KR100898062B1 - Led lighter having air channel - Google Patents

Abstract

The present invention corresponds to the contact heating surface of the lamp case in which the natural air introduced from the air inlet formed in the lower part of the lamp post passes through the ventilation channel of the lamp post and then passes through the ventilation channel of the lamp fixture to contact the PCB substrate. The present invention relates to an LED lamp having an air-cooled heat-dissipating ventilation channel formed in an air-cooled heat dissipation channel that is transferred to an external ventilating surface corresponding to an external position and air-cooled heat generated from a PCB substrate.

Air-cooled heat radiation, ventilation channels, lighting

Description

LED lighting lamp with air-cooled heat-dissipating ventilation channel {LED LIGHTER HAVING AIR CHANNEL}

The present invention relates to an LED lamp having an air-cooled heat-dissipating vent channel, and more particularly, natural air introduced from an air inlet formed at a lower part of a lamp post passes through the ventilation channel of the lamp post and then passes through the ventilation channel of the lamp fixture. Regarding the LED lamp having an air-cooled heat-dissipating vent channel that is capable of air-cooling heat generated by the PCB board while being transmitted to an external ventilation surface corresponding to an external position corresponding to the contact heat-generating surface of the case where the PCB board is in contact with the lamp. will be.

In general, the street lamp is installed on the road, such as people and vehicles pass through the light to facilitate the walk and the traffic of the vehicle at night. Lighting lamps such as halogen or mercury lamps are used for street lamps. These lamps have a short lifespan and have to be replaced periodically, requiring considerable cost and effort for maintenance and repair. Therefore, in recent years, high power LED lamps that use less power and have better lighting performance have been used. High-power LED lamps have a long service life and have superior brightness than general halogen or mercury lamps, and have the advantage of saving energy by remarkably reducing the power used.

However, high-power LED lamps such as LED lamps generate high heat when used, and high heat affects not only high-power LED lamps but also peripheral components, causing problems or shortening the lifespan. Therefore, the lamp is provided with a separate cooling device for cooling the high heat generated from the high output LED lamp. Although many light emitting diode lighting apparatuses having various cooling means have been known, they generally have problems such as complicated structure, expensive price and frequent failure, and solve various problems. Is known.

Conventional LED lamp cooling device is provided with a plurality of heat sinks to cool the high heat generated in the high output LED lamp on the back of the LED fixed circuit board. The heat sink has a configuration in which a plurality of heat dissipation fins are integrally formed on a base formed in a plate shape to cool the high power LED lamp by absorbing and dissipating high heat generated from the high power LED lamp by a heat sink. However, the cooling by the heat sink is simply because heat is transferred from the high power LED lamp to the heat sink by the heat transfer performance of the heat sink material, and the heat absorbed by the heat sink is radiated by heat exchange with air contacting a plurality of heat sink fins. The heat exchange between the heatsink and the heatsink is very low, so the LED lamp cannot be cooled down quickly.Therefore, the LED lamp is overheated.To increase the cooling efficiency, the number of heat sinks must be increased and the number of heat sink fins must be increased. Space is limited and it is difficult to further increase cooling performance. Therefore, it is not possible to sufficiently cool the high heat of the high power LED lamp, so that the problem of causing the high power LED lamp and the peripheral parts to fail and shorten the life due to overheating cannot be completely solved.

In addition, the lighting fixture using the light emitting diode has the characteristics of high energy efficiency, long life and does not emit pollutants, compared to other light emitting fixtures (fluorescent lamp, mercury lamp, etc.), but it has a disadvantage that the price is rather expensive. In luminaires using light emitting diodes (LEDs), when the rated current flows through the light emitting diodes, the temperature is usually maintained at about 60 ° C. However, when more than the rated current flows, the light emitting diodes are damaged due to high temperatures. Occurs frequently. The light emitting diode has a characteristic of constant voltage at both ends of the light emitting diode when the current flows, but the voltage increases very minutely as the current increases, and when the current increases above a certain limit, the overheating temperature increases rapidly. Due to this, there was a problem that the light emitting diodes were broken.

The present invention has been made to solve the above problems as the natural air introduced from the air inlet formed in the lower part of the lamp post passes through the vent channel of the lamp holder and then through the ventilation channel of the lamp fixture to contact the PCB board As it is transferred to the external ventilation surface corresponding to the external heating surface corresponding to the heat generating surface of the lamp case, the heat generated from the PCB board can be radiated by air cooling, so the structure is simple and the area and weight are reduced compared to the conventional LED lamp cooling device. In addition, the air-cooled cooling function by the natural air circulation is excellent, which is very economical and practical to extend the life of the lighting fixtures. High heat generated by light emitting diode of lighting device It is an object of the present invention to provide a lamp that can increase the use time of the luminaire by increasing the cooling efficiency and reducing the occurrence of failure as the cooling device of the present invention is reduced. The present invention is excellent in heat exchange performance, heat exchange with high-power LED lamp is made quickly and efficiently, and by making a quick and efficient heat dissipation can increase the cooling efficiency and performance of high-power LED lamp, high power LED by overheating It is an object of the present invention to provide a cooling device such as a high power LED lamp that can prevent the failure of the lamp and the peripheral parts and shorten the life.

The present invention is a PCB substrate 10 is embedded in the interior of the lamp case 20 so that the LED 12 can be mounted; Lamp case 20 formed to have an internal space on which the PCB substrate 10 is seated; And natural air introduced from the air inlet 110 formed at the lower portion of the lighting lamp column 100 passes through the ventilation channel 120 of the lighting lamp column 100, and then opens the ventilation channel 220 of the lighting fixture 200. The heat generated from the PCB substrate 10 is air-cooled while being transmitted to the external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 through which the PCB substrate 10 is contacted. It consists of an air-cooled heat-dissipation vent channel 30 formed in the case 20 corresponding to the external position corresponding to the contact heat generating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact so that the heat can be radiated The present invention relates to an LED lamp having an air-cooled heat dissipation ventilation channel.

Compared with the conventional LED lamp cooling device, the LED lamp of the present invention has a simple structure, reduced area and weight, and excellent air-cooled cooling by natural air circulation, thereby extending the life of the lighting fixture. When the light emitting diode lighting device using the LED lamp cooling device of the present invention is effective as a street light, a security lamp, or a tunnel, the cooling efficiency of the light emitting diode of the lighting device is reduced by the cooling device of the present invention. This rises and the occurrence of failure is reduced, there is an effect that can increase the use time of the luminaire.

The present invention is a lamp case 20 so that the LED 12 in the LED lamp coupled to the lamp holder 100 of the luminaire 400 consisting of a lamp holder 100 and the lamp fixture 200 can be mounted. PCB board 10 is built in the interior of the; A lamp case 20 formed to have an inner space in which the PCB board 10 is seated; And natural air introduced from the air inlet 110 formed at the lower portion of the lighting lamp column 100 passes through the ventilation channel 120 of the lighting lamp column 100, and then opens the ventilation channel 220 of the lighting fixture 200. The heat generated from the PCB substrate 10 is air-cooled while being transmitted to the external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 through which the PCB substrate 10 is contacted. It consists of an air-cooled heat-dissipation vent channel 30 formed in the case 20 corresponding to the external position corresponding to the contact heat generating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact so that the heat can be radiated It relates to an LED lamp having an air-cooled heat-dissipating ventilation channel formed therein.

In the LED lamp of the present invention, the lamp case has an air-cooled heat-dissipating ventilation channel 30 formed at a central portion thereof, and an external position corresponding to the contact heat generating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact. The lower heat collecting conductive plate 330 is formed at the lower portion of the air-cooled heat-dissipating ventilation channel 30 so that the heat of the external vent surface 32 corresponding to the air vent can be easily transferred, and the PCB case 10 is in contact with the lamp case. Side vent channels 40 and 40 'are formed on both sides of the air-cooled heat-dissipating vent channel 30 so that the heat generated by the contact heating surface 22 of the 20 can be easily cooled. A case top plate 310 in which fitting grooves 312 and 312 'are formed; The external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact is formed, and the fitting protrusions 322 and 322 'are formed on both sides thereof. Case lower plate 320 is formed; Front and rear support members 350 and 350 ′ supporting front and rear sides in a state in which the case upper plate 310 and the case lower plate 320 are coupled; Side supports 360 and 360 ′ supporting both sides in a state in which the upper case 310 and the lower case 320 are coupled to each other; The case upper plate 310 and the case lower plate 320 is characterized in that it consists of side support plates (340, 340 ') for supporting both sides in a coupled state.

In the LED lamp of the present invention, the lamp case is a natural air flows from the air inlet 110 of the lamp holder 100 after passing through the ventilation channel 120 of the lamp holder 100, the ventilation channel of the lamp 200 Passed through the 220 is generated in the PCB substrate 10 while being transmitted to the external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 that the PCB substrate 10 is in contact with The air inlet 110 and the ventilation channel 120 are formed in the lamp holder 100 so as to radiate heat by air-cooling, and the ventilation channel 220 in the lamp 200 that is coupled to the lamp holder 100. It is characterized in that the whole or part of the air-cooled heat-dissipating ventilation channel 30 is coupled to the luminaire having the bolt 500. In addition, in the LED lamp of the present invention, the lamp case is characterized in that the rain water inflow prevention cover 50 is mounted to the outlet of the air-cooled heat-dissipating ventilation channel (30).

The present invention provides a light emitting unit for emitting light with a light emitting diode (LED) 12, a power supply unit for supplying power to the LED, an air-cooled heat-dissipating ventilation channel 30 for cooling the heat of the light emitting unit, and a lamp case 20 incorporating the devices. The lighting fixture 400 is configured as.

The LED lamp of the present invention is an LED lamp coupled to the lamp holder 100 of the luminaire 400 consisting of the lamp holder 100 and the lamp fixture 200. The LED lamp of the present invention is a PCB substrate 10 is built in the interior of the lamp case 20 so that the LED 12 can be mounted inside the lamp case 20 like the general LED lamp,

A plurality of LEDs 12 are mounted on the PCB board 10.

In the LED lamp of the present invention, the lamp case 20 is formed to have an internal space in which the PCB substrate 10 is seated. In the LED lamp of the present invention, an air-cooled heat-dissipating vent channel 30 is formed at a part of a case 20 corresponding to an external position corresponding to the contact heating surface 22 of the lamp case 20 to which the PCB substrate 10 is contacted. After the natural air introduced from the air inlet 110 formed in the lower portion of the lighting lamp column 100 passes through the ventilation channel 120 of the lighting lamp column 100, the ventilation channel 220 of the lighting fixture 200 The heat generated by the PCB substrate 10 through the heat will be able to radiate by air cooling. In the LED light of the present invention, the air inlet 110 is preferably the rain cover for preventing rain inlet 140 is installed, the rain cover for preventing the rain inlet 140 is formed with a prevention protrusion 142 that the rain water is introduced. Natural air is preferably introduced through the air inlet 144 in a prevented state. LED lamp of the present invention is the air inlet 110 is formed in the lower portion of the lamp lamp holder 100 when the ballast 130 is built in the ballast 130 is built in the ventilation channel 120 of the lamp holder 100 The natural air introduced from the through the ventilation channel 120 of the lighting lamp holder 100 is changed to an updraft and then through the ventilation channel 220 of the lighting fixture 200, the outlet of the air-cooled heat-dissipating ventilation channel 30 The natural circulation of natural air flows from bottom to top, regardless of season, day or night.

In the LED lamp of the present invention, the air-cooled heat-dissipating ventilation channel 30 is transmitted to an external ventilation surface 32 corresponding to an external position corresponding to the contact heating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact. While being formed to be able to dissipate heat generated by the PCB substrate 10 by air cooling.

In the LED lamp of the present invention, the lamp case is provided with an air inlet 110 and a ventilation channel 120 in the lamp holder 100, and a ventilation channel in the lamp fixture 200 coupled to the lamp holder 100. All or a part of the air-cooled heat-dissipating ventilation channel 30 is coupled to the luminaire having the 220 formed by the bolt 500. The LED lamp of the present invention after the natural air introduced from the air inlet 110 of the lamp holder 100 passes through the ventilation channel 120 of the lamp holder 100 after the ventilation channel 220 of the lighting fixture 200 The heat generated from the PCB substrate 10 is air-cooled while being transmitted to the external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 through which the PCB substrate 10 is contacted. It can dissipate heat.

In the LED lamp of the present invention, a preferred lamp case has an air-cooled heat-dissipating ventilation channel 30 formed at a central portion thereof, and the outside corresponding to the contact heat-generating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact. The lower heat collecting conductive plate 330 is formed at the lower portion of the air-cooled heat-dissipating ventilation channel 30 so that the heat of the external ventilation surface 32 corresponding to the position is easily formed, and the PCB substrate 10 is in contact with the lamp. Side vent channels 40 and 40 'are formed on both sides of the air-cooled heat-dissipating vent channel 30 so that the heat generated by the contact heating surface 22 of the case 20 can be easily cooled. A case upper plate 310 having fitting grooves 312 and 312 'formed at both sides thereof; The external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact is formed, and the fitting protrusions 322 and 322 'are formed on both sides thereof. Case lower plate 320 is formed; Front and rear support members 350 and 350 ′ supporting front and rear sides in a state in which the case upper plate 310 and the case lower plate 320 are coupled; Side supports 360 and 360 ′ supporting both sides in a state in which the upper case 310 and the lower case 320 are coupled to each other; The case upper plate 310 and the case lower plate 320 is composed of side support plates 340 and 340 ′ supporting both sides in a coupled state. In addition, in the LED lamp of the present invention, it is preferable that the lamp case is equipped with a rainwater inflow prevention cover 50 at the outlet of the air-cooled heat-dissipating ventilation channel 30.

Compared with the conventional LED lamp cooling device, the LED lamp of the present invention has a simple structure, reduced area and weight, and excellent air-cooled cooling by natural air circulation, thereby extending the life of the lighting fixture. It works. When the light emitting diode lighting device using the LED lamp cooling device of the present invention is used as a street light, a security lamp, or a tunnel, the cooling efficiency is increased by lowering the high heat generated from the light emitting diode of the lighting device by the cooling device of the present invention. By reducing the occurrence of failures there is an effect that can increase the use time of the luminaire.

1 is a perspective view showing a light fixture equipped with an LED lamp of the present invention

Figure 2 is a perspective view showing the circulation of natural air in the luminaire equipped with the LED lamp of the present invention

Figure 3 is an exploded perspective view of the LED lamp of the present invention

Figure 4 is an exploded perspective view of the LED lamp of the present invention

Figure 5 is an exploded cross-sectional view of the LED lamp of the present invention

Figure 6 is an exploded cross-sectional view showing a state in which the LED lamp case of the present invention is coupled to the light fixture.

Figure 7 is a perspective view of a luminaire showing a state in which the LED luminaire case of the present invention is coupled to the luminaire

※ Explanation of code for main part of drawing

10: PCB 12: LED

20: light case 22: contact heating surface

30: heat dissipation ventilation channel 32: external ventilation surface

40, 40 ': Side vent channel 50: Cover for rainwater inflow

100: light lamp holder 110: air inlet

120: ventilation channel 130: ballast

140: lower cover for preventing water inflow 142: preventing protrusion

144: air inlet 200: lighting fixtures

220: aeration channel 300: LED light

310: case top 312, 312 ': fitting groove

320: lower case 322, 322 ': fitting projection

330: lower heat collecting plate 340, 340 ': both side support plate

350, 350 ': Front and rear brace 360, 360': Double side support

400: light fixture 500: bolt

Claims (3)

In the LED lighting lamp coupled to the lamp holder 100 of the lighting fixture 400 consisting of a lamp holder 100 and the lamp fixture 200, the LED lamp is a lamp case so that the LED 12 can be mounted ( A PCB substrate 10 embedded in the inside of the 20; Lamp case 20 formed to have an internal space in which the PCB substrate 10 is seated; Air inlet 110 formed in the lower portion of the lamp column 100; Illumination lamp formed in the lighting lamp column 100 so that the natural air introduced from the air inlet 110 formed at the lower portion of the lighting lamp column 100 can pass from the air inlet 110 to the air-cooled heat-dissipating vent channel 30. Aeration channel 120 of the strut 100; The natural air introduced from the air inlet 110 passes through the ventilation channel 120 of the lighting lamp column 100, passes through the ventilation channel 220 of the lighting fixture 200, and then exits from the inlet of the air-cooled heat-dissipating ventilation channel. Passed through the discharged to the outside while being transmitted to the external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20, the PCB substrate 10 is in contact with the PCB substrate 10 An air-cooled heat-dissipating ventilation channel in the center portion of the case 20 corresponding to an external position corresponding to the contact heat-generating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact with each other so as to radiate heat generated by air cooling. 30 is formed, so that the heat of the external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact so that the heat can be easily transmitted. Lower heat collecting conductive plate 330 at the lower part of the air-cooled heat-dissipating ventilation channel 30 Is formed, the side vents on both sides of the air-cooled heat radiation vent channel 30 so that the generated heat generated in the contact heating surface 22 of the lamp case 20 in contact with the PCB substrate 10 can be easily cooled A channel upper plate 310 having channels 40 and 40 'formed therein and having fitting grooves 312 and 312' formed at both sides of the plate; The external ventilation surface 32 corresponding to the external position corresponding to the contact heating surface 22 of the lamp case 20 to which the PCB substrate 10 is in contact is formed, and the fitting protrusions 322 and 322 'are formed on both sides thereof. Case lower plate 320 is formed; Front and rear support members 350 and 350 ′ supporting front and rear sides in a state in which the case upper plate 310 and the case lower plate 320 are coupled; Side supports 360 and 360 ′ supporting both sides in a state in which the upper case 310 and the lower case 320 are coupled to each other; Side support plates 340 and 340 ′ supporting both sides in a state in which the case upper plate 310 and the case lower plate 320 are coupled; And an air-cooled heat-dissipating ventilation channel formed with an air-cooled heat-dissipating ventilation channel (50) mounted to an outlet of the air-cooled heat-dissipating ventilation channel (30). delete delete

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