KR200442041Y1 - LED Lighting Lamp - Google Patents

Abstract

The present invention is a metal substrate which is a rectangular plate body in which a plurality of high-brightness LED is arranged at a fixed interval by a circuit on the bottom; A reflection shade panel positioned below the metal substrate and having a plurality of reflection shades having an LED insertion hole into which the high brightness LEDs are inserted, and a protrusion formed in three directions at the tip of the reflection shade to concentrate and increase a light source of the high brightness LED; An LED lens inserted into a plurality of reflection shades of the reflection shade panel and fixed by three-way locking projections at the tip to concentrate and increase a light source of the high brightness LED; An aluminum heat dissipation plate fixed to the inclined surface of the metal substrate, and having a plurality of cooling fins upright on the upper surface to radiate the metal substrate with a flow of air; The reflector panel is fixed to the inside of the lower end of the rectangular parallelepiped, and a cooling fan for cooling the cooling fin at the center of the cooling fin of the heat sink is fixed and installed at the upper and lower sides of the heat sink. A lighting lamp case each having a plurality of ventilation holes to be discharged to each other; The present invention relates to an LED lamp having a case cover installed on an upper surface of the lamp case and stabilizing an external power source to cover and protect a circuit for supplying power to a circuit of the metal substrate.

The present invention uses a metal substrate, an aluminum heat sink, a cooling fan, and a thermoelectric element to radiate heat generated from the LED to the outside more quickly and efficiently, thereby directly cooling the temperature of the LED, thereby extending the life of the LED. have.

Metal Board, Reflective Shade Panel, LED Lens, Heat Sink, Lamp Case, Case Cover

Description

LED Lighting Lamp {LED Lighting Lamp}

The present invention relates to an LED lamp used indoors, and more specifically, by using a metal substrate, an aluminum heat sink, a cooling fan, and a thermoelectric element, heat generated from the LED is quickly and efficiently radiated to the outside to directly heat the temperature of the LED. The present invention relates to an LED lamp that can extend the life of the LED by cooling.

In general, various types of lamps are used to provide light or illuminate an object at night or indoors.

Such lamps are powered by converting electrical energy into light energy to provide light or irradiating an object, and generally use an incandescent lamp or a fluorescent lamp.

However, incandescent light bulbs are being used more inexpensively because they generate more heat than light and can be manufactured at low cost. Fluorescent lamps have been introduced to ameliorate these shortcomings. Although it has the advantage of saving energy because of its large size, it required a new medium due to its long lighting time and its short lifespan.

The light emitting diode (LED) was developed to meet the demand. Although the manufacturing cost is still inexpensive to manufacture, it has a long lifetime of more than 7 years without any repairs for a single company. It is a big favor as a future light.

In particular, the high-intensity LED can be used as a light source for a variety of lights, including headlamps, rear combination lamps, and streetlights of automobiles, and its scope of application is very broad.

Since the high-brightness LED generates very high heat when it is turned on, there are many difficulties in applying and designing it by the exothermic temperature of high heat.

Therefore, in the related art, a cover disposed on a back surface of a substrate on which a plurality of LEDs are attached is formed of a metal material, or a plurality of heat dissipation and atmospheric circulation holes are formed on the cover to dissipate heat generated from the LED by natural heat dissipation. .

However, the heat dissipation structure of the LED light emitting lamp by the natural heat dissipation as described above is limited in the heat dissipation amount, and the heat generated from the LED is higher than the heat dissipation heat, so that the lamp is constantly warmed, product design In addition to the expensive flame retardant, non-flammable material selection, there was an uneconomical problem of using a resin or metal material that does not cause thermal deformation or shrinkage even at high temperatures.

In particular, since LEDs and various electrical connection mechanisms have fragility from high temperatures, they have been a cause of shortening their service life.

The present invention is to solve the above problems, by using a metal substrate, aluminum heat sink, cooling fan and thermoelectric element to heat the heat generated from the LED more quickly and efficiently to the outside to cool the temperature of the LED directly The purpose is to provide an LED lamp that can extend the life more.

In order to achieve the above object, the present invention is a metal substrate of a rectangular plate body is fixed to a plurality of high brightness LEDs arranged at a predetermined interval on the bottom surface;

A reflection shade panel positioned below the metal substrate and having a plurality of reflection shades having an LED insertion hole into which the high brightness LEDs are inserted, and a protrusion formed in three directions at the tip of the reflection shade to concentrate and increase a light source of the high brightness LED;

An LED lens inserted into a plurality of reflection shades of the reflection shade panel and fixed by three-way locking projections at the tip to concentrate and increase a light source of the high brightness LED;

An aluminum heat dissipation plate fixed to the inclined surface of the metal substrate, and having a plurality of cooling fins upright on the upper surface to radiate the metal substrate with a flow of air;

The reflector panel is fixed to the inside of the lower end of the rectangular parallelepiped, and a cooling fan for cooling the cooling fin at the center of the cooling fin of the heat sink is fixed and installed at the upper and lower sides of the heat sink. A lighting lamp case each having a plurality of ventilation holes to be discharged to each other;

It is characterized in that it is provided on the upper surface of the lamp case has a case cover for stabilizing the external power source to cover the protection of the ballast for supplying power to the circuit of the metal substrate.

In addition, the center of the heat sink is formed with an insertion plane portion that exposes the metal substrate, the aluminum plate is in close contact with the metal substrate through the insertion plane portion of the thermoelectric element in a state in which a cooling space is formed at a predetermined distance apart from the metal substrate. An insertion space is formed in which a cooling surface faces the metal substrate and the heating surface faces upward, and an insertion space is formed. The upper surface of the cooling fin has a plurality of cooling fins protruding upward, and the upper surface of the cooling fin has a heat sensing temperature fixed to the metal substrate. The sensor further includes a thermoelectric element heat dissipation plate in which a thermoelectric element cooling fan is operated only when the temperature of the metal substrate is 25 ° C. or higher.

In addition, any one of a chromium plating layer, an aluminum plating layer, a silver plating layer, a white melamine resin layer, a dielectric coating layer, and a dielectric coating layer is formed on the inner side of the reflection shade panel of the reflection shade panel, and the reflection shade inner surface of the reflection shade panel has 16 square faces. There is a characteristic made by dividing.

As such, the present invention uses a metal substrate, an aluminum heat sink, a cooling fan, and a thermoelectric element to radiate heat generated from the LED to the outside more quickly and efficiently to directly cool the temperature of the LED, thereby extending the life of the LED. It works.

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

Hereinafter, the present invention in more detail by the accompanying drawings as follows.

1 is an exploded perspective view showing the fastening of the LED lamp according to the embodiment of the present invention, Figure 2 is a front sectional view of the construction of the LED lamp according to the embodiment of the present invention, Figure 3 is a main part showing the reflection shade of the LED lamp according to the embodiment of the present invention Cutaway perspective view, Figure 4 is an enlarged cross-sectional view showing the main portion of the LED lamp coupled to the reflector of the LED lamp according to the present invention embodiment, Figure 5 is an enlarged bottom view showing the reflection shade of the LED lamp according to the embodiment of the present invention, Figure 6 Is a front sectional view showing the construction of the LED lamp of another embodiment of the present invention, Figure 7 is a front sectional view showing the construction of the LED lamp of another embodiment of the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof is omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator.

Therefore, the definition should be made based on the contents throughout the specification.

LED lamp (1) of the present invention, the metal substrate 10, the high brightness LED 11 is arranged, and the reflection shade panel 20 is formed with a plurality of reflector 21 is inserted into the high brightness LED 11 is increased light source ), An LED lens 30 inserted into and fixed to the reflector 21 of the reflector panel 20, a heat sink 40 cooling the heat of the metal substrate 10 by an air cooling method, and a cooling fan 51. It is composed of a lamp case 50 for cooling the heat of the heat sink 40, and a case cover 60 to protect the ballast (61).

The metal substrate 10 is a rectangular plate body having excellent conductivity such as copper, and a plurality of high brightness LEDs 11 are arranged at a predetermined interval by a circuit at the bottom thereof.

The reflection shade panel 20 is disposed under the metal substrate 10 and a plurality of reflection shades 21 having LED insertion holes 22 into which the high brightness LEDs 11 are inserted are formed. A locking projection 23 is formed in three directions to concentrate and increase the light source of the high brightness LED 11. It is preferable to form any one of a chromium plating layer, an aluminum plating layer, a silver plating layer, a white melamine resin layer, and a dielectric coating layer on the inner side of the reflection shade 21 of the reflection shade panel 20, and the inner side of the reflection shade 21 has 16 squares. It is desirable to cope with the surface 24 to cope with the enhancement of a light source more effectively.

The LED lens 30 is made of synthetic resin or glass, and is inserted into each of the plurality of reflecting shades 21 of the reflecting shade panel 20 and fixed by the three-way catching protrusions 23 at the front end thereof. Focus the light source.

The heat dissipation plate 40 is a plate made of aluminum, closely fixed to the slope of the metal substrate 10, and a plurality of cooling fins 41 are erected upwardly on the upper surface to radiate the metal substrate 10 by the flow of air. Cool.

The lamp case 50 is a rectangular parallelepiped with an open bottom, the reflection shade panel 20 is fixed to the inside of the lower end, the cooling fin 41 in the center of the cooling fin 41 of the heat sink 40 inside the upper surface. The cooling fan 51 for cooling is fixedly installed, and a plurality of ventilation holes 52 and 25a for discharging hot air to the outside are formed on the upper and lower left and right sides of the cooling fin 41 of the heat sink 40.

The case cover 60 is installed on the upper surface of the lamp case 50 to stabilize the external power to protect the ballast 61 and other devices for supplying power to the circuit of the metal substrate 10.

The present invention as described above, by supplying the stabilized current and voltage supplied by the ballast 61 along the circuit of the metal substrate 10 by a controller (not shown), a plurality of LEDs fixed to the metal substrate 10 The lens 30 emits light, and the light emitted by the lens 30 passes through the plurality of reflecting shades 21 of the reflecting shade panel 20 and is emitted to the outside through the LED lens 30 fixed to the reflecting shade 21.

At this time, the heat to the metal substrate 10 is conceived, the heat is discharged to the outside through a plurality of cooling fins 41 through the heat sink 40 in close contact, the lamp case 50 by the cooling fan 51 Heat is released through the plurality of ventilation holes 52 and 52a on the left and right to cool the heat sink 40 outside the lamp case 50.

At this time, as shown in Figure 6, the insertion plane portion 42 is formed in close contact with the metal substrate 10 in the center side of the heat sink 40 directly below the cooling fan 51, and then the insertion plane portion 42 By tightly fixing the thermoelectric element radiating plate 70, the thermoelectric element 71 is fixed to the metal substrate 10 through the cooling space 73 between the cooling surface 72 and the metal substrate 10 of the thermoelectric element 71. When the cooling fan 51 is operated in a state of forming a convection, convection by the temperature difference is actively performed in the cooling space 73, so that the cooling of the metal substrate 10 is made easier and faster. The heat of the heat generating surface 74 of the thermoelectric element 71 is cooled faster by the cooling fin 75, the thermoelectric element cooling fan 70a, and the cooling fan 51 on the upper surface.

At this time, by fixing the heat sensing temperature sensor 70b on one side of the metal substrate 10, the thermoelectric element cooling fan fixed to the upper portion of the thermoelectric element heat sink 70 only when the temperature of the metal substrate 10 rises above 25 ° C. By operating 70a), a smooth air-cooled heat dissipation is achieved by cold external air temperature in winter, and a thermoelectric element cooling fan 70a fixed above the thermoelectric heat sink 70 is operated in a hot summer season having difficulty in air-cooled heat dissipation. By doing so, a desired degree of cooling effect can be obtained.

In addition, the inner surface of the reflector 21 divided into sixteen square surfaces 24 concentrates the light source to optimize the reflectance of the light source, thereby further increasing the illuminance.

When the light is generated from the light emitting body (general lamp) using the reflector 21 divided into 16 square planes 24, the following result is compared with the reflector of the conventional lamp (400W / R). Could get

Classification item General lighting with general reflector (400W / R) Illumination lamp with reflection cap (400W / R) Full luminous flux (lm) 3400 37470 Power Consumption (W) 425 425 Measurement reflection efficiency (%) 73.6 88 Result of ratio direct illuminance (lx) 2 m 10107 20474 4m 2527 5119 6m 1123 2275 8m 632 1280 10 m 404 819 12m 280 569 Efficiency (12m standard) (lx / W) 0.7 1.42 Ratio (對 existing lighting, etc.) One 2.03

In addition, at 1M height, the light source of one general LED lamp, the LED lamp with only the lens of the present invention, and the light source of the LED lamp with the lens and the reflector of the present invention under the conditions of 3W were tested. It was obtained (lens angle 45 °).

Height / Division General LED Lamp LED lamp with lens only This design (lens + reflection shade LED lamp) 1M 130 LUX 800 LUX 1,200 LUX

In addition, the LED lamp with only the lens of the present invention and 36 LED lamps with the lens and the reflecting lamp of the present invention were compared and tested at 1 to 4M with a lens angle of 45 ° to obtain the following results. there was.

division LED lens with lens only This design (lens + reflection shade LED lamp)  Height 1M 6,560 LUX 10,000 LUX 2M 1,810 LUX 3,000 LUX 3M 820 LUX 1,350 LUX 4M 450 LUX 650 LUX

1 is an exploded perspective view showing a fastening of the LED lamp according to the embodiment of the present invention,

Figure 2 is a front cross-sectional view of the construction of the LED lamp according to the embodiment of the present invention,

Figure 3 is a perspective view of the main portion showing the reflection shade of the LED lamp according to the embodiment of the present invention,

Figure 4 is an enlarged cross-sectional view showing the main portion of the LED lens coupled to the reflector of the LED lamp according to the embodiment of the present invention,

Figure 5 is an enlarged bottom view showing a reflection shade of the LED lamp according to the embodiment of the present invention,

Figure 6 is a front sectional view showing the construction of the LED lamp according to another embodiment of the present invention,

Figure 7 is a front sectional view showing the construction of the LED lamp according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

1: LED lighting

10: metal substrate 11: high brightness LED

20: reflection shade panel 21: reflection shade

22: LED insertion hole 23: the locking projection

24: square plane

30: LED lens

40: heat sink 41: cooling fin

42: insertion plane

50: lamp case 51: cooling fan

52,52a: Ventilator

60: case cover 61: ballast

70: thermoelectric element heat sink 70a: thermoelectric element cooling fan

70b: thermal sensor temperature sensor 71: thermoelectric element

72: cooling surface 73: cooling space

74: heating surface 75: cooling fin

Claims (4)

A metal substrate having a rectangular plate body in which a plurality of high brightness LEDs are arranged at a predetermined interval by a circuit on a bottom thereof; A reflection shade panel positioned below the metal substrate and having a plurality of reflection shades having an LED insertion hole into which the high brightness LEDs are inserted, and a protrusion formed in three directions at the tip of the reflection shade to concentrate and increase a light source of the high brightness LED; An LED lens inserted into a plurality of reflection shades of the reflection shade panel and fixed by three-way locking projections at the tip to concentrate and increase a light source of the high brightness LED; An aluminum heat dissipation plate fixed to the inclined surface of the metal substrate, and having a plurality of cooling fins upright on the upper surface to radiate the metal substrate with a flow of air; The reflector panel is fixed to the inside of the lower end of the rectangular parallelepiped, and a cooling fan for cooling the cooling fin at the center of the cooling fin of the heat sink is fixed and installed at the upper and lower sides of the heat sink. A lighting lamp case each having a plurality of ventilation holes to be discharged to each other; And a case cover installed on an upper surface of the lamp case and stabilizing an external power source to cover and protect a circuit of the metal substrate. A metal substrate having a rectangular plate body in which a plurality of high brightness LEDs are arranged at a predetermined interval by a circuit on a bottom thereof; A reflection shade panel positioned below the metal substrate and having a plurality of reflection shades having an LED insertion hole into which the high brightness LEDs are inserted, and a protrusion formed in three directions at the tip of the reflection shade to concentrate and increase a light source of the high brightness LED; An LED lens inserted into a plurality of reflection shades of the reflection shade panel and fixed by three-way locking projections at the tip to concentrate and increase a light source of the high brightness LED; A heat dissipation plate made of an aluminum material, which is fixed to an inclined surface of the metal substrate and has a plurality of cooling fins upright on the top surface to radiate the metal substrate with a flow of air, and an insertion plane portion in which the metal substrate is exposed is formed at the center thereof; When the aluminum plate is in close contact with the metal substrate through the insertion plane portion, the cooling surface of the thermoelectric element faces the metal substrate and the heating surface faces upward while the cooling space is formed at a predetermined distance from the metal substrate. An insertion space is formed, and a plurality of cooling fins are formed on the upper surface, and the upper surface of the cooling fin is operated only when the temperature of the metal substrate is 25 ° C. or higher by a heat sensing temperature sensor fixed to the metal substrate. A thermoelectric element heat sink in which a cooling fan is formed; The reflector panel is fixedly installed on the inner side of the lower end of the rectangular parallelepiped, and a cooling fan for cooling the cooling fin in the center of the cooling fin of the thermoelectric element heat sink is fixedly installed on the inside of the upper surface. Upper and lower lighting lamp cases each having a plurality of ventilation holes for discharging hot air to the outside; And a case cover installed on an upper surface of the lamp case and stabilizing an external power source to cover and protect a circuit of the metal substrate. The method of claim 1 or 2; LED reflector, characterized in that any one of the chromium plating layer, aluminum plating layer and silver plating layer or white melamine resin layer and the dielectric coating layer on the inner side of the reflection shade panel of the reflection shade panel. The method of claim 1 or 2; LED reflector, characterized in that the inner surface of the reflector shade of the reflection shade panel is made by dividing the surface into 16 square surfaces.

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