KR101444391B1 - LED strobe light is applied to the multi-lens - Google Patents

Abstract

The present invention provides an LED strobe light bar capable of improving long-distance visibility of light emitted from an LED by composing a dual condensing structure with a condensing lens and an inner globe, maximizing diffusivity of light and improving visibility at angles since the light is diffused to the top, bottom, left, and right through the inner globe and an outer globe, and minimizing dew condensation due to temperature change since a multi-lens is applied. Also, the LED strobe light bar in which the multi-lens is applied is able to secure high visibility during the day by forming a compartment in a reflector and to minimize loss of light at the boundary surface by forming the condensing lens with a cylindrical convex lens with the cut top and bottom. According to the present invention, the LED strobe light bar in which the multi-lens is applied includes a light emitting panel which includes a plurality of LEDs; a reflector on which the light emitting panel is placed and which reflects the light emitted from the LEDs of the light emitting panel; a condensing lens which is combined to the reflector and condenses the light emitting from the LEDs of the light emitting panel; an inner globe in which the condensing lens is placed and which diffuses the light condensed by the condensing lens; an outer globe which is placed on the outside separately from the inner globe and diffuses the light diffused by the inner globe to the left and right; and a lower base onto the top surface of which the light emitting panel and the reflector are combined and to which the inner and the outer globe are individually assembled.

Description

[0001] The present invention relates to an LED strobe light having a multi-

The present invention relates to an LED strobe light with a multi-lens, and more particularly, to a dual light focusing structure composed of a condenser lens and an inner lens, thereby improving long-range visibility of light emitted from the LED, The present invention relates to an LED strobe warning lamp having a multi lens for maximizing the diffusibility of light to improve visibility according to an angle and minimizing a dewing phenomenon caused by temperature changes.

In addition, by forming a compartment in the reflector, high visibility can be ensured in the daytime, and a converging lens can be formed by forming a cylindrical convex lens cut into upper and lower portions to minimize the loss of light generated at the boundary surface of the lens. To an LED strobe warning lamp to which a lens is applied.

Generally, a warning light is installed in an emergency vehicle such as a police car, a fire engine, an ambulance, etc., and various machinery and devices used in the whole industry, and informs or displays urgent movement of an emergency vehicle, position of a vehicle, construction position, It is used to do.

The above-mentioned beacon includes a main body, a transparent lid covering the main body, a luminescent lamp disposed inside the transparent lid and provided in the main body, and a reflector for reflecting light emitted from the luminescent lamp.

Such a beacon is difficult to obtain discrimination from the outside because the intensity of the LED light is too weak. In order to increase the intensity of the light, a large number of LEDs can be closely installed. However, even if the LED is closely installed, There is a problem in that the manufacturing cost and manufacturing cost are increased.

Patent Document 1 discloses a structure in which a plurality of high-brightness LEDs are mounted on a single PCB to form a separate lamp emitter, and a plurality of high-brightness LEDs are mounted on one PCB to emit light And diffuses the light of the LED lamp horizontally through the primary reflection surface when the lamp emits light to emit light to the outside through a lens composed of an aspherical surface.

The light of the LED lamp is horizontally diffused through the reflection surface and the light is emitted to the outside through the lens, so that the light is not diffused up and down, and the condensation phenomenon occurs due to the cold weather, The light can not be diffused effectively.

On the other hand, in Patent Document 2, the light rays of diffused LEDs converge linearly by the convex lens substrate, and as the light rays of the LEDs straightened by the first and second casing are gathered and straightened, the visibility in the radial direction is increased A cylindrical LED beacon is proposed.

However, in the above technique, the vertical convex lens of the first housing is formed separately and has a polygonal shape, so that light generated at the boundary surface of the lens is lost.

Patent Document 1: Korean Patent Laid-Open Publication No. 10-2009-0076654 " Patent Document 2: Korean Patent Laid-Open No. 10-2011-0118401 entitled "Cylindrical LED warning lamp"

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a double condensing structure composed of a condenser lens and an inner groove, thereby improving long-range visibility of light emitted from the LED, It is an object of the present invention to provide an LED strobe light with a new type of multi lens for maximizing the diffusibility of light to improve visibility according to an angle and minimizing a dewing phenomenon caused by a temperature change by vertically and horizontally diffusing light .

In addition, it is possible to form a compartment in the reflector so as to ensure high visibility in the daytime, and to form a cylindrical convex lens having a vertically cut cylindrical lens as a condensing lens, thereby minimizing the loss of light generated at the boundary surface of the lens An object of the present invention is to provide an LED strobe warning lamp to which a multi-lens type of lens is applied.

According to an aspect of the present invention, there is provided a light emitting display comprising: a luminescent panel having a plurality of LEDs; A reflector for reflecting the light emitted from the LED of the light emitting panel on which the light emitting panel is located; A condenser lens coupled to the reflector for condensing light emitted from the LED of the light emitting panel; An inner lens positioned inside the condenser lens for diffusing the condensed light through the condenser lens; An outer grove spaced apart from the inner grove to diffuse light diffused through the inner grove to the left and right; And a lower base to which the luminescent panel and the reflector are coupled on the upper surface and the lower ends of the inner and outer grooves are assembled, respectively.

In the LED strobe light with the multi-lens according to the present invention, the inner lens has a light collecting portion for collecting the light condensed through the light collecting lens in the horizontal direction, and the condensing lens is formed on the upper and lower sides of the light collecting portion, And a diffusing unit for diffusing the light condensed through the lens in the vertical direction.

In the LED strobe light with the multi-lens according to the present invention, the reflector is composed of a plurality of compartments such that the LEDs of the light-emitting panel are positioned by the partition to emit light.

In the LED stroboscope according to the present invention, the luminescent panel may be mounted inside the reflector to emit light horizontally or to be mounted on the reflector to emit light vertically.

In the LED strobe light with the multi-lens according to the present invention, the condensing lens is composed of a cylindrical convex lens whose upper and lower sides are cut out.

As described above, according to the LED strobe warning lamp to which the multi lens according to the present invention is applied, it is possible to improve the long-distance visibility of the light emitted from the LED by the double condensing structure composed of the condensing lens and the inner grooves, Thereby diffusing the light vertically and horizontally, thereby maximizing the diffusibility of light, improving the visibility according to the angle, and minimizing the condensation phenomenon caused by the temperature change.

In addition, it is possible to form a compartment in the reflector so as to ensure high visibility in the daytime, and to form a cylindrical convex lens in which the condensing lens is cut vertically, thereby minimizing the loss of light generated at the boundary surface of the lens .

FIG. 1 is a partially cut-away perspective view of an LED strobe warning lamp to which a multi-lens is applied according to a preferred embodiment of the present invention,
FIG. 2 is an exploded perspective view of an LED stroboscope according to a preferred embodiment of the present invention,
3 is a cross-sectional view of an LED strobe warning lamp to which a multi-lens is applied according to a preferred embodiment of the present invention,
FIG. 4 is a view illustrating a state in which a light emitting panel is mounted on a reflector in an LED strobe warning lamp to which a multi-lens is applied according to a preferred embodiment of the present invention;
5 is a view for explaining a reflector in an LED strobe warning lamp to which a multi lens according to a preferred embodiment of the present invention is applied,
6 is a view for explaining a condensing lens in an LED strobe warning lamp to which a multi lens according to a preferred embodiment of the present invention is applied,
7 is a view illustrating a state in which light is condensed in an LED strobe light with a multi lens according to a preferred embodiment of the present invention,
8 is a view showing a state of light emitted from a luminescent panel mounted on the reflector shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate the same or similar parts in FIG. 1 through FIG. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

1 to 8, an LED stroboscope 10 to which a multi-lens is applied according to a preferred embodiment of the present invention includes a luminescent panel 20 having a plurality of LEDs 22, A reflector 30 for reflecting the light emitted from the LED 22 of the luminescent panel 20 and a condenser 30 coupled to the reflector 30 for condensing the light emitted from the LED 22 of the luminescent panel 20, A condensing lens 40 for condensing the light condensed through the condensing lens 40 and an inner lens 50 for diffusing the condensed light through the condensing lens 40; An outer side groove 60 for diffusing light diffused through the inner side groove 50 to the right and left and a light emitting panel 20 and a reflector 30 coupled to the upper side, 50 and the lower ends of the outer grooves 60 are respectively assembled. In the light emitting panel 20, The light emitted from the LEDs 22 of the first light source 50 is primarily condensed by the condenser lens 40 and the condensed light is secondarily condensed through the inner lens 50 to be emitted to the outside through the outer lens 60 So as to improve the visibility of light.

The LED strobe warning lamp to which the multi-lens is applied for enhancing long-distance visibility will be described in detail as follows.

The luminescent panel 20 includes an LED 22 for emitting light and a heat dissipation unit 26 for dissipating light emitted from the substrate 24 and the LED 22. The lower panel 70 includes a lower base 70, A heat dissipation unit 26 coupled to the substrate 24 is coupled to the upper surface center side of the substrate. At this time, the heat dissipating unit 26 has a hexagonal shape and the substrate 24 is coupled.

4 (a), the luminescent panel 20 may be configured such that the LED 22 for emitting light is positioned in the center hole 322 of the reflector 30 described later and emits light horizontally, the LEDs 22 may be positioned on the upper side of the reflector 30 to emit light in a downward direction or in a vertical direction to emit light horizontally through the reflector 30 as shown in FIG. will be.

The reflector 30 is configured to reflect light emitted from the LED 22 of the luminescent panel 20 by mounting the luminescent panel 20 and includes a lower reflector 32 and an upper reflector 34, (32) and the upper reflector (34) are symmetrical to each other.

The lower reflector 32 has a center hole 322 at the center of which the substrate 24 of the luminescent panel 20 is positioned and is inclined downward from the center hole 322, And a reflecting portion 324 for reflecting the light emitted from the light sources 22 and 22. An upper side of the reflective portion 324 is formed with a coupling hole 3242 to be coupled with a condensing lens 40 to be described later and a rounded portion 3242 is formed between the coupling hole 3242 and the coupling hole 3242, (3244) is formed to allow light emitted from the LED (22) of the luminescent panel (20) to pass through.

The lower reflector 32 has a plurality of compartments 328 so that the LEDs 22 of the luminescent panel 20 are positioned by the partition walls 326, respectively. The barrier rib 326 is formed on the reflective portion 324 at a position corresponding to the coupling hole 3242 formed on the upper side of the center hole 322 so that the luminous panel 20, So that the light emitted from the LED 22 of the light emitting diode 22 can be easily identified. An incision 3262 is formed in the partition wall 326 so as to incise the convex lens 42 of the condenser lens 40 from the upper side to the lower side.

The number of the compartments 328 formed in the lower reflector 32 may correspond to the numbers of the LEDs 22 formed on the substrate 24 of the luminescent panel 20, Interference can be avoided.

The upper reflector 34 has a shape corresponding to the lower reflector 32 and is symmetrical with the lower reflector 32 and is positioned above the lower reflector 32, and a detailed description thereof will be omitted.

The condenser lens 40 is used for primarily focusing the light emitted from the LED 22 of the luminescent panel 20. The condenser lens 40 includes a cylindrical convex lens 42 having a convex shape and a top and a bottom cut out and a convex lens 42 And a fixture 44 fixed to the inside of the fixture 44.

The fixture 44 has a plurality of engaging portions 442 in which the engaging holes 4422 are formed at positions corresponding to the engaging holes 3242 formed on the upper side of the center hole 322 of the lower reflector 32, And a fixing portion 444 which is inserted and fixed in the insertion groove 422 formed on the inner circumferential surface of the convex lens 42, At this time, a round portion 4424 having a shape corresponding to the round portion 3244 of the lower reflector 32 is formed between the engaging portion 442 and the engaging portion 442.

The engaging portion 442 of the fixture 44 is formed to correspond to the number of the LEDs 22.

The inner lens 50 is a cylindrical lens having an inner space 52 and an inner space 52. The inner lens 52 is provided with a light emitting panel 20, a reflector 30, and a condenser lens 40 are positioned.

The inner lens 50 has a light collecting part 54 for collecting the light condensed through the convex lens 42 of the condensing lens 40 in the horizontal direction at a height corresponding to the convex lens 42 of the condensing lens 40 And diffusing sections 56 formed on the upper and lower sides of the light collecting section 54 for diffusing light condensed through the condenser lens 40 in the vertical direction. At this time, the light condensing unit 54 has a convex lens shape convex outward, and the light condensed through the convex lens 42 of the condensing lens 40 is horizontally condensed to improve visibility of the light, and the diffusion unit 56 And the light condensed through the condenser lens 40 may be diffused in the vertical direction.

The outer grove 60 is for spreading light condensed and diffused through the inner grooves 50 to the right and left. The outer grove 60 has a cylindrical shape having an inner space 62 and an inner space 62, And is located in the inner space 62.

On the other hand, the outer and inner grooves 60 and 50 are spaced apart from each other by a predetermined distance and are coupled to the upper end of a lower base 70 described later, thereby minimizing condensation due to temperature changes. That is, in general, since a beacon is often installed outdoors due to its characteristics, internal condensation due to a difference in temperature between day and night is generated at outdoor installation, which often causes problems due to electrical characteristics. It is possible to minimize the dew condensation due to the temperature change.

The lower base 70 is formed with a flange 72 in which a luminescent panel 20 and a reflector 30 are sequentially connected to an upper surface and a lower end of the inner lobe 50 and the outer lobe 60 are respectively assembled Loses.

As described above, according to the LED strobe warning lamp 10 to which the multi-lens according to the present invention is applied, by the double condensing structure including the condenser lens 40 and the inner lens 50, the light emitted from the LED 22 By improving the long-distance visibility, and by constructing the inner and outer grooves 50 and 60, the light is diffused up and down and right and left to maximize the diffusibility of light to improve visibility according to the angle, There is an effect that the phenomenon can be minimized.

It is also possible to form a compartment 328 in the reflector 30 so as to ensure high visibility in the daytime and to form the condenser lens 40 as a single cylindrical convex lens 42 cut vertically, So that the loss of generated light can be minimized.

7 and 8, light emitted from the LED 22 of the light emitting panel 20 is condensed and diffused in the LED strobe light 10 with the multi lens according to the preferred embodiment of the present invention. The light emitted from the light source 40 is condensed and diffused through the condenser lens 40, the inner and outer grooves 50 and 60, and the light emitted in the horizontal direction as shown in FIG. 7 (a) The light is primarily condensed through the condenser lens 40 and is secondarily condensed through the condenser 54 of the inner lens 50 to diffuse the light through the outer lens 60. 7B, the light emitted from the LED 22 is primarily condensed through the condenser lens 40 and is diffused upward and downward by the diffusion portion 56 of the inner side groove 50, And diffused to the left and right through the grooves 60.

8 (a), when the LED 22 of the luminescent panel 20 is mounted on the vertically installed substrate 24, the light is reflected in the horizontal direction (toward the condensing lens) or the reflector 30 8 (b), the light is reflected by the reflector 30 and is emitted by the condenser lens 40 so that the light is condensed do.

Although the LED strobe light with the multi-lens according to the preferred embodiment of the present invention has been described and illustrated in the above description and drawings, the present invention is merely illustrative and not restrictive within the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes and modifications may be made.

10: LED strobe warning light with multi lens
20: luminescent panel 22: LED
24: substrate 26:
30: reflector 32: lower reflector
324: reflection part 326: partition wall
328: compartment 34: upper reflector
40: condenser lens 42: convex lens
44: fixture 50: inner grove
52: inner space 54:
56: diffusion part 60: outer grove
62: inner space 70: lower base

Claims (5)

A luminescent panel having a plurality of LEDs;
A reflector for reflecting the light emitted from the LED of the light emitting panel on which the light emitting panel is located;
A condenser lens coupled to the reflector for condensing light emitted from the LED of the light emitting panel;
An inner lens positioned inside the condenser lens for diffusing the condensed light through the condenser lens;
An outer grove spaced apart from the inner grove to diffuse light diffused through the inner grove to the left and right;
And a lower base to which the luminescent panel and the reflector are coupled to each other on an upper surface thereof and the lower ends of the inner and outer grooves are respectively assembled;
Wherein the inner lens has a light collecting portion for collecting the light condensed through the condensing lens in the horizontal direction, and a diffusion for vertically diffusing the light, which is formed on the upper and lower sides of the condensing portion, Having a portion,
Wherein the luminescent panel is mounted inside the reflector to emit light horizontally or to be mounted on the reflector to emit light vertically.
delete The method according to claim 1,
Wherein the reflector is composed of a plurality of compartments so that the LEDs of the luminescent panel are positioned by the partition to emit light.
delete The method according to claim 1,
Wherein the condensing lens is a cylindrical convex lens whose upper and lower portions are cut.

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