KR101285102B1 - LED Lighting Apparatus - Google Patents

Abstract

The present invention relates to an LED lighting device having a simple structure and improved in structure to efficiently cool the heat generated from the LED lamp by using the convection phenomenon and the chimney effect.
The structure is a pipe-shaped cooling unit having a housing body in which a PCB substrate and a plurality of LED lamps are built, and a fluid passage communicating with the outside at the lower and upper portions of the housing body, respectively, to become a convection passage of air.
According to the present invention, as the hot air in the cooling unit moves upward in the fluid passage, most of the air is quickly discharged into the atmosphere through the open end of the communicating portion and the side portion, so that the cooling of the LED lamp is performed efficiently. Can have a useful effect because it can significantly reduce the weight of the luminaire, and most LED lighting units have 40% heat at the front and 60% heat at the rear. In this case, the conventional technology only cools the rear side to prevent heat dissipation, whereas the present invention can be said that the front side can also be cooled by dissipating heat through a hole having a hollow pipe and a hollow structure.

Description

{LED Lighting Apparatus}

The present invention relates to an LED lighting device, and in particular, it is possible to quickly cool the heat generated from the LED lamp by using the convection of the air, and to quickly and effectively dissipate heat inside the housing by the chimney effect. The LED lighting apparatus is improved in structure.

In general, LED (Light Emitting Diode: LED) is used for a relatively high illuminant emitter, backlight, lighting (street light, security light), especially in recent years, low power consumption high output LED has been developed.

Such LEDs have a number of advantages such as high lifespan, low power consumption, eco-friendliness, and compact volume, while high heat is generated, and at this time, the thermal problem cannot be solved.

As an example, when ten energy is input, 10% of the incandescent light bulb is expressed as light energy, and 90% is expressed as heat energy. However, LED lighting devices are 30-40% expressed as light energy and 70-60% expressed as heat energy. LED lighting, which consists of semiconductor chips, is more efficient than conventional metals, but heat resistance of existing metals is strong enough to withstand 200 degrees Celsius, but LED lighting is relatively vulnerable to heat because its heat resistance is 60 degrees Celsius or less. As a result, the heat dissipation structure should be well established, but the existing heat dissipation structure is that LED lighting equipment is more than 3 ~ 30 times (surface heat-water-cooled heat dissipation) in terms of weight, price, and efficiency compared to existing metals. At the time when it is not realized, the present invention realizes 70% -100% of the weight and the price of about 2 times the price of metal, etc., so that it is very light and heat dissipation is effective. Realize

Therefore, in the conventional LED lighting apparatus, the heat generated from the LED lamp deteriorates the LED, thereby shortening the life of the LED.

An object of the present invention by using the air convection phenomenon and the chimney effect to quickly discharge the heat emitted from the LED lamp to the atmosphere, the LED lighting is improved in its structure to significantly improve the heat dissipation efficiency while lighter volume and weight To provide a device.

The present invention for achieving the above object is a housing body with a built-in LED lamp and a substrate,

Cooling units are disposed at the lower and upper portions of the housing body, respectively, and have a fluid passage communicating with the outside to become a convection passage of air.
The cooling unit is formed in the form of a hollow pipe formed with a hole in which the end is opened to communicate with the outside so that the outside air is introduced, the inside air is discharged,
The cooling unit has an opening disposed in the lower portion of the housing body to communicate with the outside, and extending from the opening to the upper side communication portion arranged to communicate with the outside on the upper side of the housing body.
The cooling unit further includes side portions formed between the opening portion and the communicating portion to extend in both sides in the lateral direction and arranged to communicate both sides and the outside of the housing body.

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The cooling unit is disposed in plurality in a position spaced apart from each other,

The communication portion is arranged to protrude outwardly to be spaced apart from the upper surface of the housing body.

Heat insulating materials for blocking solar heat are respectively disposed on the communicating portion and the upper side of the housing body.

 The present invention relates to an LED lighting device having a simple structure and improved in structure to efficiently cool the heat generated from the LED lamp by using the convection phenomenon and the chimney effect. As the hot air inside the fluid passage moves upwards, most of it is quickly discharged into the atmosphere through the open end of the communication section and the side section, and thus the LED lamp is prevented from deteriorating as it is efficiently cooled to extend the life. Has a useful effect.

1 is a schematic view showing the configuration of an embodiment of an LED lighting apparatus according to the present invention.
Figure 2 is a state diagram used in one embodiment of the present invention.
Figure 3 is a block diagram showing the configuration of another embodiment of the LED lighting apparatus according to the present invention.

There is a hermetic cooling device that cools using a heat pipe to cool heat generated from a conventional LED, or circulates and cools a liquid such as water into a pipe.

In the case of using the heat pipe of the hermetic cooling device, not only the structure is complicated, but also a high cost is generated, and when the working fluid filled inside the heat pipe is leaked, heat dissipation, which is the original purpose, is not possible. However, there is a risk of explosion and fire because it is flammable.

In the case of the liquid circulation sealed cooling device, a pumping means such as a separate pump for circulating the liquid is required, and a separate power is consumed, which not only violates the original purpose of the low-power LED lighting fixture, Is complicated and the weight and volume increases, and there is a risk of freezing in the winter season, so additional management is required, and thus it is difficult to apply to lighting fixtures installed in high and low power such as street lights.

The present invention has a simple structure and does not require separate maintenance management, and can provide a high efficiency LED lighting device can be obtained in a compact heat dissipation and excellent heat dissipation effect.

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

1 is a view schematically showing the configuration of the LED lighting apparatus of the present invention, Figure 2 is a view showing the inflow and outflow conditions of the outside air and the internal hot air with an arrow.

1 and 2, the LED lighting apparatus according to the present invention, its configuration is a printed circuit board (PCB) substrate 130 (hereinafter, abbreviated as a substrate) and a plurality of LED lamps 150 The cooling unit 200 has a housing body in which is built, and a fluid passage communicating with the outside at the lower and upper portions of the housing body, respectively, to become a convection passage of air.

In more detail, the housing main body 100 is configured in a box shape having an accommodation space formed therein, and has a structure in which a transparent window 160 is disposed at a lower portion thereof so as to transmit light of the LED lamp 150.

The cooling unit 200 is formed in the form of a hollow pipe in which a hole is formed in communication with the outside so that the outside air is introduced and the end is opened so that the inside air is discharged, or a hole having a hollow structure in the housing body 100 without the pipe It may be made of.

In addition, the cooling unit 200 is an opening 210 disposed to communicate with the outside at the lower portion of the housing main body 100, and extends upwardly from the opening 210 so as to communicate with the outside at the upper side of the housing main body 100. The communication unit 220 is arranged.

That is, the cooling unit 200 is formed of a pipe shape having a hollow fluid passage in which an end portion is formed of an opening portion 210 and a communicating portion 220 communicating with the outside to allow inflow of outside air and discharge of hot internal air. will be.

Preferably, a plurality of openings 210 are disposed at positions spaced apart from each other, and the communicating portion 220 is disposed to protrude outward so as to be spaced apart from an upper surface of the housing main body 100.

The opening 210 plays a role of arching so that the inflow of outside air is smooth.

Of course, the hot internal air of the housing body 100 may also be discharged to the outside through the lower opening 210.

The communicating part 220 has a structure formed horizontally so that both ends are directed in both directions of the housing body 100.

In addition, the diameter size of the communication unit 220 is preferably formed to be larger than the diameter size of the opening 210, in order to obtain a chimney effect that the hot internal air of the lower portion is quickly discharged to the upper portion.

In addition, the communicating portion 220 and the upper surface of the housing main body 100, the heat insulating material 300 for blocking solar heat is disposed, respectively.

3 is a view showing another embodiment of the present invention, the configuration of which extends laterally both outwardly between the opening 210 and the communication unit 220 of the cooling unit 200 made of the configuration of the previous embodiment The side portion 230 is formed so as to communicate with both sides and the outside of the housing body 100 is further provided.

Side portion 230 has a structure in which both ends are disposed so as to pass through both side portions of the housing body 100 to communicate with the outside.

The side portion 230 may be disposed so that an end portion protrudes from both sides of the housing body or is aligned in a straight line.

Another embodiment of the present invention, the cooling unit 200 of the present invention shows that it can be modified in other forms while performing the original function using the convection phenomenon and the chimney effect.

In another embodiment of the present invention, the side portion 230 is further added, so that the inflow of outside air and the discharge of hot internal air can be made faster than the above-described embodiment.

Embodiments of the present invention having such a structure have the following functions.

In the LED lighting apparatus according to the present invention, when the LED lamp 150 is turned on, light generated from the LED lamp 150 passes through the transparent window 160 to irradiate light to the lower side of the housing main body 100.

Due to the ON operation of the LED lamp 150, heat is generated from the LED lamp 150, which heats the inside of the housing body 100 after being conducted to the PCB substrate.

Subsequently, heat is conducted into the cooling unit 200 in the form of a pipe.

At this time, the inside of the cooling unit 200, the hot air of low density is moved upwardly to the upper portion of the fluid passage, and the outside air is relatively open to the opening 210 and the communication unit 220 and the side portion 230, each end is opened. ) Flows into the lower layer side in the fluid passage.

As the relatively cool outside air flows into the fluid passage, the ambient temperature of the cooling unit 200 is cooled and the substrate and the LED lamp 150 are cooled.

This is because the opening 210 serves as an arch, and the communication part 220 and the side part 230 perform the function of the chimney, thereby allowing the internal air of the housing main body 100 to be cooled quickly.

In the above-described exemplary embodiment, since the cooling function may be performed using the air convection phenomenon and the chimney effect in a state in which the function of the side portion 230 is excluded, redundant description will be omitted.

In addition, since the heat insulator 300 is disposed on the upper surface of the communication unit 220 and the housing main body 100, it is possible to prevent the temperature rise due to solar heat.

That is, according to the present invention, as the hot air in the cooling unit 200 moves upward in the fluid passage due to convection and the chimney effect, most of the present invention rapidly waits through the open ends of the communication unit 220 and the side portion 230. Since it is discharged to the middle, the internal temperature of the housing body 100 is lowered to prevent degradation of the LED lamp 150 has the advantage of extending the life.

Description of the Related Art [0002]
100: housing body 130: substrate
150: LED lamp 160: transparent window
200: cooling part 210: opening part
220: communication part 230: side part
300: insulation

Claims (7)

A housing main body 100 having an LED lamp and a substrate embedded therein;
Cooling unit 200 having a fluid passage that is in communication with the outside in the lower and upper portions of the housing main body 100 becomes a convection passage of air is disposed,
The cooling unit 200 is formed in the form of a hollow pipe formed with a hole in which the end is opened to communicate with the outside so that the outside air is introduced and the inside air is discharged,
The cooling unit 200 has an opening 210 disposed below the housing main body 100 so as to communicate with the outside, and extends upward from the opening 210 to the outside of the housing main body 100. LED lighting device characterized in that it comprises a communication unit 220 is arranged to communicate. delete delete delete The method according to claim 1,
The cooling unit 200 is formed between the opening portion 210 and the communicating portion 220 so as to extend in both sides in the lateral direction, respectively, and the side surface portion 230 disposed to communicate with both sides and the outside of the housing body 100. LED lighting apparatus characterized in that it further comprises. The method according to claim 1,
The cooling unit 200 is disposed in plurality in a position where the opening 210 is spaced apart from each other,
LED communication device, characterized in that the communication portion 220 is protruded outwardly spaced apart from the upper surface of the housing body (100). The method according to claim 1,
LED communication device, characterized in that the heat insulating material 300 for blocking the solar heat is disposed on the upper side of the communication unit 220 and the housing body 100, respectively.

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