.
The method according to claim 1,
The pedestrian detection unit is a pedestrian detection device, characterized in that for detecting whether the waiting pedestrian is located on the sidewalk block located at one end of the crosswalk.
The method according to claim 1,
The pedestrian detection unit is a pedestrian detection camera for photographing the image on the crosswalk and the sidewalk block located at one end of the crosswalk, an image analyzer for detecting the presence of pedestrians from the captured image and stores the image taken from the pedestrian detection camera Crosswalk lighting device comprising a storage unit.
The method according to claim 1,
And the controller illuminates the LEDs installed on the surfaces of the lighting substrates sequentially facing the respective areas from the area closest to the sidewalk block at predetermined time intervals at the time of a pedestrian traffic signal.
delete The method according to claim 1,
LEDs installed on each surface of the lighting substrate, the illumination of each area of the crosswalk with a uniform illumination, the illumination of each of the crosswalk, characterized in that the crosswalk illumination device.
delete The method according to any one of claims 1 to 6 and 8,
It further includes an illuminance detection sensor for detecting the external light amount,
And the controller turns on the LED only when the external light amount is equal to or less than a predetermined amount.
The method according to any one of claims 1 to 6 and 8,
A solar cell that collects sunlight and converts it into electrical energy; And
And a capacitor for storing the converted electrical energy to power the LED.
In the crosswalk lighting method for illuminating the crosswalk using a lighting device provided respectively at both ends of the crosswalk,
Detecting whether there is a pedestrian waiting at one end of the crosswalk by a pedestrian detector;
When the waiting pedestrian is detected from the pedestrian detector, the corresponding area of the pedestrian crossing is sequentially divided into a plurality, so that the controller is connected to a plurality of surfaces facing each area of the divided pedestrian crossing. Lighting an LED installed on a surface facing an area closest to the pedestrian;
Illuminating an LED installed on a surface of the illumination substrate sequentially facing the respective areas from the region closest to the pedestrian when the pedestrian traffic signal is signaled; And
Illuminating a boundary of the crosswalk by turning on a laser diode upon a pedestrian traffic signal,
The pedestrian detection unit further detects the walking speed of the pedestrian,
Wherein the controller is a crosswalk lighting method characterized in that for adjusting the interval of the lighting time of the LED according to the walking speed of the pedestrian detected by the pedestrian detector.
13. The method of claim 12,
The corresponding area of the pedestrian crossing further includes an area on the sidewalk block where the waiting pedestrian is located,
And the area closest to the pedestrian is an area on a sidewalk block on which the waiting pedestrian is located.
13. The method of claim 12,
And the pedestrian detecting unit detects whether the waiting pedestrian is located on a sidewalk block located at one end of the crosswalk by a pedestrian detection sensor.
13. The method of claim 12,
The pedestrian detector detects the image of the pedestrian crossing and the sidewalk block located at one end of the crosswalk by a pedestrian detection camera, detects the presence or absence of pedestrians from the captured image by the image analyzer, and captures the image from the pedestrian detection camera. Crosswalk lighting method characterized in that the image is stored in the storage unit.
13. The method of claim 12,
And the controller illuminates the LEDs installed on the surfaces of the lighting substrates sequentially facing the respective areas from the region closest to the sidewalk block at predetermined time intervals at the time of a pedestrian traffic signal.
delete delete

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