KR101308092B1 - Apparatus for lightening tunnel - Google Patents

Abstract

The present invention relates to a tunnel lighting device that improves the lighting efficiency by improving the structure of the lighting device for illuminating the interior of a tunnel that is constructed on a general road, a high-speed road, a railway and an underground driveway, and includes a reflector disposed on the inner wall of the tunnel and the And an LED lighting device disposed adjacent to the reflecting unit and irradiating light to the reflecting unit, wherein the reflecting unit reflects the light from the LED lighting unit to the lower space of the tunnel. Thus, the lighting efficiency can be improved while the use of power is reduced.

Description

Tunnel lighting device {APPARATUS FOR LIGHTENING TUNNEL}

The present invention relates to a tunnel lighting device, and more particularly, to a tunnel lighting device having improved lighting efficiency by improving the structure of a lighting device for illuminating the interior of a tunnel that is constructed in a general road, a high-speed road, a railroad, and an underground roadway. will be.

In general, lighting is required only at night on open roads outside, but in tunnels constructed on highways, railways and underground roadways, lighting is essentially installed inside tunnels to protect drivers from traffic accidents.

The tunnel is a structure in which both sides communicate with each other while the entrance and the exit form a semi-circle or ellipse shape. When the tunnel is used for a general vehicle, a plurality of lights are installed at predetermined intervals for safe driving of the vehicle.

In particular, it is necessary to secure a certain degree of brightness up to a height of approximately 2 m through which the vehicle passes.

Conventional tunnels are usually made of concrete structures, the wall surface exposed to the inside is non-uniform, the reflectivity is lowered, which is a cause of lowering the lighting efficiency of the entire interior of the tunnel.

Conventionally, in order to solve this problem, efforts have been made to improve the lighting performance by attaching a material having a high reflectance of light, but even these materials do not effectively reflect the light incident from the light installed above the tunnel and diffuse most of them. There was a problem that causes a loss of energy.

In order to maintain the brightness of the tunnel throughout the day and night, a more power-consuming light source is used, which leads to excessive consumption of power.

In addition, most of the lights are to directly illuminate the inside of the tunnel, there was a fear of safety accidents when the person or pedestrian driving the car is directly exposed to the lights.

The present invention has been made to solve the above problems, the tunnel is configured to effectively reflect the light source and the desired portion so as to maintain the desired brightness in the area necessary for driving safety of the vehicle while using a power-efficient light source The purpose is to provide a lighting device.

Tunnel lighting apparatus according to the present invention includes a reflecting unit disposed on at least one of the inner wall of the both sides of the tunnel and the LED lighting device disposed adjacent to the reflecting unit and irradiates light to the reflecting unit, the reflecting unit the LED illuminating device Provided is a tunnel lighting device, characterized in that for reflecting light from the tunnel to the lower space of the tunnel. Thus, the lighting efficiency can be improved while the use of power is reduced.

In addition, in the tunnel lighting apparatus according to the present invention, the reflector may be formed long in the longitudinal direction of the tunnel. Therefore, it is possible to evenly illuminate the road surface of the entire area of the tunnel.

In addition, in the tunnel lighting apparatus according to the present invention, the LED lighting apparatus is formed long in the longitudinal direction of the tunnel, and is spaced apart from the reflecting portion to the inside of the tunnel. Therefore, there is an advantage that can widen the range of illumination by the reflector.

On the other hand, the tunnel lighting apparatus according to the present invention includes a reflector arranged on the inner wall of the tunnel and the LED illuminating device arranged in a line along the longitudinal direction of the tunnel in front of the reflector and irradiating light to the reflector, The reflector provides a tunnel lighting device for reflecting light from the LED lighting device to the space below the tunnel. Thus, the illumination can be directed in a specific direction, and the illumination area can be formed by the desired height under the tunnel.

Further, in the tunnel lighting device according to the present invention, the light from the LED lighting device substantially directs the running direction of the tunnel. Therefore, since direct lighting is not visible to the eyes, there is an advantage that eye fatigue is reduced.

On the other hand, the tunnel lighting apparatus according to the present invention, the reflector disposed on the tunnel inner wall and

And a LED illuminating device disposed adjacent to the reflecting part and irradiating light to the reflecting part, wherein the reflecting part is a retroreflective surface reflecting light in parallel with a direction incident from the LED illuminating device. . Therefore, the efficiency of illumination by reflection of light is improved.

In addition, in the tunnel lighting device according to the present invention, the LED lighting device is formed long in the longitudinal direction of the tunnel. Therefore, it is possible to evenly illuminate the road surface of the entire area of the tunnel.

In addition, the tunnel lighting apparatus according to the present invention is formed at a height corresponding to the height of the pre-reflective portion is arranged in a row in the longitudinal direction of the tunnel. Therefore, the road surface of the entire area of the tunnel can be illuminated evenly, and the light irradiation direction can be freely selected.

In addition, in the tunnel lighting apparatus according to the present invention, the reflector may be disposed adjacent to the road surface. Therefore, since the illumination is possible to the required portion of the lower side of the tunnel, it is possible to minimize the loss of light of the unnecessary portion.

In addition, the tunnel lighting apparatus according to the present invention, the reflector comprises a glass bead or polygonal prism arranged in a plane shape reflecting layer for retroreflecting light, the path parallel to the light irradiated from the LED illuminating device Can reflect light. Therefore, it is possible to illuminate the desired area while minimizing the loss of light.

In addition, the tunnel lighting apparatus according to the present invention, the reflector may further include a polarizing layer for polarizing the light reflected from the reflective layer. Therefore, diffusely reflected light can be reduced and eye fatigue can be reduced.

Since the tunnel lighting apparatus according to the present invention uses LED lighting as a light source of the tunnel, there is an effect that can reduce the power consumption by the tunnel lighting to turn on day and night.

In addition, the tunnel lighting apparatus according to the present invention by reflecting the light to the reflector using an indirect lighting method while reducing eye fatigue, it is possible to intensively illuminate the road surface portion of the tunnel has the effect of improving the lighting efficiency.

In addition, the tunnel lighting apparatus according to the present invention has an effect that the lighting efficiency can be maximized by forming a reflective layer of a retroreflective material on the reflecting portion.

1 is a front view showing a tunnel lighting apparatus according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the tunnel lighting apparatus shown in FIG. 1.
3 is a front view showing a tunnel lighting apparatus according to a second embodiment of the present invention.
4 is a front view showing a tunnel lighting apparatus according to a third embodiment of the present invention.

Hereinafter, a tunnel lighting apparatus according to the concept of the present invention will be described in more detail with reference to the drawings.

The tunnel is a structure in which both sides communicate with each other while the entrance and exit form a semi-circle or ellipse shape, and the tunnel lighting apparatus according to the concept of the present invention can be applied to tunnels of various shapes and structures as long as the tunnel can pass through a person or a vehicle. .

1 is a front view showing a tunnel lighting apparatus according to a first embodiment of the present invention, Figure 2 is a perspective view of the tunnel lighting apparatus of FIG.

In the tunnel lighting apparatus according to the first embodiment of the present invention, the reflector 30 disposed on the inner wall of the tunnel 10 and the front side of the reflector 30 are irradiated with light to the reflector 30. Including the LED lighting device 20, the reflector 30 is to reflect the light from the LED lighting device 20 to the road surface.

The reflector 30 is disposed on the inner wall of the tunnel 10 to reflect light from a predetermined light source, and may be formed in a tile manner or in a manner in which a paint having excellent reflectance is applied to the inner wall surface.

Tunnel lighting apparatus of the present invention uses the LED lighting device 20 as a light source, the light emitting diode (LED) is a small number of electrons are injected using a pn junction structure of a semiconductor, and the light emitting by using their recombination Compared with the light bulbs generally used, there is a high conversion efficiency of electric energy into light energy, low power consumption, and long lifespan.

The LED lighting device 20 is disposed on the front side where the reflector 30 is disposed, and unlike the prior art, is disposed so as not to directly irradiate light into the tunnel 10. That is, the light from the LED lighting device 20 is irradiated to the reflecting unit 30, the light reflected by the reflecting unit 30 is used as the light inside the tunnel 10.

The LED lighting device 20 is disposed adjacent to the reflecting portion 30, preferably on the front side of the reflecting portion 30.

Therefore, as described above, the LED lighting device 20 is disposed adjacent to the front side of the reflector 30, and the illumination inside the tunnel utilizes the light reflected from the reflector 30, and the tunnel ( 10) Since the brightness can be maintained by the indirect lighting method inside, there is an advantage that the problem of safety accidents caused by the car or pedestrian directly looking at the light as described above can be reduced.

In addition, the reflector 30 may be formed to extend in the longitudinal direction of the tunnel 10 and may be disposed at both sides of the inner wall of the tunnel 10.

When the reflector 30 is formed as a paint applied to the inner wall of the tunnel 10, the reflector 30 may correspond to the shape of the wall, but when formed in such a manner as to attach a separate member such as a tile or a sheet, the reflector 30 may have various shapes. Can be done.

The reflector 30 may be formed in a rectangular shape that is long in the longitudinal direction of the tunnel to reflect even light from the LED lighting device 20 to the inside of the tunnel, and may be formed in a curved or stepped shape in some cases. Of course.

According to the shape of the reflector 30 as described above, the LED lighting device 20 may also be formed long in the longitudinal direction of the tunnel to be effectively reflected to the reflector (30).

The LED lighting device 20 may be spaced apart from the reflector 30 to the inside of the tunnel 10 so as to widen the area of the reflected light.

In this case, a support member (not shown) for connecting the LED lighting device 20 and the reflector 30 may be further disposed.

In addition, since the LED lighting device 20 is formed in a long shape in the longitudinal direction of the tunnel, it may be arranged on the upper side of the reflector 30 as shown in the drawing, but may be arranged at various heights according to the selection. Of course.

In the concept of the first embodiment of the present invention, the reflector 30 and the LED lighting device 20 are formed long along the inner wall surface of the tunnel 10, and the LED lighting device 20 is the reflecting device 30. The light is directly irradiated, and the light reflected from the reflector 30 is disposed to face the road surface of the tunnel 10.

Here, the meaning that the light reflected from the reflector 30 is directed to the road surface means a direction of the center of the road surface which is approximately the normal direction of the reflector 30 based on the horizontal direction, If the height of the tunnel 10 is partitioned, it can be seen that the road surface is disposed below.

That is, since the indirect lighting from the LED lighting device 20 illuminates the road surface along the longitudinal direction of the tunnel 10 as a whole, the lighting area is substantially concentrated in the area adjacent to the road surface where pedestrians or vehicles pass, and thus is unnecessary. It should be noted that since the amount of light consumed to the upper side of the tunnel can be minimized, the lighting efficiency is maximized.

When the reflector 30 is made of a retroreflective material as will be described later, the LED illuminator 20 is disposed in front of the reflector 30, and the light reflected from the reflector 30 is lost. Minimize the lighting to the desired area.

On the other hand, Figure 3 is a perspective view showing a tunnel lighting apparatus according to a second embodiment of the present invention.

As in the first embodiment, the reflector 30 is elongated along the longitudinal direction of the tunnel 10, and the LED lighting devices 21 are arranged in rows along the longitudinal direction of the tunnel 10.

The LED lighting device 21 may be formed only in part with respect to the height of the reflector 30, or may be formed to correspond approximately to the height of the reflector 30 as shown in the figure.

The LED lighting apparatus 21 may be spaced apart from the reflecting portion 30 to the inside of the tunnel 10 in order to further widen the area of light reflected from the reflecting portion 30 in the road surface direction. .

In this case, a support member (not shown) may be further disposed to connect the spaced intervals between the reflector 30 and the LED lighting apparatus 21.

According to this concept, the illumination can be directed in a specific direction and can form the illumination area by the desired height under the tunnel.

In the embodiment of Figure 3 the LED lighting device 21 is arranged in a row in the longitudinal direction of the tunnel 10, the direct light is arranged to direct the reflector 30. Therefore, the light reflected from the reflector 30 may be directed toward the center side of the road surface, that is, in the direction of the normal to the reflector 30.

That is, since each LED lighting device 21 can illuminate different areas of the road surface area, the lighting performance can be further improved.

4 is a perspective view showing a tunnel lighting apparatus according to a third embodiment of the present invention, showing a modification of the second embodiment.

In the third embodiment of the present invention, each of the LED lighting devices 22 arranged in a row may be arranged to direct the driving direction of the tunnel.

The driving direction means, for example, an exit direction when the vehicle travels in the exit direction opposite to the entrance of the tunnel 10 shown in the drawing.

In the third embodiment of the present invention, the direction in which the LED lighting device 22 is directed may be a case in which the light is irradiated to the reflecting unit 30 but is biased in the driving direction, and is parallel to the driving direction. It may also mean, or may refer to the opposite side wall biased in the driving direction.

In this case, there is an advantage that the problem of directly irradiating the driver's or pedestrian's gaze driving the vehicle can be minimized.

However, when the traveling directions are opposite to each other on the right and left sides of the tunnel 10, the arrangement and the irradiation directions of the lighting devices on both side walls may be made to face each other.

Tunnel lighting apparatus according to various embodiments of the present invention as described above proposes a configuration that can brighten the inside of the tunnel 10, in particular the road surface direction by indirect light, the reflector 30 is disposed adjacent to the road surface It is more preferable to improve the lighting efficiency of the lower side of the tunnel.

On the other hand, the reflector 30 may be made of a retroreflective unit for reflecting light in a path parallel to the light irradiated from the LED lighting device.

Retroreflective refers to the reflection and return in a direction of incidence over a wide range of the incident direction of light, in the case of trying to keep the road surface side bright by LED indirect lighting as in the concept of the present invention, the reflector 30 In order to improve the directivity of the reflected light b), the concept of retroreflecting the incident light a to the illumination of the tunnel is proposed.

Accordingly, the reflector 30 may include a reflective layer for retroreflecting light by arranging glass beads or polygonal prisms in a plane shape. However, if a structure or a material capable of reflecting the incident light (a) in a specific direction may be applied to a variety of materials or configurations of course.

The reflective layer prevents scattering of the incident light a, that is, light reflected from the LED illuminators 20, 21, and 22 to the reflector 30, thereby forming an illumination region at a desired portion. In this way, the efficiency of lighting can be maximized according to this concept.

In addition, the reflector 30 may further include a polarization layer for polarizing light reflected from the reflective layer. The polarizing layer is configured to pass only light having a specific direction, such as vertical or horizontal components of the vibration component of the light, there is an advantage that can further reduce the diffuse reflection of light.

In addition to the reflective layer and the polarizing layer, the reflective part 30 may further include a light absorbing layer for absorbing predetermined light or a color layer for converting properties of light.

Tunnel lighting apparatus according to the present invention as described above uses an LED light as a light source of the tunnel, there is an advantage that can minimize the power consumption. In addition, it is possible to intensively illuminate the road surface by using the indirect lighting method by reflecting light to the reflector to improve the lighting efficiency, and by forming a reflective layer of retroreflective material on the reflector, such lighting efficiency can be maximized.

In the foregoing, the present invention has been described in detail based on the embodiments and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the content of the following claims.

10 ... tunnel 11 ... surface
20 LED lighting 30 Reflector

Claims (11)

delete delete Reflectors disposed on at least one of the inner wall on both sides of the tunnel; And
It is disposed adjacent to the reflector and the LED lighting device for irradiating light to the reflector; includes;
The reflector reflects the light from the LED lighting device to the lower space of the tunnel,
The reflector is formed long in the longitudinal direction of the tunnel,
The LED lighting device is formed in the longitudinal direction of the tunnel, the tunnel lighting device, characterized in that spaced apart from the inside of the tunnel from the reflecting portion. A reflector disposed on the inner wall of the tunnel; And
It includes; LED lighting device arranged in a row along the longitudinal direction of the tunnel in the front of the reflector and irradiating light to the reflector;
The reflector is a tunnel lighting device, characterized in that for reflecting light from the LED lighting device to the road surface of the tunnel. 5. The method of claim 4,
The light irradiated from the LED lighting device to the reflector is directed to the tunnel lighting device, characterized in that the direction of travel of the tunnel. A reflector disposed on the inner wall of the tunnel; And
It is disposed adjacent to the reflector and the LED lighting device for irradiating light to the reflector; includes;
And the reflector is a retroreflective surface reflecting light in parallel with the direction incident from the LED illuminator. The method according to claim 6,
The LED lighting device, the tunnel lighting device, characterized in that formed long in the longitudinal direction of the tunnel. The method according to claim 6,
The LED lighting device is a tunnel lighting device, characterized in that formed in a height corresponding to the height of the reflector arranged in a row in the longitudinal direction of the tunnel. 9. The method according to any one of claims 3 to 8,
And the reflector is disposed adjacent to the road surface. 9. The method according to any one of claims 3 to 8,
The reflector is a tunnel lighting device, characterized in that the glass bead or polygonal prism-shaped prism is arranged in a plane shape reflecting the light retroreflective light. The method of claim 10,
The reflector further comprises a polarizing layer for polarizing the light reflected from the reflecting layer tunnel lighting apparatus.

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