KR101788774B1 - Light apparatus with improved durability - Google Patents

Abstract

The present invention relates to a lighting device with improved durability, and more particularly, to a lighting device with improved durability, which comprises a main body, a radiating part extending downward from a lower side of the main body, A circuit board unit installed to surround the heat dissipation unit; a light source provided on each of the plurality of circuit board units, the light source emitting light; and the heat dissipation unit, the circuit board unit, and the light source, And a cover portion made of a synthetic resin material that shields the light source from being exposed and transmits the light emitted from the light source.
According to the present invention as described above, since the heat radiating part is disposed on the lower part of the main body, that is, the inside of the cover part, using the cover part made of the synthetic resin material and the plurality of circuit boards are arranged so as to be spaced apart from each other, It is possible to greatly improve the durability to prevent breakage or damage due to an external impact, and to maximize the heat radiation efficiency, thereby remarkably improving the service life.

Description

[0001] Light apparatus with improved durability [

The present invention relates to an illumination device with improved durability, and more particularly, to a lighting device with improved durability that minimizes damage to a light source due to deterioration, thereby remarkably improving the service life thereof, and moreover effectively dissipating heat generated from a light source part, To a lighting apparatus having improved durability.

Generally, high-power lamps are used for large-scale, high-ceiling industrial facilities such as shipbuilding, manufacturing plants, and large-scale logistics warehouses in order to secure a sufficient amount of light for a large irradiation area.

As described above, a mercury lamp (MV) is mainly used as an industrial lamp of a high power type applied to a high ceiling lamp, and a metal (MH) having improved light efficiency and color coordinates is used.

However, the lighting of a mercury lamp (MV) or a metal lamp (MH), which is currently being used as a ceiling for some manufacturing sites or warehouses, has a short life span and falls below 70 to 80% And unnecessary power consumption is increased. As a result, there is a problem that the work efficiency of a worker is significantly lowered.

On the other hand, LED Emitting Diode lamp has much higher light efficiency than unit mercury (MV) and metal (MH) than conventional mercury lamp (MV) and it is environmentally friendly because it does not emit harmful waves such as ultraviolet rays, Therefore, recently, an illumination device replacing a light source with an LED has been developed and used.

1 is a cross-sectional view of a conventional industrial LED lighting device.

1, a conventional industrial LED lighting apparatus 100 includes a main body 110, a heat dissipation unit 120 installed inside the main body 110, A LED 140 installed on the circuit board 130 and emitting light and a LED 140 coupled to a lower portion of the main body 110. The LED 140 and the circuit board 130 are connected to each other, And a cover part 150 made of a glass material that shields the LED 130 from being exposed to the outside and transmits the light emitted from the LED 140.

Such a conventional industrial LED lighting apparatus 100 has an effect of increasing the lifetime and increasing the power efficiency compared with conventional mercury lamps and metal lamps by replacing the light source with the LED 140.

However, in the conventional industrial LED lighting apparatus 100, the heat dissipating unit 120 is installed inside the main body 110. When the main body 110 is manufactured in a small size, the inside of the main body 110 is narrow, 110 have a hermetically sealed shape and thus the thermal efficiency is low and the structure of the power supply unit or the like installed inside the main body 110 due to the heat dissipated from the heat dissipating unit 120 is damaged, .

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a light source device capable of minimizing damage to a light source portion due to deterioration and remarkably improving its service life, And an object of the present invention is to provide a lighting device with improved durability that can effectively dissipate heat.

According to an aspect of the present invention, there is provided an electronic apparatus including a main body, a heat dissipation unit extending downward from a lower side of the main body, and a plurality of heat dissipation units, A plurality of light sources disposed at the spaced apart positions to emit light and a cover unit installed at a lower portion of the main body so as to shield the heat dissipation unit and the light source unit from exposure to the outside and transmit the light emitted from the light source, A plurality of groups of the light sources are set as a group, and the light sources are turned on alternately for each group, and when the temperature of the group being lighted reaches a preset reference temperature, And a lighting control unit for turning on the light source of the main body, A heat releasing portion formed radially from one side of the outer surface of the column portion and formed with a receiving space therein and having a plurality of holes communicating with the receiving space on one side of the outer surface; And the other end is inserted into the hole of the heat releasing portion, and the moving portion is disposed at a position where the length of the heat releasing portion is longer than the length of the heat releasing portion, A heat dissipating blade having one end connected to one end of the moving part and the other end connected to the inside of the heat emitting part or protruding outside the heat emitting part, When the temperature of the light source unit is increased, one end is thermally deformed and warped to provide a moving force to the moving unit, And a shape-deforming portion that returns to a circular shape when the thickness of the light-shielding portion is lowered.

In addition, it is preferable that the heat releasing portion is formed such that the hole is inclined from the inner surface toward the column portion.

According to the present invention as described above, the plurality of light source units are divided into groups, and the light source units are turned on alternately to minimize damage to the light source unit by deterioration, thereby remarkably improving the lifetime of the light source unit, The heat radiating vane can be protruded from the corresponding heat radiating part without any additional power so that the heat generated from the light source part that is being lit can be dissipated effectively even in a narrow space.

1 is a cross-sectional view of a conventional industrial LED lighting device,
2 is a perspective view of a lighting apparatus with improved durability according to an embodiment of the present invention,
FIG. 3 is a perspective view showing a state in which a cover portion is separated in an illumination device with improved durability according to an embodiment of the present invention;
4 is a longitudinal sectional view of an illumination device with improved durability according to an embodiment of the present invention,
5 is a cross-sectional view of a lighting device with improved durability according to an embodiment of the present invention,
6 is a view illustrating a state in which any one of a plurality of groups according to an embodiment of the present invention is lit and a corresponding heat radiating vane protrudes to the outside,
FIG. 7 is a view illustrating a state in which another group among a plurality of groups according to an embodiment of the present invention is lit and a corresponding heat radiating vane protrudes to the outside; FIG.

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

3 is a perspective view showing a state in which a cover portion is separated from an illuminating device having improved durability according to an embodiment of the present invention, and FIG. 4 is a perspective view of the illuminating device shown in FIG. Is a longitudinal sectional view of an illumination device with improved durability according to an embodiment of the present invention.

2 to 4, the lighting device 1 of improved durability according to an embodiment of the present invention includes a main body 10, a heat radiating portion 20, a light source portion 30, a cover portion 40, And a lighting control unit (50).

The main body 10 is formed in a semispherical shape having an open top surface and a housing space 11 in which a power supply unit such as a power supply unit is housed is formed. Protect from the environment.

The main body 10 is installed at a position corresponding to an area to be illuminated, and provides an installation area of each structure to be described later to support it.

The heat dissipating unit 20 is disposed at a lower portion of the main body 10 and emits heat generated by the light source unit 30. The heat dissipating unit 20 effectively dissipates heat even in a narrow space to minimize damage to the light source unit 30 Which is a main feature of the present invention, and a more detailed description thereof will be described in detail below with reference to Fig.

The light source unit 30 includes a circuit board 31 provided at an end of the heat emitting unit 22 and a light source 32 installed at one side of the circuit board 31, And illuminates the desired area.

The circuit board 31 is formed in a rectangular shape having a length in a substantially vertical direction, and a circuit pattern is formed on the surface, and a plurality of the circuit boards 31 are installed at the ends of the plurality of heat radiating portions 22 formed radially.

Here, the circuit board 31 is spaced apart from the adjacent circuit board 31 so as to form a space between the circuit board 31 and the circuit board 31. This is because the heat radiated from the heat dissipating unit 20 forms the above- And is easily discharged to the outside through the cover part 40. [

A plurality of light sources 32 are provided on one side of the circuit board 31 to emit light to the outside. Such a light source 32, that is, LEDs, is commercially available to those having ordinary skill in the art It should be noted that a detailed description of the components will be omitted.

The cover 40 is formed in a substantially cup-shaped space with an open top and is fixedly coupled to the body by a separate fixing means 41 in a state in which the upper end is supported on one side of the body, And is formed to be translucent to transmit light emitted from the light source 32 to the outside so as to protect the internal structure from an external impact.

The lighting control unit 50 includes a temperature detecting unit 51 provided in the vicinity of the light source 32 for detecting the temperature of the light source 32 and a circuit board 31 and temperature detecting unit 51, And a control unit 52 electrically connected to the light source unit 30 to control the lighting of the light source unit 30.

More specifically, the lighting control unit 50 divides the light sources 32 attached to one circuit board 31 of the plurality of light sources 32 into a group, divides a plurality of groups into a plurality of groups, When the temperature of the group being lighted reaches a predetermined reference temperature through the temperature detecting means 51, the light source unit 30 in the group being turned on is turned off and the light source unit 30 in the other group is turned off, On.

That is, the lighting control unit 50 has a feature that the damage of the light source 32 due to deterioration is minimized by controlling the temperature of the light source 32 by alternately lighting the plurality of light source units 30 for each group.

5 is a cross-sectional view of a durability-enhanced illumination device according to an embodiment of the present invention.

5, the heat dissipating unit 20 according to an embodiment of the present invention includes a column portion 21 extending downward from one side of the lower portion of the main body, A moving part 23 movably installed inside the heat releasing part 22 and a plurality of heat releasing parts 22 in the inside and outside directions of the heat releasing part 22 inside the heat releasing part 22, And a shape deforming part 25 provided at one end of the heat discharging part 22 and one end of which is bent according to the temperature of the light source 32. [

The column portion 21 is formed in a substantially circular bar shape and is arranged in a vertical direction in a lower portion of the main body to serve as a heat releasing portion 22 to be described later.

The heat radiating portion 22 is a heat radiating plate 22a extending outwardly from the outer surface of the column portion 21 and vertically arranged in a plate shape at the lower portion of the main body and having a plurality of radial portions formed radially from the outer surface of the column portion 21. [ And a support plate 22b formed at an end of the heat dissipating plate 22a to radiate the heat transmitted from the light source unit 30 to the outside and to fix the mounting area of the circuit board 31 It serves to provide.

A plurality of holes 22ab are formed in the heat dissipating plate 22a along the longitudinal direction of the heat dissipating plate 22a in the longitudinal direction of the heat dissipating plate 22a. As shown in Fig.

At this time, the hole 22ab may be formed as a long hole having a length in the vertical direction according to the shape of the heat radiating vane 24 described later.

The support plate 22b has a plate shape and is formed in a direction perpendicular to an end portion of the heat radiation plate 22a and provides a mounting region in which a circuit board 31 is installed on one side where a flat surface is formed, do.

The moving part 23 is formed in a substantially rectangular parallelepiped shape and is disposed inside the heat dissipating plate 22a so that one side is connected to one end of a shape deformation part 25 to be described later, The heat dissipating plate 22a is pressed against one end of the shape deforming portion 25 and moved along the longitudinal direction of the heat dissipating plate 22a so that the heat dissipating vane 24 coupled to one side of the heat dissipating plate 22a protrudes to the outside of the heat dissipating plate 22a .

The moving part 23 is preferably formed such that the upper and lower ends thereof are curved so as to reduce the frictional force with the inner surface of the heat radiation plate 22a and to facilitate the movement.

The heat radiating vane 24 is preferably formed in a thin plate or fin shape so that the heat radiating vane 24 can be easily drawn out to the inside and outside of the heat radiation plate 22a along the shape of the hole 22ab. And the other end is inserted and disposed in the hole 22ab of the heat radiation plate 22a.

When the moving part 23 moves in the heat dissipating plate 22a, the heat dissipating vane 24 protrudes from the light source 32 to the heat dissipating plate 22a while the other end is protruding to the outside of the heat dissipating plate 22a. 22a in a more efficient manner.

The shape deforming portion 25 is formed by attaching two metals having different coefficients of thermal expansion and is installed in the vicinity of the light source portion 30 on one side of the heat releasing portion 22. The connecting portion W, To the one end of the moving part (23).

When the temperature of the light source unit 30 is increased, the two deformed portions 25 are deformed in the direction of the moving unit 23 while the two metals having different coefficients of thermal expansion are expanded to different expansion rates. (23) to provide a moving force to the moving part (23).

In addition, when the temperature of the light source unit 30 is lowered, the two metals are contracted, and the curved end portion is returned to the circular shape so that the moving unit 23 connected to the connection member W is returned to the initial position.

FIG. 6 is a view illustrating a state in which any one of a plurality of groups according to an embodiment of the present invention is lit and a corresponding heat radiating vane protrudes to the outside, and FIG. 7 is a cross- And a heat radiating vane corresponding to the other group is protruded to the outside.

The operation of the lighting apparatus with improved durability according to an embodiment of the present invention having such a structure will be described with reference to FIGS. 6 and 7. FIG.

First, when a power source is externally applied, the lighting control unit 50 controls any one of a plurality of groups of the light source unit 30 to turn on the light source 32, The light passing through the cover 40 is irradiated to the outside, thereby illuminating an area to be illuminated.

Here, the light source 32 generates heat while emitting light, and a part of the generated heat is emitted to the outside through the cover parts 40 and 50 and the other part is transmitted to the heat dissipating parts 20 and 20 .

At this time, the shape deformation part 25 provided in the heat releasing part 22 provided with the group to be lighted among the plurality of heat releasing parts 22 is formed by the heat generated when the temperature of the light source 32 gradually increases, The one end is bent toward the moving part 23 while being stretched at the other expansion ratio.

One end of the curved shape deforming portion 25 presses one side of the moving portion 23 to move the moving portion 23 in the direction of the column portion 21. The moving portion 23 is moved and the heat dissipating blade 24 The other end of the heat dissipating vane 24 slides out of the hole 22ab and protrudes to the outside of the heat dissipating plate 22a.

That is, the heat radiating vane 24 is protruded to the outside of the heat radiating plate 22a and functions as a radiating fin, so that heat generated from the group being lighted can be effectively emitted.

Thereafter, when the temperature of the group being lighted reaches the set reference temperature, the lighting control unit 50 turns off the light source unit 30 in the lighting group, turns on the light source unit 30 in the other group, While still allowing the lighting area to be continuously illuminated through other groups.

In addition, when the temperature of the off-group is lowered and the shape deforming portion 25 provided in the corresponding heat releasing portion 22 returns to the circular shape, the moving portion 23 is pulled to the initial position, The one end thereof is moved to the inside of the heat-radiating plate 22a.

On the other hand, as the heat is generated from the light source 32 in the on group, that is, the lighted group, the heat radiation vane 24 protrudes to the outside in the same operation as above, and the heat radiation is efficiently performed.

The lighting device according to the embodiment of the present invention has the improved durability according to the present invention so that the heat radiating vane 24 can be protruded from the corresponding heat emitting portion 22 without any additional power according to the temperature of the light source portion 30 And it is also possible to effectively emit heat generated from the light source unit 30 which is being lit even in a narrow space.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications or changes as fall within the scope of the invention.

10: main body 11: accommodation space
12: cap 20:
21: column portion 22: heat releasing portion
22a: heat radiating plate 22aa:
22ab: hole 23: moving part
24: heat dissipating blade 25:
30: light source 31: circuit board
32: light source 40: cover part
41: fixing means 50: lighting control unit
51: temperature detecting means 52:

Claims (2)

A body;
A heat dissipation unit extending downward from a lower side of the main body;
A plurality of light sources installed at one side of the outer surface of the heat dissipation unit, the plurality of light sources being spaced apart from each other at predetermined intervals;
A cover unit installed at a lower portion of the main body so as to shield the heat dissipation unit and the light source unit from exposure to the outside and transmit the light emitted from the light source;
Wherein the plurality of light source units are set as a plurality of groups and the light source units are alternately turned on and off for each group so that when the temperature of the group being lighted reaches a predetermined reference temperature, And a lighting control unit for turning on the light source unit,
The heat-
A column extending downward from a lower side of the main body;
A heat radiating portion formed radially from one side of the outer surface of the column portion and having a receiving space formed therein and having a plurality of holes communicating with the receiving space on one side of the outer surface;
A moving part movably installed in the accommodating space of the heat emitting part along a longitudinal direction of the heat emitting part;
One end portion is connected to one side of the outer surface of the moving portion and the other end portion is inserted and disposed in the hole of the heat emitting portion and the other end moves toward the inside of the heat emitting portion when the moving portion moves along the longitudinal direction of the heat emitting portion, A heat dissipating blade protruding outside the heat releasing portion; And
Wherein one end is connected to one side of the moving part and the other end is thermally deformed when the temperature of the light source part is increased to provide a moving force to the moving part while the temperature of the light source part is low And a shape-deforming portion that returns to a circular shape when the light-shielding portion is deformed.
The method according to claim 1,
And the heat releasing portion is formed such that the hole is inclined from the inner surface toward the column portion.

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