KR100759054B1 - Led light - Google Patents

Abstract

A lighting apparatus using an LED(Light Emitting Diode) is provided to maximize durability by increasing a life span in comparison with an existing 20W fluorescent lamp. A lighting apparatus using an LED includes a PCB(Printed Circuit Board)(56), a body(58), a heat radiating plate(54), an LED(52), and a translucent cover body(50). The PCB(56) drives the LED(52). The body(58) receives the PCB(56), and is coupled with a power system of an external socket unit. The heat radiating plate(54) has an uneven part for heat radiation on the outer circumference, and one end thereof is coupled to the body(58). The LED(52) is mounted at the upper part of the heat radiating plate(54) by heat adhesion. The translucent cover body(50) receives the LED(52), and is coupled to the other end of the heat radiating plate(54).

Description

Lighting device using light emitting diodes {LED light}

1 is a circuit diagram of a lighting device using a light emitting diode according to the present invention.

2 is an external perspective view of a lighting apparatus using a light emitting diode according to the present invention.

3 is an exploded perspective view of a lighting device using a light emitting diode according to the present invention.

4 is an enlarged perspective view of the heat sink and the LED unit shown in FIG.

5 is a plan view of the heat sink and the LED unit shown in FIG.

6 is a side view of the heat sink and the LED unit shown in FIG.

* Brief Description of Drawings

10. AC-DC converter 20. DC output voltage

30. DC output voltage controller

50. Cover body 52. Light emitting diode

54 .. Heat Sink 56 .. Printed Circuit Board

58 .. Body

52a .. lead wire 52b .. fixing member

54a .. heat dissipation piece 54b .. protrusion

58a .. Grooves

The present invention relates to a lighting device using a light emitting diode, and more particularly to a lighting device using a light emitting diode capable of high luminance light emission having a wide range of voltage characteristics.

In addition to simply identifying objects, lights are used to create a décor or a cozy atmosphere. Such lighting is generally incandescent or fluorescent.

Incandescent lamps are simple to attach to lighting and easy to combine with other lighting fixtures, despite the widespread use of fluorescent lamps, the demand is still high. Fluorescent lamps are widely used with incandescent lamps because of their relatively high efficiency and long life compared to incandescent lamps that use filaments.

Recently, iodine bulbs, high-efficiency halide lamps, solar lamps, etc. using halogen cycles have been developed and put into practical use. The EL lamp, which is a crystal light emitting body, is spotlighted as a next-generation light source as a surface light source, but has not yet reached the practical stage due to problems such as efficiency and light source device.

An optoelectronic device, LED (Light Emitting Diode), is used as a lamp. This LED is applied to various places such as outdoor large billboards, traffic signals, automobile dashboards, medical equipment, warning lights, etc., and has low power consumption, semi-permanent life, and environment-friendly characteristics compared to incandescent and fluorescent lamps. I am in the limelight.

However, LED has good straightness but not good diffusion, so it was not easy to use as lighting for indoor lighting.

In addition, the conventional luminaires that implement indoor lighting using LEDs are troublesome to install and increase the manufacturing cost because a plurality of LEDs are arranged in a predetermined panel so as to exhibit illuminance similar to incandescent or fluorescent lamps. There was this.

In addition, in the case of arranging a plurality of LEDs, there is a problem such that the panel is broken or the life of the LED itself is reduced due to the high heat emitted from each LED, and there is a problem that a secondary mechanism for heat dissipation must be additionally provided. .

In addition, the conventional lighting lamp using the LED can not be used at other voltages because it is intended to operate only at a prescribed voltage, there was a problem in that to provide a separate voltage step-up device such as a transformer to solve this problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and aims to minimize the power consumption by exerting a luminance efficiency of 90% or more as a power consumption of 20% of a conventional 20-watt incandescent lamp with one light emitting diode. It is done.

In addition, the present invention has a life expectancy of at least 50,000 hours and up to 80,000 hours as compared to the average life of the existing 20-watt fluorescent lamp is about 2,000 hours to another object of maximizing the usable life.

In addition, the present invention is another object to realize the optimization of the heat treatment since the heat generation is maintained at 55 ℃ or less when the one-watt light-emitting diode is turned on at 25 degrees Celsius, no ventilation, no heat sink conditions.

In addition, the present invention is another object to enable the use of any voltage conditions in the world, while the use of a conventional light or lighting fixture using a light-emitting diode was limited voltage.

In addition, the present invention is to provide a miniaturization of the lighting lamp by realizing the built-in miniaturization of the power supply unit, while a conventional ballast or lighting fixture using a fluorescent lamp, incandescent lamp and light emitting diode required a separate ballast or power supply unit for another purpose. do.

According to an aspect of the present invention, there is provided a lighting apparatus using a light emitting diode coupled to an external socket, the light emitting device comprising: a printed circuit board for driving the light emitting diode; A main body coupled to a power system of the external socket part while accommodating the printed circuit board; Heat dissipation plate is formed on the outer periphery for heat dissipation, one end is fastened to the main body; A light emitting diode thermally bonded to the upper portion of the heat sink; And a translucent cover body coupled to the other end of the heat sink while accommodating the light emitting diode.

In addition, the present invention is characterized in that it further comprises a; silicon blocking film for blocking the heat radiated from the heat sink to move to the printed circuit board.

The heat sink is characterized in that the aluminum material.

The printed circuit board may include an AC-DC converter for converting an input AC voltage into a DC voltage; A DC output voltage unit for stabilizing the output voltage converted by the AC-DC converter to supply the light emitting diode; And a DC output voltage controller for PWM controlling the output voltage by the AC-DC converter based on the voltage value fed back from the DC output voltage unit. The DC output voltage controller may include the DC output voltage unit. A switching regulator for sensing an output voltage; A photo coupler switched on / off by the switching regulator; And a control IC configured to variably output a PWM control signal to the AC-DC converter based on a signal input by a switch action of the photo coupler.

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

1 is a circuit diagram of a lighting device using a light emitting diode according to the present invention.

As shown in FIG. 1, the present invention includes an AC-DC converter 10, a DC output voltage unit 20, and a DC output voltage controller 30.

The AC-DC converter 10 converts an input voltage in the AC 90V to 260V range into a DC voltage. The AC-DC converter 10 includes a fuse R2 for preventing sudden overvoltage of an input power supply, choke coils LF, bead cores C1, C2, and AC for removing or improving noise included in a voltage component. Bridge diodes D1 to D4 for converting power to DC power, RCD snubber circuits R4, C7 and D6 for preventing the voltage from rising sharply, and pulse transformer T1 for generating the output voltage. .

The DC output voltage unit 20 stabilizes the low voltage generated by the AC-DC converter 10 to a desired voltage and supplies the same to the light emitting diode 52. The DC output voltage unit 20 includes a Schottky diode D8 for voltage control, a line filter capacitor C3 and C4 and a coil LF1 for removing the pulse flow remaining in the direct current component.

The DC output voltage controller 30 is for controlling the secondary voltage generated by the pulse transformer T1 of the AC-DC converter 10. The DC output voltage controller 30 includes a control IC U2 for performing overall operations for output voltage control, a switching regulator SR1 for sensing the voltage of the DC output voltage unit 20, and the switching regulator SR1. It includes a photo coupler (U2) that operates in accordance with the signal of.

The control IC U3 compares two input signals of the RC stage and the REG stage to step up or step down the voltage of the secondary power source induced by PWM control of the pulse transformer T1. Here, the RC stage is connected with a resistor R6 that repeats charging and discharging and a capacitor C6, and the REG stage is a reference voltage which is constantly input through the photo coupler U2. This reference voltage is set by adjusting the resistances of the R10 and R11 resistors.

As such, by controlling the switching regulator SR1 to an accurate reference value, PWM duty control by the control IC U2 is precisely performed, and a constant output voltage and output current are induced in the DC output voltage unit 20. It enables long life and high efficiency of light emitting diode.

The printed circuit board () constructed as described above can be used at a wide range of voltages of AC 90V to 260V, and is designed to be lit even at temperatures from -30 ° C to + 120 ° C.

On the other hand, Figure 2 is an external perspective view of a lighting device using a light emitting diode according to the present invention, Figure 3 is an exploded perspective view of a lighting device using a light emitting diode according to the present invention, Figure 4 is a heat sink and LED portion shown in FIG. It is an enlarged perspective view, FIG. 5 is a top view of the heat sink and LED part shown in FIG. 3, and FIG. 6 is a side view of the heat sink and LED part shown in FIG.

The present invention is applied to a lighting device using a light emitting diode coupled to an external socket connected to a commercial power line.

The present invention includes a printed circuit board 56, a main body 58, a heat sink 54, a light emitting diode 52 and a cover 50.

The printed circuit board 56 is for driving a light emitting diode, and the AC-DC converter 10, the DC output voltage unit 20, and the DC output voltage controller 30 as described with reference to FIG. 1 are installed. Will be. The printed circuit board 56 stably supplies operating power to the light emitting diodes 52.

The main body 58 is coupled to the power system of the external socket while accommodating the printed circuit board 56. The main body 58 is formed of a base made of polycarbonate, and an inner socket part for electrically coupling with the outer socket part is formed at an outer circumference of the base.

The heat sink 54 is for efficiently dissipating heat emitted from the light emitting diodes 52. The heat dissipation plate 54 has a plurality of heat dissipation pieces 54a for heat dissipation formed on the outer circumference thereof, and one end thereof is fastened to the main body 58.

As an example, a protrusion 54b for fastening with the main body 58 is formed at a lower portion of the heat sink 54, and a recess 58a corresponding to the protrusion 54b of the heat sink 54 is formed at an upper portion of the main body 58. ) Can be formed. The heat dissipation plate 54 is fitted to the main body 58 by being screwed in. The projection 54b of the heat dissipation plate 54 is inserted into the recess 58a of the main body 58 to be pressed in the vertical direction, and then rotated in the horizontal direction. I can attach it.

The light emitting diode 52 is thermally bonded to the upper portion of the heat sink 54. The upper surface of the heat sink 54 is coated with a predetermined insulating material for insulating the light emitting diode 52. In addition, a fixing member 52b for easily fixing the light emitting diode 52 may be further provided at an adhesive portion between the light emitting diode 52 and the heat sink 54.

The fixing member 52b is made of aluminum, and the lead wire 52a of the light emitting diode 52 is electrically connected to one side of the fixing member 52.

The cover 50 is coupled to the other end of the heat sink 54 while receiving the light emitting diode 52. The cover body 50 has a translucent characteristic, and the light diffusing property of the light emitting diode 52 is increased.

Meanwhile, a silicon blocking film (not shown) may be further provided to block heat from the heat sink 54 from being transferred to the printed circuit board 56.

The silicon blocking film may be configured by injecting silicon between the heat sink 54 and the printed circuit board 56 after assembling the lighting device according to the present invention, and when the lighting device is assembled into a predetermined shape in advance. It can be arranged between the heat sink 54 and the printed circuit board 56.

As described above, the present invention enables a light emitting diode to exhibit a brightness efficiency of 90% or more as a power consumption of 20% of a conventional 20-watt incandescent lamp, thereby minimizing power consumption.

In addition, the present invention enables a maximum life of at least 50,000 hours and a maximum of 80,000 hours as compared to the average life of the existing 20-watt fluorescent lamp is about 2,000 hours.

In addition, the present invention realizes optimization of the heat treatment because the heat generation is maintained at 55 ° C or less when the one-watt LED is turned on at 25 degrees Celsius, no ventilation, no heat sink conditions.

In addition, the present invention has the effect that the voltage can be used in any voltage conditions in the world, while the available voltage or the lighting fixture using a conventional light emitting diode is limited.

In addition, the present invention provides a miniaturization of the lighting lamp by realizing the miniaturization of the power supply unit, while a conventional ballast or a lighting device using a fluorescent lamp, an incandescent lamp and a light emitting diode required a separate ballast or a power supply unit.

The present invention is not limited to the specific embodiments as described above, and any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims can make various modifications. Of course, such changes will fall within the scope of the claims.

Claims (5)

In the lighting device using a light emitting diode coupled to the external socket portion to emit light, A printed circuit board for driving a light emitting diode; A main body coupled to a power system of the external socket part while accommodating the printed circuit board; Heat dissipation plate is formed on the outer periphery for heat dissipation, one end is fastened to the main body; A light emitting diode thermally bonded to the upper portion of the heat sink; And And a translucent cover body coupled to the other end of the heat sink while accommodating the light emitting diode. The method according to claim 1, Lighting device using a light emitting diode further comprises a; silicon blocking film for blocking the heat radiated from the heat sink to move to the printed circuit board. The method according to claim 1, The heat sink is a lighting device using a light emitting diode, characterized in that made of aluminum. The method according to any one of claims 1 to 3, The printed circuit board, An AC-DC converter for converting an input AC voltage into a DC voltage; A DC output voltage unit for stabilizing the output voltage converted by the AC-DC converter to supply the light emitting diode; And a DC output voltage control unit for PWM controlling the output voltage by the AC-DC converter based on the voltage value fed back from the DC output voltage unit. The method according to claim 4, The DC output voltage control unit, A switching regulator for sensing a voltage of an output voltage of the DC output voltage unit; A photo coupler switched on / off by the switching regulator; And And a control IC configured to variably output a PWM control signal to the AC-DC converter based on a signal input by a switch action of the photo coupler.

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