KR101206648B1 - Reflective light system - Google Patents

Abstract

The present invention provides an illumination heat dissipation device. The apparatus includes a sheet, a light emitting diode illuminating device, and a plurality of heat dissipation fins, wherein the plurality of light emitting elements are provided on both sides of the sheet adjacent to each other, and the plurality of heat dissipation fins is disposed below the sheet. .

Description

Reflective Lighting System {REFLECTIVE LIGHT SYSTEM}

The present invention provides an illumination heat dissipation device including a seat, a light emitting diode illumination device, and a plurality of heat dissipation fins, wherein the plurality of light emitting elements are provided on both sides of the sheet adjacent to each other. The heat radiation fins are provided at the bottom of the sheet.

Recently, fluorescent tube lighting consumes a large amount of power and requires high voltage start-up operation, and mercury in fluorescent tubes continues to be criticized by environmental protectors for pollution to the global environment. Therefore, it is increasingly the trend of the lighting industry to use a light-emitting diode (LED) having high light source directivity as a light source of a lighting fixture. In addition to the environmental protection agenda, reducing the production of thermal energy is also a very important problem, and thermal energy generated from lighting equipment often consumes the cooler's temperature-lowering efficiency. It is also an important theme for coal conservation.

Conventionally, when using LED point light source to make light emission, there are two types of illumination light emission structures which are often seen. 1 is a schematic diagram of a direct-type LED light source illumination structure 2, in which the light emitting diode 6 is diffused by a diffusion sheet 8 placed directly in front of the illumination structure, and the light is directly scattered. The purpose is to make the light source of the LED uniform and to eliminate the imbalance and glare of the light beam caused by the point light source. The effect is limited in this design, and the effective diffusion of light requires a relatively long distance (about 75 mm or more).

2 is a schematic view of a side incident type LED light source illumination structure 10, in which the light emitting diode light bar 14 is placed on both the left and right sides of the luminaire structure (or is incident from all directions from top, bottom, left and right), and the light guide plate 16 is disposed in the middle portion. ), An optical dot is applied to the reflective surface of the light guide plate 16, and the light emitting surface must be made uniform. However, the light emission efficiency is lowered by this method. In order to increase the luminous energy, the highest power is required, relatively higher thermal energy is generated, more cooler efficiency is consumed, and in other forms, increasing the formation of the greenhouse effect.
3 shows an embodiment of a direct type LED light source illumination and a side incident type LED light source illumination, showing a light fixture 18 having a plurality of light sources and a light fixture 19 having a symmetrical light source.

As is well understood from the above, the conventional method described above has many drawbacks, hard to say good design, and improvement has been required.

The present invention is a reflective lighting system, which can be installed in a lighting fixture, especially a ceiling plate, can be operated in a light radiating device that performs lighting by a light emitting diode, and solves a problem that heat energy generated by a light emitting element is difficult to radiate. Heat dissipation by heat dissipation fins, increase the lifespan of the light emitting element, and by means of the side gaps formed in the sheet, use the air activity of the outer world, and form an air flow entering and exiting the gaps of the side sides; It swirled out from the bottom of the bottom seat and flows out and disappears with the heat energy on the heat radiation fin.

SUMMARY OF THE INVENTION An object of the present invention is to provide a reflective lighting system which can be operated in an illumination heat dissipation device of a lighting facility installed on a ceiling plate and which can increase the heat dissipation effect by other molding structures and added heat dissipation fins.

In order to achieve the above object of the present invention, the present invention provides an illumination heat dissipation device including a sheet, a light emitting diode illumination device, and a plurality of heat dissipation fins, and the plurality of light emitting elements are provided on both sides of the sheet adjacent to each other. The plurality of heat dissipation fins are provided below the sheet.

The light emitting diode lighting apparatus includes at least one light emitting diode light bar, a lamp base for disposing a light emitting diode light bar, and at least one reflective cover mounted at a position of a relative angle of the lamp base. A plating film may be applied to the inner surface of the reflective cover, and the lamp base may be replaced with a sheet.

The heat dissipation method for performing the heat dissipation includes mounting a light emitting element on a sheet first, and mounting a plurality of heat dissipation fins on the other side of the sheet, and starting the light emitting element, including the following steps. It heats by the heat radiation fin of the upper phase.

The reflective lighting system according to the present invention has the following advantages over other conventional techniques.

First, the present invention can be installed depending on the application place by other molding. Second, extra heat radiation can be performed by the heat radiation fins. Third, it is possible to reduce power consumption and increase the service life of the lighting fixture.

1 is a structural schematic diagram of a direct type LED light source light.
2 is a structural schematic diagram of a side incident LED light source illumination.
3 is an embodiment of a direct type LED light source illumination and side incident type LED light source illumination.
4 is a construction of an apparatus according to the invention.
5 is an installation diagram according to the present invention.
6 is a working view according to the present invention.
7 is a method flow chart of the present invention.
8 is a method schematic diagram of the present invention.
9 is an embodiment of a reflective lighting system according to the present invention.
10 is a schematic side view of an embodiment of a reflective lighting system according to the present invention.
11 is a schematic view of an embodiment of a reflective lighting system according to the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail according to drawing.

4 is a system construction diagram of the present invention. As shown in the figure, this reflective illumination system includes three types of construction sheets. The sheet includes a triangular lower sheet 42, a ladder-shaped lower sheet 44 and a lower sheet 45, and the LED lighting device 41 is installed on both sides of the triangular lower sheet 42 adjacent to each other. Thereby providing a lighting effect. The heat dissipation fin 43 is installed below the triangular lower sheet 42 to increase the heat dissipation effect. The LED lighting device 41 is provided on both sides of the ladder-type lower sheet 44 to provide a lighting effect. The heat dissipation fin 43 is installed below the ladder bottom sheet 44 to perform heat dissipation of the entire ladder bottom sheet 44. The lower sheet 45 forms a funnel shape by a relationship between two triangle vertices, and installs a light emitting diode lighting device 41 on both sides of the lower triangle to provide a lighting effect, and provides a lower sheet. The heat dissipation fin 43 is installed below the 45 to perform heat dissipation of the entire lower sheet 45.

5 is a system installation diagram of the present invention. As shown in FIG. 5, it is a state in which three types of different types of lower sheets are installed in the same tank, and when this is explained, the light rays of the light emitting diode illuminating device 41 of the triangular lower sheet 42 are oysters. It is illuminated by the refracted light via the leaf 46. When the illumination proceeds, the heat radiation fins 43 provided below the triangular lower sheet 42 can absorb and radiate heat energy of the triangular lower sheet 42. The light rays of the LED illuminating device 41 of the trapezoidal lower sheet 44 are illuminated by the refracting rays via the refraction plate 46. When illumination progresses, the heat radiation fin 43 provided below the ladder bottom sheet 44 can absorb the heat energy of the ladder bottom sheet 44, and can radiate heat. The light rays of the LED illuminating device 41 of the lower sheet 45 are illuminated by the refraction light via the refraction plate 46. When illumination progresses, the heat radiation fin 43 provided in the lower sheet 45 can absorb the heat energy of the lower sheet 45, and can radiate heat.

6 is a system schematic diagram of the present invention. As shown in FIG. 6, the triangular lower sheet 42 is formed by the aluminum extrusion system, the heat radiation fin 43 formed by the heat conductive metal below is provided, and the one-side light emitting diode illuminating device 41 is carried out. ) Is an elongated light emitting light bar formed by combining a plurality of light emitting diodes, and the ladder-shaped lower sheet 44 is formed by an aluminum extrusion method, and has a heat dissipation fin 43 formed by a conductive metal at the bottom thereof. have. The lower sheet 45 in another Example is formed by the aluminum extrusion system, and the heat radiation fin 43 formed by the heat conductive metal is provided below.

7 is a method flow chart of the present invention. As shown in FIG. 7, the following step is included.

<S71> A light emitting diode illumination device is provided on the sheet, and the light emitting element is brought into contact with the sheet in a bonding manner.

A plurality of heat dissipation fins are provided on the other side of the <S72> sheet, and heat dissipation is performed.

<S73> Electrically activates the LED lighting apparatus.

<S74> Thermal conduction is performed by the heat radiation fins on the sheet.

<S75> By using the air flow of the indoor air conditioner, it enters the gap formed in the sheet, and generates a flow of air vortex flowing out.

<S76> Heat dissipation is performed via the heat dissipation fin by the flow of air vortex.

Since the ray illumination according to the present invention performs irradiation in a refraction manner, the heat energy generated by the light emitting element is conducted more than half to the sheet, and is further radiated by the heat radiation fins, thereby reducing overheating of the light emitting element. , To increase the life of the light emitting device. And the air gap of an external system is utilized by the clearance of the side edge provided in the sheet | seat. For example, the airflow caused by the indoor air conditioner forms a flow of air that enters and exits the gap between the sides, and this air flow may swirl out from the bottom of the lower sheet and flow out of the heat dissipation fins.

8 is a method schematic diagram of the present invention. As shown in FIG. 8, the light ray of the light-emitting diode illuminating device 41 of the triangular lower sheet 42 passes through the refraction plate 46 in a state where three kinds of different lighting radiating devices are installed in the same tank. Illumination is performed by refracting light rays. When the illumination proceeds, the heat dissipation fin 43 provided below the triangular lower sheet 42 absorbs and radiates heat energy of the triangular lower sheet 42 to use an external air flow. In this figure, the cold air caused by the air conditioner in the room is formed by the gap between the sides and shows the air flow 5 flowing out. This air flow 5 swirls out from underneath the bottom sheet and can disappear with the heat energy of the heat radiation fins. Light rays of the LED lighting device 41 of the ladder-shaped lower sheet 44 pass through the refraction plate 46 to refract the light rays to perform illumination. When illumination progresses, the heat radiation fin 43 provided below the ladder bottom sheet 44 absorbs and radiates heat energy of the ladder bottom sheet 44, and the air which entered the side edge of the ladder bottom sheet 44 was carried out. Is the same as the flow step of the air flow 5. The above steps are as described above and will not be described herein. On the other hand, the light ray of the LED illuminating device 41 of the lower sheet 45 passes through the refraction plate 46, and the light is refracted to perform illumination. When illumination progresses, the heat radiation fin 43 provided below the lower sheet 45 can absorb the heat energy of the lower sheet 45, and can radiate heat. Since the steps are the same as described above, they will not be described here.

9 is an embodiment of a reflective lighting system of the present invention. As shown in FIG. 9, the LED lighting apparatus 90 includes at least a light emitting diode light bar 92 and a lamp base 94 for installing the light emitting diode light bar 92. ) Includes a plurality of heat dissipation fins 98 and a reflection cover 96 provided at a position of a relative angle of the lamp base 94, and the reflection cover 96 is connected to the rod body 90. . The lamp base 94 may be replaced by the sheet of the above-described drawings.

10 is a schematic side view of an embodiment of a reflective lighting system of the present invention. As shown in FIG. 10, the LED lighting apparatus 90 includes at least a light emitting diode light bar 92 and a lamp base 94 for installing the light emitting diode light bar 92. ) Includes a plurality of heat dissipation fins 98 and a reflection cover 96 provided at a position of a relative angle of the lamp base 94, and the reflection cover 96 is connected to the rod body 91 and further reflects. The plating film 962 is performed on the inner surface of the cover 96.

11 is a schematic diagram of an embodiment of a reflective lighting system of the present invention. As shown in FIG. 11, the LED lighting apparatus 90 includes at least a light emitting diode light bar 92 and a lamp base 94 for installing the light emitting diode light bar 92. ) Includes a plurality of heat dissipation fins 98 and a reflection cover 96 provided at a position of a relative angle of the lamp base 94, and the reflection cover 96 is connected to the rod body 91, and further includes reflection. The plating film 962 is performed on the inner surface of the cover 96.

The above detailed description of the invention specifically describes the embodiments which can be executed by the present invention, but the above embodiments do not limit the claims of the present invention, and equivalents are made without departing from the spirit of the present invention. All the implementation or a change shall be included in the claim of this invention.

In summary, the present invention is not only creative in terms of technology, but also can enhance various effects described above in comparison with a conventional article, and satisfies the requirements of the novel and progressive legal statutory patents. I apply according to.

2: direct LED light source lighting structure 4: outer shell
6: light emitting diode light bar 8: diffused light guide plate
10: side incident type LED light source lighting structure 12: outer shell
14 light emitting diode light bar 16 light guide plate
18: lighting fixture having a plurality of light emitting sources
19: lighting fixture having a symmetrical light source
41: light emitting diode lighting device 42: triangle lower sheet
43: heat radiation fin 44: ladder-shaped bottom sheet
45: lower sheet lower sheet 46: refractive plate
47: fixing hole 90: light emitting diode lighting device
91: load body 92: light emitting diode light bar
94: lamp base 96: reflective cover
962 plating plate 98 spinning pin
S71-S76: Step

Claims (3)

delete delete Reflective lighting device,
With sheets,
A light emitting element provided on the sheet;
Is installed below the sheet, and includes a plurality of heat dissipation fins for guiding heat from the light emitting element,
Reflective lighting apparatus, characterized in that the gaps are introduced into the sides of the sheet to introduce an external air flow to generate a flow of air vortex when it flows out.

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