KR101705750B1 - Beacon - Google Patents

Abstract

The present invention relates to a rotary lamp with an improved structure and assembly structure of a light emitting module of a light intensity device. A lens assembly surface and a heat radiation plate assembly surface are formed on the outer surface and the inner surface to be formed of a polyhedron on a hollow with constant length by extrusion or die casting. An LED mounting plate formed of one pipe having an LED with constant length arranged on the lens assembly surface and a radiation plate with the same length as the LED mounting plate on the heat radiation plate assembly surface formed on the inner surface of the LED mounting plate are arranged to be assembled. A lens housing combined with a lens at a place corresponding to the LED at the same height as the LED mounting plate on the lens assembly surface formed on the outer surface is arranged to be assembled, and an upper plate is assembled on the upper part of the LED mounting plate for finishing.

Description

[0001] Heat-absorbing assembly structure of LED rotary type light-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary light changer, and more particularly, to a rotary light changer for improving the manufacturing and assembling structure of a light emitting module of a light emitting module to provide an improved heat dissipation effect while providing ease of manufacture and assembly.

Typically, a lighthouse is installed at sea or on land structures to identify features or locations at night.

Such a luminous means comprises a light source made of LED for illuminating light in all directions and a lens arranged in the light source so that the light emitted from the light source is diffused through the lens or irradiated to a long distance.

As disclosed in Korean Patent Laid-Open No. 66648, such a conventional luminous flux structure has a plurality of LED light sources radially arranged in a multilayer manner to increase the visibility of the inside thereof, and a ring-shaped light collecting lens is provided around each LED light source However, since the LED light source is radially arranged in a radial direction, the light is interfered with the LED light source, so that many LEDs are used, but the LED light source is not visible at a long distance and its efficiency is degraded. There is a problem in that a proper light source inspection can not be performed, and this has a great influence on marine safety accidents.

Therefore, according to the patent registration No. 10-1503252 of the applicant of the present invention, it is possible to apply the present invention to a rotary light changer having an excellent visibility so that the light source is illuminated to a long distance and can be distinguished a number of times even at a long distance, And the LED module having the lens body mounted on the heat dissipating plate is connected and detachably connected by the connecting element so as to form a single LED assembly having multiple layers, So that a single light emitting module having a polyhedron can be realized, and the heat generated from the light source can be dissipated.

However, the problem of this is that the LED module is composed of a lens body having a lens mounted on a heat sink having an LED, and a plurality of assembling operations are performed with a connecting element to assemble the LED module into a single LED assembly composed of multiple layers, There is a problem that the manufacturing time is long due to the complicated structure and the productivity is reduced.

In addition, since all of the parts are manufactured separately, the cost of manufacturing the molds and the resulting costs will be increased.

Further, an improvement is required to prevent the wire from being twisted when the LED lamp is rotated while the power supply line is connected to the LED.

[Patent Document 1] Published Patent No. 10-2004-0066648 (July 27, 2004) [Patent Document 2] Patent Registration No. 10-1503252 (Feb.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above-mentioned circumstances, and it is an object of the present invention to provide a manufacturing method of a light emitting module, in which a component for assembling a lens and a heat sink is manufactured by extrusion molding or die casting, So that the heat radiation effect is further improved.

Another object of the present invention is to manufacture the light emitting module so that the length of the light emitting module can be adjusted from a single layer to a multi layer by adjusting the length of the component by extrusion molding or die casting.

The present invention as a technical means for achieving the above object is characterized in that a lower body including a front frame and a motor for rotation is built in an inner space and a rotation module rotated by a motor on an upper side of the lower frame, And a light housing module having a light emitting module coupled to the light emitting module and having a viewable protection cover around the light emitting module and an upper cover coupled to an upper side of the protective cover. The light emitting module is formed by extrusion molding or die casting, The LED mounting base including a lens assembly surface and a heat sink assembly surface formed on an outer side surface and an inner side surface of the LED mounting surface, and a tube body having LEDs arrayed at a constant height interval on the lens assembly surface; A heat sink having the same height as that of the LED mount assembled on each of the formed heat sink assemblies and a lens assembly If one is so configured, including the top plate assembly is fastened to the upper band is a combined lens housing and the LED mount lens made of the assembly is readily in a position corresponding to the LED at the same height as the LED mount to be assembled to each other.

Therefore, according to the present invention, some parts of a light emitting module having a light emitting structure of a light emitting device can be manufactured by extrusion molding or the like, thereby providing ease of manufacture and assembly while reducing manufacturing costs and shortening manufacturing time, As the components of the light emitting module are easily manufactured in various lengths, it is possible to adjust the height from a single layer to a multi-layer, so that light changers of various sizes can be manufactured.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing an assembling structure according to an embodiment of the rotary light changer of the present invention; Fig.
2 is a perspective view of the rotary light changer of the present invention;
3 is an external perspective view of a light emitting module according to an embodiment of the present invention;
4 is a schematic view showing a state in which a heat sink is assembled to the LED mount of the present invention.
5 is a schematic view showing a state in which the lens housing is assembled to the LED mount of the present invention.
6 is a schematic view showing a state in which the lens housing is fixed to the LED mount of the present invention without being detached.
7 is a perspective view and a plan view of the LED mount of the present invention.
8 is a perspective view and a plan view of a heat sink of the present invention.
9 is a perspective view of the lens housing of the present invention.
10 is a sectional view of the lens housing of the present invention in a state in which the lens is mounted.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the rotary light changer of the present invention includes a lower main body 100 and a rotation module 300 rotated by a motor on an upper side of the lower main body 100, A light emitting module 200 is provided on an upper surface of the light emitting module 200 and a protective cover 130 is formed around the light emitting module 200 and an upper cover 110 is provided on the protective cover 130.

The lower main body 100 has a hollow inner space formed on the upper side of the base and has a motor for rotation in the inner space and a full-length part including some parts such as a battery and a communication module.

3 to 9, the light emitting module 200 is formed of a hollow polyhedron having a predetermined length. The outer and inner surfaces of the light emitting module 200 are formed of a lens assembly surface 211 and a heat sink assembly surface 212, respectively, And a heat sink 220 mounted on a heat sink assembly surface 212 formed on a hollow inner side surface of the LED mount 210. The heat sink 220 is mounted on the LED mount 210, And a lens housing 230 having a plurality of lens mounting portions 231 to which a lens 240 is coupled at a position corresponding to the LED is formed on a lens assembly surface 211 formed on an outer surface of the LED mount 210, And the upper plate 250 is fastened and assembled to the upper side of the LED mounting table.

At this time, the LED mount 210 and the heat sink 220 can be easily manufactured by extrusion molding or die casting, thereby reducing the manufacturing cost. The LED mount 210 and the heat sink 220 can be manufactured by a light emitting module 210 And the height of the torsion bar can be adjusted.

The heat sink 220 and the lens housing 230 are formed to have heights corresponding to the LED mount 210. The heat sink 220 is formed on the heat sink assembly surface 212 formed on the inner surface of the LED mount 210, The lens housing 230 is assembled one by one on the lens mounting surface 211 formed on the outer side surface on which the LEDs 217 are arranged, so that the light emitting module can be easily assembled.

Also, the assembled part is assembled into a complete one light emitting module 200 by covering the assembled part by assembling the upper plate 250 to the upper surface of the LED mount 210 on which the heat sink 220 and the lens housing 230 are assembled The top plate 250 is further formed with a discharge hole 251 to facilitate discharge of heat radiated at the center.

At this time, a cover 260 equipped with a mesh body is fastened and assembled to the discharge hole 251 of the upper plate 250 so as to prevent the inflow of foreign matter or insects into the light emitting module while easily discharging the heat.

At this time, a plurality of assembly holes 213 are formed on the upper and lower surfaces of the LED mount 210 to assemble the light emitting module 200 to the rotation module 300 and to assemble the upper panel.

The LED mounting bracket 210 is provided with a heat sink fixing hole 214 penetrating from the lens mounting surface 211 to the heat sink mounting surface 212 for fixing the heat sink 220 assembled to the heat sink mounting surface 212, So that the heat sink 220 is fixed to the heat sink assembly surface 212 in a state where the heat sink 220 is not separated by the bolt tightening through the heat sink fixing hole 214. [

The cooling plate assembly surface 212 is formed between the heat sink assembly surface 212 and the heat sink assembly surface 212 so that the heat sink 220 is formed on the heat sink assembly surface It is possible to assemble to an accurate position and bolt tightening is easy.

At this time, the heat sink 220 has a mounting surface 221 formed on a flat surface for mounting the heat sink assembly surface on one side, and a plurality of heat sink protrusions 222 are protrudingly formed on the other surface so as to be closely arranged, And the heat dissipation protrusion 222 easily dissipates heat.

The heat radiating protrusions 222 may be formed at the center of the heat dissipating protrusions 222 such that the heat dissipating protrusions 222 do not interfere with other heat sinks 220 when the heat sinks 220 are assembled to the heat sink assembly surface 212. [ So that the heat sink 220 is easily assembled to the inner surface of the LED mount 210 in a uniform arrangement in the form of one heat sink module and the heat radiation effect is further improved .

At this time, on the lens assembly surface 211 formed on the outer surface of the polyhedron LED mount 210, a latching groove 216 is formed on both sides of the lens assembly surface 211 for assembling the lens housing 230, The housing 230 has coupling vanes 232 on both sides thereof to easily assemble the lens housing 230 on the lens assembly surface 211 by sliding.

A bolt fixing hole 233 is formed in the lens housing 230 at regular intervals in the longitudinal direction to fix the lens housing 230 assembled to the lens assembly surface 211 so as to prevent the flow from occurring, When the bolt is fastened to the lens assembly surface 211 through the bolt fixing hole 233 in a state where the lens housing 230 is assembled with the lens housing 230, the lens housing 230, which is caught by the latching groove 216 by tightening force, The assembly is performed firmly so that no flow occurs.

The bolt fixing holes 233 formed in the lens housing 230 are formed between the heat sink fixing holes 214 so as not to be caught in the heat sink fixing holes 214 formed to fix the heat sink 220 to the LED mounting base 210 .

The lens housing 230 is manufactured to have a length corresponding to the LED mount 210. The lens 240 is coupled to the LED mount 217 arranged at the LED mount 210 at regular intervals A plurality of lens mounting portions 231 are formed.

A locking protrusion 234 is formed on the inner side of the lens mounting portion 231 and a locking flange 241 is formed on the lower end of the lens. Is formed and assembled.

1: lamp
100: lower body 110: upper cover
130: protective cover
200: light emitting module 210: LED mount
211: lens assembly surface 212: heat sink assembly surface
213: Assembly hole 214: Heat sink fixing hole
215: block protrusion 216: latching groove
217: LED
220: heat sink 221: mounting surface
222: heat radiating projection
230: lens housing 231: lens mount
232: coupling wing 233: bolt fixing hole
234:
240: Lens 241: Clutch flange
300: rotation module

Claims (8)

A lower main body 100,
A rotating module 300 rotated by a motor is provided on the upper side of the lower main body 100,
A light emitting module 200 is provided on an upper surface of the rotation module 300,
A visible protective cover 130 is provided around the light emitting module 200,
In the backlight unit (1) comprising the upper cover (110) on the upper side of the protective cover (130)
The light emitting module 200 is formed of a hollow polyhedron having a predetermined length and has an outer surface and an inner surface formed with the lens assembly surface 211 and the heat sink assembly surface 212 and the LED assembly surface 211 with the LEDs An LED mount 210 made of a single tube having an array of LEDs 217,
A heat sink 220 having the same height as the LED mount 210 assembled on each of the heat sink assembly surfaces 212 formed on the hollow inner surface of the LED mount 210,
A plurality of lens mounts 210 to which the lens 240 is coupled at a position corresponding to the LEDs at the same height as the LED mount 210 mounted on each lens mount surface 211 formed on the outer surface of the LED mount 210, 231) are formed on the lens housing 230,
And a top plate 250 coupled to the LED mount 210 in a state where the heat sink 220 and the lens housing 230 are assembled to facilitate assembly of the LED light mount assembly. The method according to claim 1,
A plurality of assembly holes 213 for assembling the rotary module 300 and the upper plate 250 are formed on the upper and lower surfaces of the polyhedron LED mount 210 and the heat sink 220 The heat sink fixing holes 214 penetrating from the lens assembly surface 211 to the heat sink assembly surface 212 are formed at regular intervals in the longitudinal direction of the LED mount 210 so that the heat sink 220 is fixed to the heat sink And is fixed to the heat sink with a bolt through a hole (214). 3. The method of claim 2,
Wherein a partitioning protrusion 215 for partitioning is formed between the heat sink assembly surface 212 and the heat sink assembly surface 212 to facilitate assembly of the heat sink 220. [ . 4. The method according to any one of claims 1 to 3,
The heat dissipation plate 220 has a mounting surface 221 and a plurality of heat dissipation protrusions 222 protrudingly formed on the other surface of the heat dissipation plate 220. The heat dissipation protrusion 222 has a heat dissipation plate 220 assembled to the heat dissipation plate assembly surface 212, Is formed at a height gradually decreasing from the center to the outer side so as to be assembled so as not to cause interference with another heat sink (220). 3. The method according to claim 1 or 2,
An engaging groove 216 is formed on the left and right sides of the lens assembly surface 211 formed on the outer surface of the polyhedron LED mount 210. The lens housing 230, And the lens housing (230) is slidably assembled to the lens assembly surface (211) with the wings (232) formed therein. 6. The method of claim 5,
Bolt fixing holes 233 are formed in the lens housing 230 at regular intervals in the longitudinal direction so that the bolts are fastened through the bolt fixing holes 233 in a state where the lens housing 230 is assembled to the lens assembly surface 211 And the lens housing (230) is tightly assembled to the lens assembly surface (211) so that no flow occurs. The method according to claim 1,
A discharge hole 251 for discharging the heat radiated from the upper plate 250 is formed at the center of the upper plate 250 and a cover 260 is provided to the discharge hole 251 to prevent foreign matter or insects from entering the discharge hole 251. The structure of heat dissipation assembly of LED rotary type light source. The method according to claim 1,
And a latching jaw 234 is formed in the lens mounting part 231 so that only the convex surface of the lens mounting part 231 is exposed while the lens 240 is mounted and a latching flange 241 is provided at the lower end of the lens 240. [ Heat - resisting assembly structure of light - emitting diode.

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