KR101472440B1 - A blinking lighthouse lantern by LED - Google Patents

Abstract

The present invention is based on a flickering light indicating that the position of the ship is not recognized by the light of the lighthouse. In order to enable the recognition of the position when the sailing ship can not recognize the position, Indicates the number of times so that the location can be recognized.
Especially, it is possible to use a light emitting element as an LED, but also to eliminate the occurrence of shading of an LED as well as a high light power.
For this purpose, LED modules are modularized to form an LED module, and each LED module is assembled into blocks on the top, bottom, left and right sides. When assembled vertically, the LED module is shifted from the upper frame to the lower frame, It is to be resolved.
Also, in order to obtain high light power, each LED module is equipped with a lens so that a high light power can be realized.

Description

A blinking lighthouse by LED using LED

The present invention relates to a flickering light indicating unit which informs the position of a lighthouse by the light of a lighthouse. In order to enable the recognition of the position when the sailing ship can not recognize the position, Indicates the number of times so that the location can be recognized.

Especially, it is possible to use a light emitting element as an LED, but also to eliminate the occurrence of shading of an LED as well as a high light power.

Currently, there is a method of realizing the number of flashes according to the number of revolutions and a method of realizing the number of flashes according to the blinking without rotating the flashlight. The present invention relates to a flashlight which is implemented by a flashing method will be.

The luminescent element of the method of flickering without rotating now has a problem that the light emitting element is easily damaged due to repeated durability by blinking repeatedly when the lamp is used.

Also, due to maritime environment and various other conditions, a flickering flicker is sometimes required rather than a rotary flickering flicker, but flickering flickering flickers can not be used due to its low durability.

Therefore, in recent years, it has been attempted to realize the number of flashes due to flicker by using an LED having excellent durability, but in such a case, there is a shadow generated by the irradiation angle of the LED between the LED and the LED, will be.

Patent Registration No. 10-1030133 Patent Registration No. 10-1175860

Accordingly, the present invention can eliminate the occurrence of shading due to the gap between the LED and the LED, which is generated when a light emitting element having a cylindrical shape is implemented using a plurality of LEDs, and a high light power can be obtained.

For this purpose, LED modules are modularized to form an LED module, and each LED module is assembled into blocks on the top, bottom, left and right sides. When assembled vertically, the LED module is shifted from the upper frame to the lower frame, It is to be resolved.

In order to obtain high optical power, each LED module is equipped with a lens so that it can realize high power.

Accordingly, when the LED module of the light emitting element which is assembled in a block shape in the vertical direction is assembled to the lower frame at the upper frame, it is assembled while being twisted at a certain angle, thereby eliminating the shadows generated in the flip flops without rotating The LED module of the present invention is provided with a separate aspherical lens so as to realize a high light power.

1 is a cross-sectional view of an LED module having an individual structure in which each lens of the present invention is mounted;
Fig. 2 is a view showing a state in which a fixing pin for block connection is mounted on the back surface of a heat sink constituting an LED module having an individual structure in which each lens of the present invention is mounted
3 is an external view of the lens holder of the present invention
4 is a plan view of the lens holder of the present invention
5 is a side view of the LED heat sink of the present invention
6 is a view illustrating a state in which the LED module of the present invention is assembled and connected in a cylindrical shape to form one frame.
7 is a view illustrating a state in which the shade is compensated for by twisting in a state in which one LED is formed and connected to a cylindrical shape of the LED module of the present invention
8 is a state diagram showing twist at a certain angle while being assembled with the upper and lower frames according to the present invention
Fig. 9 is a perspective view of the assembly of the LED module of the present invention
10 is a state diagram showing a twist angle in a state that the LED module of the present invention is stacked up and down
11 is a perspective view of an embodiment in which the LED module of the present invention is assembled in a block form

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in the figure, each LED module 10 is connected to the light emitting device body 200 in a circular shape in a lateral direction by the first connection element 20, as shown in FIG. 11 Thereby forming a disc-shaped LED assembly 30.
As shown in FIG. 6, the formation of the disk-shaped LED assembly 30 using the first connection element 20 can be achieved by using the first connection element 20 in the form of a pin as shown in FIG. 11 And the LED module 10 is connected and fixed to the light emitting device main body 200. The fixing of the light emitting device main body 200 and the LED module 10 can be performed by fixing the light emitting device 200 and the LED module 10 in a state where the holes 210, One end of the one connecting element 20 is inserted into the hole 15 formed in each LED module 10 and the other end is coupled and fixed to the hole 210 of the illuminated basic body.
In this state, when another LED assembly 30a, 30b, 30c, 30d, and 30e is stacked upwardly, one end of the first connection element 20 is connected to a hole 15 (not shown) formed in each LED module 10, And the other end is coupled to a hole 15 formed in each LED module 10 forming another set of LEDs 30a, 30b, 30c, 30d, and 30e to implement a cylindrical light emitting element 100 .
At this time, in order to solve the generation of shading due to the interval between the LED module 10 and the LED module 10 by the irradiation angle of the LED module 10 which is emitted as shown in FIGS. 7, 8 and 10 The LED aggregates 30, 30a, 30b, 30c, 30d, and 30e of the disk-shaped LED assemblies 30, 30a, 30b, 30c, 30d, and 30e are stacked in a multi- So that the light emitting element 100 is realized.
In the present invention, when the disk-shaped LED assemblies 30, 30a, 30b, 30c, 30d, and 30e are laminated in multiple stages, they are twisted at an interval of 5 degrees to eliminate shading.
However, the interval of the twist may be set to a predetermined angle by using the first connecting element 20 in the form of the LED module 10, that is, in the state where a plurality of the holes 15 formed in each LED module 10 are formed, The torsion can be assembled at a certain angle by changing the positions of the holes according to the angle of twist.
As shown in FIGS. 1, 3 to 5 and 9, each of the LED modules 10 (30, 30a, 30b, 30c, 30d, 30e) forming the disk- Is provided with an LED substrate 12 mounted on the front surface of the heat sink 11 and a lens holder 13 mounted on the heat sink 11 while receiving the LED substrate 12 in front of the LED substrate 12. In the lens holder 13, The lens 14 is mounted and formed.

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3, a space a spaced apart from the lens 14 and the LED substrate 12 by a predetermined distance is received by the lens holder 13 mounted on the heat sink 11 while receiving the LED substrate 12 .

Therefore, the number of flickering of the light emitting element 100 is determined by a power source and a controller (not shown) built in the light emitting device body 200. When the light emitting element 100 emits light due to such flickering Uniform brightness can be achieved without shading due to twisting.

In addition, since each lens module 10 is mounted with an aspheric lens, the light emitted from the light shading element 100 can be converged to each other, and high light power can be obtained.

Therefore, by using the LED, it is possible to obtain a high light quantity by each individual lens of the LED while maintaining low power, and also to improve the durability.

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100: light emitting element
10: LED module 11: heat sink
12: LED substrate 13: lens holder
14: lens 15: hole
20: first connecting element 20a: second connecting element
30, 30a, 30b, 30c, 30d, and 30e:
100: light emitting element
200: Nameplate primitive

Claims (6)

In order to form a disc-shaped LED assembly 30 in which each LED module 10 has a circular shape
One end of the first connecting element 20 is fixed to the illuminator main body 200 by using the first connecting element 20 in the form of a pin and the other end of the first connecting element 20 is connected to each LED module 10, A plurality of holes 15 formed in the LED assembly 30,
In this state, in order to twist another LED aggregate 30a, 30b, 30c, 30d, and 30e to the upper side of the disc-shaped LED assembly 30 in a multi-stage manner
A first connecting element 20 is provided at a position of a plurality of holes 15 formed in each LED module 10 constituting another LED assembly 30a, 30b, 30c, 30d, Emitting element 100 which is twisted at a desired angle while being moved while being moved in a twisted direction, The method according to claim 1,
Each of the LED modules 10 forming the disk-shaped LED assemblies 30, 30a, 30b, 30c, 30d, and 30e stacked in a multi-layer structure includes an LED substrate 12 mounted on the front surface of the heat sink 11, A lens holder 13 mounted on the heat sink 11 while accommodating the LED substrate 12 in front thereof and a lens 14 mounted forwardly in the lens holder 13,
The LED 14 is mounted on the heat dissipating plate 11 while receiving the LED substrate 12 and the LED 14 is spaced apart from the LED substrate 12 by a predetermined distance, 3. The method of claim 2,
The LED module 10 is mounted with an aspherical lens so that the light emitted from the light emitting element 100 is converged to each other, The method according to claim 1,
When the LED aggregates 30, 30a, 30b, 30c, 30d, and 30e of the disk shape are stacked in multiple stages, a blinking light is made using LEDs tilted at intervals of 5 degrees
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