KR20090130967A - Negative phototropism structure device to double efficiency of led lamp - Google Patents

Abstract

PURPOSE: A light distribution structure device for doubling efficiency of an LED lamp is provided to crossly diffuse a proceeding direction of light in vertical direction or diagonal direction, thereby unifying brightness of road surfaces. CONSTITUTION: A radiating plate(3) is slopingly bent inside an LED-mounted security lamp(100). Both ends of the radiating plate are in symmetrical shape. When a lamp(10) emits light, the light is crossly diffused in vertical direction and in inclined right and left directions. More than one lamp is individually arranged on an upper side and right/left sides of the radiating plate. The lamp is inserted inside while a lower part of the lamp is opened. A glove(5) opens/closes the opened lower part to diffuse the emitted light as protecting the lamp.

Description

Negative phototropism structure device to double efficiency of LED lamp}

The present invention relates to an LED lamp, in more detail, the LED lighting lamp installed on the upper portion of the pillar to form a heat sink bent inclined so that both ends of the horizontal upper surface symmetrical in the downward direction.

The heat dissipation is reduced by the LED lamp installed inclined along both sides of the top surface and bent to reduce the loss of light emitted to the outside in the course of the vertical or oblique direction of the light and wider than the target area according to the angle of the heat sink It relates to a light distribution structure that doubles the efficiency of the LED lighting that can be.

In general, outdoor lighting is dark and is used for roads, sidewalks or parks for safety in areas where crime or accidents may occur.

The lamp is installed in a variety of linear props or poles with a decorative decoration, the structure is combined with a glove for sealing the lower part of the open body and the body with the lamp is installed into the interior of the lower opening, and on one side of the body It is made of a structure in which the mounting base is formed to be fastened to the prop or pole.

In addition, the lighting lamp having the above-described structure is used as a light source of the lamp installed inside to illuminate the dark area by using various types such as incandescent lamp, high pressure mercury lamp, fluorescent lamp, sodium lamp, LED.

 However, in the conventional lighting lamp, as shown in FIG. 6, the shape of the heat sink 3 to which the lamp 10 is attached is flat as the upper surface 12 and the left and right side surfaces 13 and 13. Arrange and attach a plurality of lamps 10 to the center and both sides.

Then, the lamp 10 attached to the heat sink 3 has a problem in that light distribution function is deteriorated by narrowly illuminating only the periphery of the props rather than the light propagating in a vertical direction according to the shape of the heat sink 3 and not illuminating a large area.

 In addition, in some cases, when the lamp of the lamp emits light, the direction of light travels in a slight diagonal direction rather than vertically, but it is also installed to illuminate a large area by lighting only in one direction.

As a means for solving the above problems, the present invention allows the LED lamp installed in the lamp to spread in all directions by crossing in a vertical or diagonal direction without proceeding in one direction.

Therefore, the present invention is an outdoor security lamp attached to the LED lamps arranged to have an inclination angle corresponding to each side of the heat sink having a symmetrical shape bent inclined downward in both directions so that the lamp to illuminate a wider area and Provide street lights.

As described above, the illumination of the light distribution structure of the present invention illuminates a wide area by spreading the light propagating direction crosses in a vertical or diagonal direction rather than one direction when the LED lamp emits light, thereby increasing the brightness of the road surface. It can be made uniform, and in the case of security, it is effective to prevent security accidents that can be dark and cause accidents.

In addition, the security light of the present invention can illuminate a wider area, so that the distance between the security light can be installed farther than the existing, which can reduce the installation cost and minimize the loss of light, which is also useful for energy saving.

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

1 is a front view showing the LED security light of the present invention, Figure 2 is a bottom view showing the security light of the present invention, Figure 3 is a perspective view showing a heat sink of the LED security light of the present invention.

The LED security light 100 of the present invention is installed on a road, sidewalk, or a park, and opens and closes a body 1 and a lower part of the open body 1 formed with a space therein through a lower part opened in a predetermined shape. The glove 5 and one side of the body 1 have a structure in which the mounting table 4 is integrally formed to facilitate fastening to the support.

The body 1 is a structure in which the interior is divided and sealed, one side of the lamp 10, the heat sink 3, the switching mode power supply 2, the reflecting plate 9 are sequentially located, the other space is switched mode power The wiring terminal 6 and the wire fixing hook 8 are installed to supply power to the supply 2, and the cover plate 11 is fastened by a piece to open and close the opened lower part.

In addition, the front surface and the rear surface of the body 1 in a state in which the dome-shaped glove 5 for opening and closing to protect the lamp 10 and the like to collect and diffuse the light emitted is located on one side of the body (1). It is opened and closed by combining the clip (7) method.

On the other hand, the body (1) inside the reflecting plate (9) attached to the inner circumferential surface so as to reflect the light emitted from the LED lamp 10 in the direction of the glove (5), the lower portion of the reflecting plate (9) The upper surface is fixed to the inner circumferential surface of the body 1 and the lower portion of the bracket 14 is fastened to fix the mode power supply 2 and the heat sink 3.

Therefore, the heat sink 3 is attached to the upper end of the bracket 14 and the lower end bent vertically with the switching mode power supply 2.

The switching mode power supply (2) is a method that has been developed with a new technology to improve and replace this point because the existing power supply method using the AC line frequency (50 ~ 60) is restricted in terms of efficiency, weight, and capacity. It converts AC line frequency (50 ~ 60) into DC and converts it into high frequency (several dozens ~ hundreds) and requires high level of technology.

In addition, by maximizing the power utilization rate with the pulse width modulation method that converts the frequency, it has high competitiveness and competitiveness in terms of efficiency and economic efficiency, and the stability of power is greatly improved.

In addition, the heat dissipation plate 3 fixed to the lower portion of the bracket 14 is bent on both sides of the plate-shaped upper surface 12 in an inclined direction from the upper side to the lower side side (13, 13 ') of the symmetrical shape integrally formed Structure.

The heat sink 3 has an inclination angle in which the left and right side surfaces 13 and 13 'are inclined at both ends of the upper surface 12. At this time, the inclination angle of the left and right side surfaces 13 and 13' in the upper surface 12 is preferably maintained at 145 °. Do.

Only then, the lamp 10 is installed at the lower left and right sides 13 and 13 'of the heat sink 3 so that the lamp 10 intersects when it emits light, and spreads in all directions so as to illuminate a large area while spreading the light range as much as possible.

10W lamps 10 are positioned on the top and left and right sides 13 and 13 'of the heat sink 3 in a row, respectively. In the drawing, the lamp 10 and the left and right sides 13 and 13 are positioned at the center of the top surface 12. ') Is arranged so that the two lamps 10 located on the upper surface are positioned to the left and right, respectively.

On the other hand, the lamp 10 is the LED chip mounting portion formed by drawing from the upper surface on the circular PCB substrate to increase the luminous efficiency when using the LED as a light source, and the LED chip in the state formed in the inclined surface on the inner peripheral surface of the LED chip mounting portion A reflective film is provided along the inclined surface to widen the light source that emits light.

In addition, the LED chip is arranged in the center of the reflective film, and the lens is installed so that the light source can be collected and irradiated when the LED chip emits light while the gold wire is connected.

Therefore, the lamp 10 located on the top surface 12 of the heat sink 3 emits light in the vertical direction, and the lamps 10 located on the left and right side surfaces 13 and 13 'are respectively inclined in the opposite direction to emit light.

4 is a side view illustrating a state in which a lamp is attached to a heat sink of a light distribution structure that doubles the efficiency of the LED luminaire of the present invention, and FIG. 5 is a view illustrating a traveling direction of light when the lamp attached to the heat sink of the present invention emits light. It is an exemplary view shown.

In the security light 100 of the present invention, the lamp 10 located on the upper surface of the lamp 10 and the left and right sides 13 and 13 'is attached to the upper surface 12 of the heat sink 3 respectively. Light propagates by emitting light in the vertical direction, and the lamp 10 positioned on the left and right side surfaces 13 and 13 'is inclinedly attached to the left side to the right side, and the right side to the left side to emit light.

Then, when spreading in the vertical direction and the left and right direction, the center crosses and shines the brightest, and both sides spread diagonally to illuminate a larger area.

1 is a front view showing the present invention LED lighting.

Figure 2 is a bottom view showing the LED lamp of the present invention.

Figure 3 is a perspective view showing a heat sink of the LED lamp of the present invention.

Figure 4 is a side view showing a state in which the lamp is attached to the heat sink of the LED lamp of the present invention

5 is an exemplary view showing a traveling direction of the light when the lamp attached to the heat sink of the present invention emits light.

6 is an exemplary view showing a traveling direction of light when a lamp attached to a conventional heat sink emits light.

Explanation of symbols on the main parts of the drawings

1: Body 2: Switching Mode Power Supply

3: heat sink 4: mounting bracket

5: Glove 6: Wiring Terminal

7: clip 8: wire holder

9: reflector 10: lamp

11: cover plate 12: top

13, 13 ': left and right side 14: bracket

100: LED light

Claims (3)

On the inside of the body (1) and the lamp (10) and the glove (5) to open and close the open lower portion to spread the light to protect and emit the lamp 10, and the inner body in the lower open; In the security lamp 100 is formed integrally with the mounting table (4) to be fastened with the prop, A heat dissipation plate 3 bent inclined in a symmetrical shape at both ends of the LED mounting security light 100; Light distribution structure device for doubling the efficiency of the LED lighting, characterized in that the light cross-diffusion in the vertical direction and the inclined left and right directions when the lamp 10 is installed obliquely on each surface along the shape of the heat sink (3). The heat dissipation plate 3 of claim 1, wherein the heat dissipation plate 3 has a plate-shaped upper surface 12 which doubles the efficiency of the LED lighting lamp having a symmetrical shape in which both ends are bent in an inclined direction from the upper side to the lower side. Light distribution rescue device. 3. The light distribution structure of claim 2, wherein the heat dissipation plate (3) has one or more lamps arranged on the top surface (12) and the left and right side surfaces (13, 13 '), respectively.

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