KR100933893B1 - Efficiency lamp structure - Google Patents

Abstract

The present invention relates to a lamp structure with improved efficiency, and more particularly, by providing a heat dissipation structure for smooth heat dissipation of the lamp, and a current supply structure for supplying a rectified current to the lamp, to increase the life of the lamp and high efficiency illuminance It relates to a lamp structure with improved efficiency to combine.

Lamp Structure, Light Emitting Diode (LED), Heat Dissipation Structure, Reactor, Pulse Flow, Filtering

Description

Lamp structure with improved efficiency {LAMP DEVICE FOR HIGH EFFICIENCY}

The present invention relates to a lamp structure with improved efficiency, and more particularly, a heat dissipation structure for facilitating the heat dissipation of the lamp and a constant current filter circuit for supplying the rectified current to the lamp, thereby increasing the life of the lamp and illuminating with high efficiency. It relates to a lamp structure with improved efficiency to stably combine.

In general, a lamp structure made of sodium or the like is installed in a street lamp or a security lamp, thereby increasing ambient illumination to ensure stable visibility.

However, sodium, which is widely used for streetlights and crime prevention, has a problem in that a large amount of current is consumed due to its low efficiency.

In particular, the street lamps and security lamps are mainly installed in dense houses, and the lights are turned on at night when a lot of currents are used in the houses, so that a high voltage is maintained due to an increase in the surplus load, thereby shortening the lifespan of the lamps.

In addition, since fluorescent lamps reach 60 to 80 ° C, sodium, etc., reach 160 to 200 ° C, there is a large risk of explosion and ignition. It is expected to shorten the lifespan by more than 50% due to a lot of changes in illuminance caused by voltage fluctuations during power machine operation.

On the other hand, manufacturers have proposed a standard specification that the efficiency reaches 50 to 60% in the reference life.

However, as a result of measuring the actual reference specification, the present inventors found that the efficiency was 80% for the first time 10%, the efficiency 60% for the 30% time, the efficiency 40% for the time 40%, and the time 60%. Was found to reach 0%.

As a result of analyzing the cause of the measurement result, the existing lamp structure was not provided with a stable heat dissipation structure, and a stable supply structure was not provided, so that the unfiltered pulsation was supplied without the lamp and the lamp was radiated. It has been found that the efficiency of the lamp is greatly reduced by heat.

Therefore, conventional street lamps or security lamps equipped with sodium lamps or metal lamps have excessive maintenance costs due to a large amount of current consumption, and frequently have frequent limitations of lamp replacement.

Therefore, there is an urgent need in the art for the development and dissemination of a new type of lamp structure capable of maintaining low illumination while maintaining stable illumination for a long time.

SUMMARY OF THE INVENTION An object of the present invention is to provide a lamp structure having an improved heat dissipation structure for facilitating heat dissipation of a lamp and a constant current filter circuit for supplying a rectified current to the lamp to increase lamp life and to provide high efficiency illuminance. In providing.

The above object is achieved by the following configuration provided in the present invention.

The lamp structure 1 with improved efficiency according to the present invention,
An insulating substrate 10 on which current supply wiring 11 is disposed; It is installed in close contact with the insulating substrate 10, is connected to the current supply wiring 11 formed on the insulating substrate 10 through the lead terminal 23, and emits light through the current provided from the current supply wiring 11 A light emitting diode (LED) 20; A heat dissipation plate 30 disposed on the upper surface 10a of the insulating substrate 10 on which the light emitting diodes 20 are disposed and dissipating heat generated by the light emitting diodes 20 to an upper portion thereof; And a fixing bracket 40 which is disposed to be stacked on top of the heat dissipation plate 30, and has a plurality of vents 41 formed in a body and a connection connector 42 which is coupled to the main connector 110. Consist of,
Heat generated during the light emitting process of the light emitting diode 20 is configured to conduct and dissipate through the heat sink 30 and to quickly radiate heat through the vent 41 of the fixing bracket 40, so that the light emitting diode 20 is overheated. It is characterized in that it is configured to prevent the phenomenon that the illuminance is lowered and the life is shortened.
Preferably, the reflecting plate 60 is installed on the lower surface 10b of the insulating substrate 10 on which the heat sink 30 is stacked on the upper surface 10a, so that the light efficiency of the light emitting diode 20 is improved. .
More preferably, the vent 41 includes an inlet portion 41a which is a path through which heat radiated from the heat sink 30 is introduced; A step 41c is formed between the discharge part 41b which is a path of the external discharge of heat introduced through the inlet part 41a, and the step formed between the discharge part 41b and the inlet part 41a ( 41c) is configured to block unauthorized flow of rainwater.
On the other hand, between the connecting connector 42 and the current supply wiring 11, a transformer 71 for converting a high voltage current into a low voltage current; An AC-DC converter 72 that converts the alternating current transformed by the transformer 71 into a direct current; And a constant current supply unit 70 including a reactor 73 by filtering the current converted into DC through the AC-DC converter 72, so that the constant current is supplied to the light emitting diode 20.

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The lamp structure according to the present invention employs a light emitting diode (LED) having a significantly improved lifespan and efficiency compared to sodium lamps, metal lamps, and fluorescent lamps. In the present invention, the lamp structure includes a heat dissipation structure for smooth heat dissipation of the lamp, and a constant current supply unit for supplying a rectified current to the lamp.

Therefore, the lamp structure having improved efficiency according to the present invention has the advantage of consuming low power while having a stable life and illuminance in comparison with sodium lamps which are generally used in streetlights and security lamps.

In other words, 60% power savings are expected compared to conventional sodium lamps, and the lifespan can be increased six times without changing the illuminance. In addition, when compared with the fluorescent lamp, 30% power saving is expected, and can have a lifespan of 10 times without changing the illuminance, which has the advantage that the additional cost of maintenance is greatly reduced.

In particular, the light emitting diode (LED) applied to the lamp structure according to the present invention is made of an environmentally friendly material, it is environmentally friendly because no heavy metal such as mercury or lead is generated when disposed.

Hereinafter, with reference to the accompanying drawings will be described in detail the lamp structure having improved efficiency proposed in the preferred embodiment of the present invention.

1 is a view showing an assembly state of a lamp shade provided with an improved lamp structure and a main connector proposed as a preferred embodiment in the present invention, Figure 2 is an efficiency improved lamp structure proposed as a preferred embodiment in the present invention 3 is a partial enlarged view showing an enlarged portion 'A' in FIG. 2.

The lamp structure 1 having improved efficiency proposed as a preferred embodiment of the present invention includes an insulating substrate 10 provided with a current supply wiring 11, as shown in Figs. It is installed in close contact with the insulating substrate 10 and is connected to the current supply wiring 11 formed on the insulating substrate 10 through the lead terminal 23 to receive current from the current supply wiring 11 to emit light. A light emitting diode (LED) 20; A heat dissipation plate 30 disposed on the upper surface 10a of the insulating substrate 10 on which the light emitting diodes 20 are disposed and dissipating heat generated by the light emitting diodes 20 to an upper portion thereof; And a fixing bracket 40 having a plurality of ventilation holes 41 formed on the body and stacked on the upper portion of the heat sink 30, and having a connection connector 42 coupled to the main connector 110. It is configured by.
Here, the light emitting diode 20 is that the light emitting chip 22 accommodated in the transparent body 21 as shown in Figure 3 is provided with a current through a pair of lead terminals 23 to emit light, which is known Of goods.

Referring to the drawings showing a preferred embodiment, a plurality of light emitting diodes 20 are arranged in a two-row concentric structure on the lower surface (10b) of the insulating substrate 10, the light emitting diode 20 is a two-row concentric structure A pair of heat sinks 30 having different diameters are disposed on the upper surface 10a of the insulating substrate 10 arranged in a concentric manner, and the heat sink 30 has the light emitting diodes 20 disposed on the lower surface 10b. It is in close contact with the upper surface 10a of the insulating substrate 10. Here, the heat sink 30 is preferably made of an aluminum material having excellent thermal conductivity.

In the present embodiment, the carbon pad 50 is provided between the heat sink 30 and the insulating substrate 10 to configure the heat sink 30 and the insulating substrate 10 to be in close contact with each other. Heat generated during the light emitting process of the heat conduction is rapidly conducted through the heat sink 30 to radiate heat.

In addition, the lower surface 10b of the insulating substrate 10 is provided with a reflecting plate 60, so that the light generated from the light emitting diode 20 is reflected through the reflecting plate 60, so as to have a higher illuminance have. Referring to the drawings, the reflecting plate 60 is formed in a funnel shape so that the light generated from the light emitting diodes 20 is irradiated to a specific region. In addition, it is preferable that a plate-shaped lens (not shown) is provided below the lamp structure 1 provided with the reflecting plate 60 to form a uniform illuminance.

On the other hand, the fixing bracket 40 is laminated to the heat sink 30 is made of a ceramic PE material of flame retardant and insulating material, in this embodiment by adopting a key socket as the connection connector 42, lamp shade ( It is fixed by fastening to the socket portion, which is the main connector 110 provided in the 100, so that the application of the current is made.

In addition, the vent 41 formed in the fixing bracket 40 includes an inlet portion 41a which is a path through which heat radiated from the heat sink 30 is introduced; A step 41c is formed between the discharge part 41b which is a path of the external discharge of heat introduced through the inlet part 41a, and the step formed between the discharge part 41b and the inlet part 41a ( 41c) is configured to block unauthorized flow of rainwater.

When the step 41c is formed between the inlet portion 41a and the discharge portion 41b forming the air vent 41 as described above, the heat radiated from the heat sink 30 is smoothly discharged to the outside through the air vent 41. However, the rain water W and the like are blocked by the step 41c formed in the vent 41.

Therefore, the lamp structure 1 according to the present embodiment achieves a smooth heat dissipation effect by the vent 41 formed with the step 41c, and ensures improved electrical safety, in particular through the vent 41 The natural convection circulation structure is formed in the lamp structure 1, and smooth heat dissipation can be attained.

When the heat dissipation is rapidly generated in the lamp structure 1 as described above, the phenomenon that the illuminance of the light emitting diode 20 is rapidly lowered and the life is rapidly shortened due to the increase in the resistance value due to the unauthorized heating of the light emitting diode 20 is prevented. Can be.

Figure 4 shows the overall configuration of the constant current supply unit provided in the lamp structure having improved efficiency proposed as a preferred embodiment of the present invention.

In the present embodiment, the constant current supply unit 70 is provided between the connection connector 42 and the current supply wiring 11.

As shown in FIG. 4, the constant current supply unit 70 includes a transformer 71 for converting a high voltage current flowing through the connection connector 42 into a low voltage current; An AC-DC converter 72 that converts the alternating current transformed by the transformer 71 into a direct current; And a reactor 73 by filtering the current converted into DC through the AC-DC converter 72.

According to the present embodiment, the high voltage current introduced through the connecting connector 42 is reduced to a current of 12 V through the transformer 71, and in this state is converted into a DC current by the AC-DC converter 72. Then, after filtering through the reactor 73, a constant current is supplied to each of the light emitting diodes 20 through the wiring 11 disposed on the insulating substrate 10.

When the constant current is supplied to the light emitting diode 20 through this process, the problem of shortening the lifespan of the light emitting diode 20 by the inflow of the pulse can be solved, so that the stable illuminance and the life of the light emitting diode 20 can be ensured. have.

1 is a view showing an assembly state of a lamp shade provided with a lamp structure and a main connector having improved efficiency proposed as a preferred embodiment of the present invention,

Figure 2 shows a cross-sectional configuration of the lamp structure with improved efficiency proposed as a preferred embodiment in the present invention,

FIG. 3 is a partially enlarged view showing an enlarged portion 'A' in FIG. 2;

Figure 4 shows the overall configuration of the constant current supply unit provided in the lamp structure having improved efficiency proposed as a preferred embodiment of the present invention.

**** Explanation of symbols for the main parts of the drawing ****

1. Lamp structure with improved efficiency

10. Insulation Board 11. Current Supply Wiring

20. Light Emitting Diode (LED)

30. Heat Sink

40. Retention Bracket 41. Vent

41a. Inlet 41b. Discharge

41c. Step 42.Connector

50. Carbon Pad 60. Reflector

70. Constant Current Supply 71. Transformer

72.AC-DC Converter 73. Reactor

100. Lampshade 110. Main Connector

Claims (4)

An insulating substrate 10 on which current supply wiring 11 is disposed; It is installed in close contact with the insulating substrate 10, is connected to the current supply wiring 11 formed on the insulating substrate 10 through the lead terminal 23, and emits light through the current provided from the current supply wiring 11 A light emitting diode (LED) 20; A heat dissipation plate 30 disposed on the upper surface 10a of the insulating substrate 10 on which the light emitting diodes 20 are disposed and dissipating heat generated by the light emitting diodes 20 to an upper portion thereof; And a fixing bracket 40 which is disposed to be stacked on top of the heat dissipation plate 30, and has a plurality of vents 41 formed in a body and a connection connector 42 which is coupled to the main connector 110. Composed, Heat generated during the light emitting process of the light emitting diode 20 is configured to conduct and dissipate through the heat sink 30 and to quickly radiate heat through the vent 41 of the fixing bracket 40, so that the light emitting diode 20 is overheated. It is configured to prevent the phenomenon of low illuminance and shortened life, The vent 41 includes an inlet portion 41a which is a path through which heat radiated from the heat sink 30 is introduced; A step 41c is formed between the discharge part 41b which is a path of the external discharge of heat introduced through the inlet part 41a, and the step formed between the discharge part 41b and the inlet part 41a ( The lamp structure (1) having improved efficiency, characterized in that the unauthorized flow of rain water and the like by 41c). According to claim 1, Reflecting plate 60 is provided on the lower surface (10b) of the insulating substrate 10, the heat sink 30 is laminated on the upper surface (10a) so that the light efficiency of the light emitting diode 20 is improved An improved lamp structure (1) characterized in that the configuration. delete 2. A transformer according to claim 1, further comprising: a transformer (71) for converting a high voltage current into a low voltage current between the connection connector (42) and the current supply wiring (11); An AC-DC converter 72 that converts the alternating current transformed by the transformer 71 into a direct current; And a constant current supply unit 70 including a reactor 73 by filtering a current converted into DC through the AC-DC converter 72, so that a constant current is supplied to the light emitting diode 20. Lamp structure 1 with improved efficiency.

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