KR101117531B1 - Led lights for tunnel - Google Patents

Abstract

PURPOSE: An LED lamp for a tunnel is provided to reduce unnecessary waste by properly arranging a reflector which applies light from the LED lamp to the outside according to an installation environment. CONSTITUTION: A light transmitting plate(60) is separated from the upper side of a protection plate(50). The light transmitting plate is fixed to an inner frame(17) of a bottom housing(10). The light transmitting plate transmits light from a reflector to the outside. A top housing(70) is formed on the upper side of the light transmitting plate. The top housing has a frame(71) combined with the inner frame of the bottom housing.

Description

LED luminaires for tunnels {LED lights for tunnel}

The present invention relates to an LED light fixture, and more particularly to a tunnel LED light fixture for easy installation in a tunnel or underground roadway to increase the irradiation efficiency.

In general, tunnel lighting fixtures are mainly installed in the ceiling or sidewall of tunnels or underground roadways, and are installed in a narrow and confined space unlike general roads. Blackout phenomenon occurs. This is the main cause of traffic accidents, and the development of such a luminaire is required in addition to installing such traffic obstacles.

Conventional tunnel luminaires use general halogen lamps and the like, in most cases there is a problem that you need to replace the lamp often because of the considerable heat generation and short life, there is also a problem that does not illuminate the area evenly.

In recent years, LED lamps are used instead of general halogen lamps to manufacture tunnel lighting fixtures. However, most of them are simply installed by using LED lamps inside the lamps. There was a problem that it is insufficient to irradiate evenly inside the tunnel or underground roadway to be installed.

The present invention has been invented to solve the problems of the prior art as described above, while increasing the irradiation efficiency while uniformly irradiating the interior of the tunnel or underground road to be installed, as well as unnecessary LED waste to be installed only necessary parts It is an object of the present invention to provide an LED light fixture for tunnels that can reduce the number.

In order to realize the above object, the present invention is a tunnel LED light fixture installed in the tunnel, the lower side is provided with a pair of brackets provided with fastening bolts on the lower side and a plurality of heat dissipation fins formed on the lower side is accommodated inside The lower housing is formed and the upper end is formed of a multi-stage edge portion is provided with a pair of hinges on one side in the longitudinal direction and a pair of fasteners on the other side in the longitudinal direction, and a plurality of heat dissipation holes are formed in the lower housing The base plate is seated and fixed to the inner rim of the lower housing, the sealing member seated on the inner rim of the lower housing, and a plurality of LED lamps are arranged and fixed to the base plate is installed to surround the plurality of LED lamps A circuit board provided with a plurality of reflecting plates to reflect light emitted from the LED lamp to the upper side; A protective plate which is provided at the inner rim of the lower housing and is fixed to the inner rim of the lower housing, and a plurality of through holes are formed to penetrate the upper side of the reflecting plate; And a floodlight plate for transmitting the light reflected through the reflector to the outside while protecting from the outside. It is provided in the upper portion of the floodlight plate is made of an upper housing which is formed in the edge portion in a shape corresponding to the coupling portion of the lower housing; The reflecting plate is a fallopian tube in the form of a narrow lower side and a wider upper side, and an inner side thereof is formed of a distributed reflector in a curved shape inwardly, and a transmissive lens is provided on the upper part of the distributed reflector to provide a plurality of longitudinal and horizontal circuits. Are batch coupled in an array; The central side transmissive lens of the transverse array of the transmissive lens is a straight type transmissive lens formed in the shape of a curved groove, the inner surface of the transverse arrangement from the edge side to the central side, the transverse lens of the transverse lens of both sides of the transverse lens It provides a LED light fixture for the tunnel, characterized in that the scattering type of light-transmitting lens is formed in the form of a curved groove that goes up and down from the side to the center side.

Tunnel LED light fixture according to the present invention made by the present invention is a tunnel or underground installed by making the reflecting plate for irradiating the light of the LED lamp to the outside consisting of a distributed reflector and a cohesive reflector to be properly arranged according to the installed environment There is an advantage that can increase the irradiation efficiency while evenly illuminating the interior of the driveway.

In addition, since it can be properly arranged according to the installation environment can be installed LED lamps only necessary parts to reduce unnecessary waste, easy to assemble and dismantle the LED light fixtures, there is an advantage that easy to install on the installation wall.

1 is a perspective view of a combination of LED lighting fixtures for tunnels according to the present invention;
2 is a side view of FIG. 1;
3 is an exploded perspective view according to the present invention;
4 is a side cross-sectional view of the combination of the diffuse reflection plate and the light transmitting lens according to the present invention;
5 is a plan view and a cross-sectional view of a linear floodlight lens according to the present invention;
6 is a plan view and a cross-sectional view of a scattering light transmitting lens according to the present invention;
7 is a side cross-sectional view of the installation state according to the present invention;
8 is a perspective view of a circuit board arrangement of another embodiment according to the present invention;
9 is a side cross-sectional view of FIG. 8.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 9, the LED lamp for tunnel A according to the present invention is the lower housing 10, the base plate 20, the sealing member 30, the circuit board 40, the protective plate 50, floodlight It consists of a plate 60 and an upper housing 70.

The LED light fixture is mainly installed in the interior of a tunnel or underground driveway to function to light the inside.

The lower housing 10 constituting the present invention is a pair of brackets provided with coupling bolts 11 are coupled to the inner mounting wall 85, such as a tunnel or underground driveway, on both lower sides as shown in FIGS. (12) is provided. The bracket 12 is coupled to the lower surface of the lower housing 10 by bolts 8, and the fastening bolt 11 is connected to and coupled to the through hole 7 formed in the bracket 12.

A plurality of heat dissipation fins 13 are formed at the lower portion of the lower housing 10 to protrude heat.

An accommodating part 15 is formed inside the lower housing 10. As shown in FIG. 3, the accommodation part 15 is typically formed on two sides, and on one side, a circuit board and the like are seated and coupled, and the other side is provided with a stabilizer 81 for stable current supply.

The upper end of the lower housing 10 is formed with a multi-stage edge 17. The edge portion 17 is formed in multiple stages, the base plate 20, the sealing member 30, the protective plate 50 and the light-transmitting plate 60 which will be described later in order to be seated in order to facilitate the coupling of the upper housing 70 .

In addition, one side of the lower housing 10 in the longitudinal direction is provided with a pair of hinges 19 to enable the rotation and opening and closing after the engagement with the upper housing 70, the other side in the longitudinal direction with the upper housing 70 A pair of fasteners 16 are provided for fixing.

The base plate 20 is seated and fixed to the inner edge portion 17 of the lower housing 10. The base plate 20 has a plurality of heat dissipation holes 21 formed thereon to move the heat generated from the LED lamp 41 to be positioned above the lower heat dissipation fin 13.

The sealing member 30 is seated on the inner edge portion 17 of the lower housing 10 positioned on the upper side of the base plate 20. The sealing material 30 maintains the state stably after coupling the lower housing 10 and the upper housing 70, alleviates shock, and prevents moisture or the like from flowing into the lower housing 10. .

The circuit board 40 is seated and fixed on the base plate 20.

On the circuit board 40, a plurality of LED lamps 41 for irradiating light are arranged in an array. The LED lamps 41 are fixedly installed in a suitable number and positions of the reflecting plates 45 to be provided for each LED lamp 41, and at least one LED lamp 41 is installed at each position.

When the plurality of LED lamps 41 are fixedly installed, a reflecting plate 45 is provided to surround the LED lamps 41. The reflector 45 is installed to reflect the light emitted from the LED lamp 41 to the upper side.

The reflector 45 may be implemented in various forms depending on the environment in which it is installed, but in the present invention, the lower side is narrow and the upper side surrounds the LED lamp 41 as shown in FIGS. 3 and 4. It is in the form of a wide fallopian tube, and its inner surface is provided with a distributed reflector plate 47 of a curved shape inwardly, and the distributed reflector plate 47 may be arranged in a plurality of longitudinal and horizontal arrangements. At this time, the vertical arrangement is the longitudinal direction of the LED light fixture (A) shown, the horizontal arrangement is the vertical direction of the vertical arrangement.

The light reflecting lenses 42 and 43 are respectively provided on the top of the distributed reflector 47.

The distributed reflecting plate 47 is installed so that all disposed to face in the vertical upper direction, as shown in Figure 8 and 9 in another embodiment of the present invention, the lower side is narrow and the upper side is formed wide and the upper side is open Agglomeration reflector plate 48 formed in the form of an additional arc (arc) is further provided, can be used by mixing arrangement. Of course, only the aggregated reflection plate 48 can be installed sufficiently.

In this case, the distributed reflector 47 and the aggregate reflector 48 are alternately arranged in the longitudinal direction in the longitudinal direction of the LED luminaire A, which is advantageous in increasing light irradiation efficiency. This is because the distributed reflector 47 diffuses the light evenly, and the aggregate reflector 48 causes the light to be irradiated to the evenly irradiated area once more to increase the irradiation rate. In order to achieve this, the cohesive reflector 48 is preferably alternately arranged as shown in FIG. 9 so as to be inclined so that light can be inclined toward the adjacent distributed reflector 47.

It is apparent that the arrangement combination of the distributed reflector 47 and the aggregate reflector 48 of the present invention can be installed in various arrangements depending on the environment in which it is installed in addition to those shown.

Transmitting lenses 42 and 43 through which light is transmitted are provided on an upper portion of the distributed reflector 47 installed on the circuit board 40 to be fixedly coupled to the circuit board 40.

The light transmitting lenses 42 and 43 are to be irradiated while the light emitted from the LED lamp 41 is evenly distributed to the outside, in an embodiment, as shown in Figs. 4 to 6, the transverse lens 42, 43 Among the directional arrays, the central side light transmitting lens 42 has a straight type light transmitting lens 42 which is formed in a curved groove shape in which the inner surface thereof is moved upward from the edge side to the center side, and the horizontal side of the light transmissive lenses 42 and 43 are arranged. Both side transmissive lenses 43 are provided with a scattering type transmissive lens 43, which is formed in a curved groove shape whose inner surface is upwardly and downwardly moved from the edge side to the center side.

At this time, the linear transmission lens 42 is configured in a smooth curved shape in which the inner surface is directed toward the upper side of the center, as shown in FIG.

In addition, the scattering light transmitting lens 43 is formed in a curved groove shape in which the one-sided cross section is upwardly and downwardly moved from the edge side to the center side, as shown in the multi-section and the cross-section view. In addition, the cross section in the other direction perpendicular to the one direction may allow the curved groove surface formed in the one direction cross section to be formed in a multi-step curved shape.

The straight-type floodlight lens 42 may irradiate light brightly to a desired area by reflecting light to the outside so that it is straight, and the scattering-beam lens 43 is disposed on both sides of the straight-beam floodlight lens 42. It is designed to spread the light as far as possible by spreading the light as far as possible.

The upper portion of the circuit board 40 having the light transmitting lenses 42 and 43 is provided with a protective plate 50 spaced apart and fixed to the inner edge 17 of the lower housing 10. The protective plate 50 has a plate shape in which a plurality of through holes 51 are formed to pass through the upper side of the light transmitting lenses 42 and 43 provided on the reflective plate 45, as shown in FIGS. 3 and 4 (b). It consists of.

The upper part of the protective plate 50 protects the protective plate 50, the reflecting plate 40, and the transmissive lenses 42 and 43 from the outside, while the light reflected through the reflecting plate 40 and the transmissive lenses 42 and 43 is externally provided. A light transmitting plate 60 is provided for light emission. The floodlight plate 60 is provided on the protection plate 50 and is seated on the inner edge 17 of the lower housing 10. At this time, the transparent plate 60 may be manufactured using a transparent glass material or a synthetic resin material, and may be used by making it transparent or semitransparent according to the use environment, and of course, mixed use is also possible.

When the base plate 20, the sealing material 30, the circuit board 40, the protective plate 50, and the light transmitting plate 60 are sequentially installed and installed in the lower housing 10, the light transmitting plate 60 positioned at the uppermost portion. The upper housing 70 is provided on the upper part of the lower housing 10 to be configured to be fastened.

The upper housing 70 has an edge portion 71 of a shape corresponding to the edge portion 17 of the lower housing 10 to be coupled to each other, and is coupled to each other, and one side of the lower housing 10 in one length direction. It is coupled to the hinge sphere 19 formed in the rotatable mutually, opening and closing is interrupted by the fastener 16 formed on the other side.

Although the hinge 19 and the fastener 16 are illustrated and described in one embodiment and the other side of the longitudinal direction in the embodiment of the present invention, it is not necessarily installed there, but may be installed in the vertical direction of the longitudinal direction. It may be formed in another form.

Tunnel LED light fixture (A) according to the present invention is fixed to the interior installation wall 85, such as a tunnel or underground driveway, as shown in Figure 7 is to examine the inside. In addition, the tunnel LED light fixture (A) according to the present invention is expected to be easy to install on the ceiling or wall as well as tunnels and underground cars.

7: through hole 8: bolt
10: lower housing 11: fastening bolt
12: bracket 13: heat sink fin
15: receiving portion 16: fastener
17: border 19: hinge
20: base plate 21: heat sink
30: sealing member 40: circuit board
41: LED lamp 42: straight type flood lens
43: scattering light transmitting lens 44: fastening hole
45: reflector 47: distributed reflector
48: cohesive reflector 49: piece
50: protective plate 51: through hole
60: floodlight 70: upper housing
71: edge 81: ballast
85: mounting wall

Claims (5)

In the tunnel LED lighting fixture installed inside the tunnel,
A pair of brackets 12 having fastening bolts 11 are provided at both sides of the lower side, and a plurality of heat dissipation fins 13 are protruded at the bottom thereof, and an accommodating part 15 is formed at the inside thereof, A lower housing 10 having an edge portion 17 formed thereon, with a pair of hinges 19 provided on one side in the longitudinal direction, and a pair of fasteners 16 provided on the other side in the longitudinal direction;
A base plate 20 having a plurality of heat dissipation holes 21 formed therein and seated and fixed to the inner edge 17 of the lower housing 10;
A sealing member 30 seated on the inner edge portion 17 of the lower housing 10;
A plurality of LED lamps 41 are arranged and fixedly installed on the base plate 20, and are installed to surround the plurality of LED lamps 41 so that a plurality of LED lamps 41 reflect light emitted from the LED lamps 41 to the upper side. A circuit board 40 having a reflection plate 45 thereon;
The protective plate 50 is provided on the upper portion of the reflecting plate 45 is seated and fixed to the inner edge 17 of the lower housing 10, the plurality of through holes 51 are formed so that the upper side of the reflecting plate 45 penetrates. )and;
Spaced above the protective plate 50 is seated and fixed to the inner rim 17 of the lower housing 10, while protecting the reflecting plate 45 from the outside to reflect the light reflected through the reflecting plate 45 to the outside A light transmitting plate 60 for transmitting light;
The upper housing 70 is provided on the top of the floodlight panel 60, the edge portion 71 is formed in a form corresponding to the edge portion 17 of the lower housing 10, the upper housing (70);
The reflector plate 45 is a narrow tube in the form of a fallopian tube having a narrow lower side and an upper side thereof, and an inner side thereof is formed of a distributed reflector 47 having a curved shape inwardly, and a transmissive lens 47 formed on the upper portion of the distributed reflector 47. 42 and 43 are disposed and coupled to the circuit board 40 in a plurality of longitudinal and horizontal arrangements.
The central side transmissive lens 42 of the transverse arrangement of the transmissive lenses 42 and 43 is a straight type transmissive lens 42 formed in a curved groove shape in which an inner surface is moved upward from the edge side to the central side, and the transmissive lens ( Tunnel LED light, characterized in that the two-sided projection lens 43 of the horizontal arrangement of 42, 43 is a scattering type projection lens 43 is formed in a curved groove form the inner surface is upwardly and downward from the border side to the center side. . delete delete The method of claim 1,
The one-side cross section of the scattering light-transmitting lens 43 is formed in a curved groove shape whose inner surface is upwardly and downwardly moved from the edge side to the center side, and the curved surface of the curved groove formed in one direction cross section is perpendicular to the other direction. Tunnel LED lamp, characterized in that formed in a jin form. The method of claim 1,
The reflector plate 45 has a narrow lower end and a wider upper side of the fallopian tube, and an inner side thereof has an inwardly curved distributed reflector plate 47 and a lower side with a narrow upper side and a wider upper side. Consists of an aggregated reflector plate 48 formed in the addition arc shape,
The distributed reflector 47 and the aggregate reflector 48 are alternately disposed in the longitudinal direction, and the aggregate reflector 48 is irradiated with light toward the distributed reflector 47 alternately disposed. Tunnel LED light, characterized in that formed so as to be inclined.

Images