KR20120137077A - Led illumination equipment - Google Patents

Abstract

PURPOSE: An LED lighting device is provided to has wide light distribution by including a light guide plate leading light generated in an LED element to the front, side and back directions. CONSTITUTION: A heat sink(120) includes a loader(122) formed on the center of the upper surface in a constant height. One or more LED elements(110) are loaded on the loader. A light guide plate holder(130) is installed on the heat sink to expose the loader. The light guide plate holder includes a plane part(132) covering the upper surface the heat sink. A light guide plate(140) leads light generated in the LED element to the front, side and back directions.

Description

LED lighting equipment {LED Illumination Equipment}

The present invention relates to an LED lighting device, and more particularly, to an LED lighting device that extends a light directing angle by using a light guide plate to have a wide light distribution, and adjusts a light directing angle and minimizes light loss. It is about.

In general, incandescent lamps or fluorescent lamps are widely used as indoor or outdoor lighting lamps, and these incandescent lamps or fluorescent lamps have a short life and have a problem of frequent replacement.

In order to solve this problem, luminaires employing LEDs having excellent controllability, fast response speed, high electro-optical conversion efficiency, long life, low power consumption and high luminance have been developed.

That is, LED (Light Emitting Diode) has the advantage that the power consumption is low because of the high photoelectric conversion efficiency, and because the heat discharge time is not necessary because the heat discharge time is unnecessary, the lighting and the extinguishing speed is fast.

In addition, since LED is free from gas or filament, it is strong and safe against impact, and it adopts stable DC lighting method to reduce power consumption, high repetition and pulse operation, and to reduce optic nerve fatigue. The lighting effect of various colors can be produced, and the small size of the light source can be used.

FIG. 10 is a perspective view illustrating a general LED lighting apparatus, and a conventional LED lighting apparatus 1 includes a substrate 12 having a plurality of LED elements 11 mounted thereon, and heat generated when the LED elements 11 emit light. A heat sink 13 on which the substrate 12 is mounted so as to be discharged to the outside, a heat dissipation fin 14 protruding from an outer surface of the heat sink 13 to widen the heat dissipation area, and a socket connected to an external power source ( 15) and a transparent cover 16 to protect the LED element 11 from the external environment.

However, since the LED element 11 forms a directivity angle of 120 to 130 degrees during light emission, when the LED element 11 implements an LED lighting device, the light distribution is concentrated only in the front and is not distributed to the rear. Will appear.

As a result, the light distribution of the conventional incandescent bulb during light emission, that is, the light distribution may not be distributed to the rear, and thus the illumination of the indoor or outdoor space cannot be sufficiently secured.

The method of expanding the light directing angle of bulb type LED lighting devices developed to date similarly to incandescent bulbs is realized by widening the light directing angle by modifying the angle of the heat sink in which the LED module divided into two or more is mounted. Top view type LEDs are mounted on the center of the mounting surface of the sink, and side view type LEDs are mounted on the mounting surface side of the heat sink to widen the light directing angle or wider the light directing angle using the reflector.

However, since the reflector reflects light at the time of emitting light is provided in the lighting device, it is not only difficult to adjust the ratio of the portion of the reflector as it is illuminated on the lighting device and the ratio of the light emitted to the side and the light emitted to the front. In the case of dividing the LED module into two or more, the process of manufacturing and manufacturing the lighting equipment is complicated, and there is a limit in reducing work productivity and manufacturing cost.

Accordingly, the present invention is to solve the above problems, by using a light guide plate to uniformly distribute the light irradiated from the LED element to the side and rear of the lighting device to extend the light direction angle, the same light distribution distribution as the conventional incandescent bulb To provide an LED lighting device having.

As a specific means for achieving the above object, the present invention, a heat sink having a mounting portion on which at least one LED element is mounted; A light guide plate holder fixed to the heat sink to expose the mount; And a light guide plate assembled to the light guide plate holder to guide the light generated by the LED element to the front, the side, and the rear side by penetrating the placement hole in which the mounting portion is disposed.

Preferably, the light guide plate holder includes a flat portion having a through hole through which the mounting portion passes, and a side portion extending inclined from an outer edge of the flat portion to guide the light guided through the light guide plate laterally.

More preferably, the side portion includes a curved portion on an outer surface corresponding to the inclined light emitting surface formed on the outside of the light guide plate.

More preferably, the side surface portion has a lower projection in contact with the inclined surface formed on the upper edge of the heat sink in the lower border in contact with the flat portion.

More preferably, the side portion has an elastic catching jaw in which the upper outer edge of the light guide plate is elastically caught inside the upper end corresponding to the upper outer edge of the light guide plate.

More preferably, the side portion has an assembly groove in which the lower end of the diffusion cover for diffusing light generated from the LED element is assembled.

Preferably, the upper surface of the LGP holder and the lower surface of the LGP are spaced apart from each other at a predetermined interval.

Preferably, the light guide plate is formed at a predetermined angle such that an area of the lower surface of the body corresponding to the light guide plate holder is formed to be smaller than that of the upper surface of the opposite body, and connects the upper surface and the lower surface having different areas. It includes a photographic oblique exit surface.

Preferably, the light guide plate further includes a reflector to reflect light guided into the light guide plate on a lower surface corresponding to the light guide plate holder.

More preferably, the reflector is formed of a reflective sheet or a reflective sheet coated with a reflective material on a lower surface of the light guide plate corresponding to the light guide plate holder or a predetermined thickness, or any one of printing, laser processing, and V-cutting processing. It is provided with a reflective pattern formed in a manner.

Preferably, the light guide plate has an arc-shaped reflection part formed in the top edge of the inner surface of the placement hole and the upper surface of the light guide plate to be in contact with each other to reflect the light of the LED element to the upper region of the mounting portion.

Preferably, the LED element is mounted on the vertical outer surface of the mounting portion corresponding to the light guide plate or on the horizontal upper surface of the mounting portion.

Preferably, the light guide plate is provided in a round shape so as to prevent material damage when the light guide plate is assembled with the light guide plate holder.

According to the present invention, a light guide plate for guiding the light generated by the LED element to the front, side and rear of the light guide plate holder fixed to the upper portion of the heat sink is provided by using the light guide plate when the lighting device is turned on, the light irradiated from the LED element Can be extended to a wider angle of view, and the light distribution characteristics can be improved, so that the same or similar light distribution characteristics as the existing incandescent lamps can be obtained. The effect of improving the reliability of the product is obtained by improving the optical characteristics of the lighting device by securing a wide angle of view and uniformity of light.

1 is an exploded view showing an LED lighting device according to a preferred embodiment of the present invention.
2 is an assembly view showing an LED lighting device according to a preferred embodiment of the present invention.
3 is a state diagram in which the LED element is mounted on the side of the mounting portion employed in the LED lighting apparatus according to the preferred embodiment of the present invention.
Figure 4 is a detailed view showing the side of the mounting portion employed in the LED lighting apparatus according to a preferred embodiment of the present invention.
FIG. 5 illustrates a light guide plate holder and a light guide plate employed in an LED lighting apparatus according to a preferred embodiment of the present invention.
a) is the light guide plate holder and the light guide plate are separated,
b) is a state where the light guide plate holder and the light guide plate are combined.
6 is a detailed view in which a light guide plate holder employed in an LED lighting apparatus according to a preferred embodiment of the present invention is provided in a heat sink.
7 is a rear view showing the bottom of the light guide plate employed in the LED lighting apparatus according to a preferred embodiment of the present invention.
8 illustrates a light guide plate employed in an LED lighting device according to a preferred embodiment of the present invention.
a) is the state before the light emitting of the LED element,
b) is the diffusion state of light upon emission.
9 is a state diagram of refraction of light by the arc reflector of the light guide plate employed in the LED lighting apparatus according to the preferred embodiment of the present invention.
10 is a perspective view showing a general LED lighting device.

Preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

LED lighting device 100 according to a preferred embodiment of the present invention, as shown in Figure 1 and 2, includes an LED element 110, heat sink 120, the light guide plate holder 130 and the light guide plate 140. do.

The heat sink 120 includes a mounting portion 122 on which at least one LED element 110 that generates light when power is applied, and the mounting portion 122 has a predetermined height in a central region of an approximately upper surface of the heat sink. Protruding.

The heat sink 120 may be made of a metal material having excellent thermal conductivity, such as aluminum, so as to emit heat generated when the LED element 110 provided in the mounting portion to the outside, the heat dissipation efficiency on the outer surface of the body It may be provided with a heat radiation fin to increase the.

As shown in FIG. 3, the LED element 110 may be mounted on a vertical outer surface of the mounting portion 122 protruding from a top surface of the heat sink 120 by a heat dissipation tape. It is provided in the body of the heat sink 120 may be electrically connected through a switch-mode power supply (SMPS) 125 and a power cable 127 which is a power supply device connected to an external power source.

Here, as shown in FIG. 3, the LED element 110 includes a mounting portion 122 orthogonal to an upper surface of the heat sink 120 so that light can be irradiated to a side corresponding to the light guide plate 140. Although illustrated and described as being mounted on a vertical outer surface, the present invention is not limited thereto and may be mounted in various forms.

As shown in FIG. 4, the LED element 110 is perpendicular to the mounting portion 122 orthogonal to the top surface of the heat sink 120 to irradiate light to a side corresponding to the light guide plate 140. In addition to the vertical outer surface of the mounting portion 122 and the upper surface of the mounting portion 122 parallel to the upper surface of the heat sink 120 so as to be mounted on the outer surface and to irradiate light to the side and the front, respectively. Can be mounted.

Here, the mounting portion 122 is preferably provided in the same cross-sectional shape as the placement hole of the light guide plate, but is not limited thereto.

The LED element 110 may be electrically mounted on the substrate 112 attached to the outer surface of the mounting portion 122, respectively.

The light guide plate holder 130 is assembled to the upper side of the heat sink 120 to stably fix the light guide plate 140 for guiding the light generated from the LED element 110.

The light guide plate holder 130 may be made of a transparent polycarbonate (PC) having a high transmittance so that light guided through the light guide plate can be transmitted to the outside without light loss.

Here, the light guide plate holder 130 forms a through hole 131 through which the mounting portion 122 passes without interference, as shown in FIGS. 5A and 5B, and the upper surface of the heat sink 120. A planar portion 132 covering an area and a side portion 134 which is inclined to extend outwardly from an outer edge of the planar portion 132 to guide the light of the LED element guided through the light guide plate 140 laterally; Include.

The side portion 134 may include a concave lens-shaped curved portion 133 formed to be concave upward on an outer surface corresponding to the inclined light emitting surface 143 formed on the outside of the light guide plate 140.

Accordingly, when the LED element 110 emits light, the light that is guided to the side surface portion 134 corresponding to the inclined light emitting surface 143 of the light guide plate 140 has a curvature of a concave lens shape having a predetermined curvature. It is diffused while passing through 133 to improve the light distribution characteristics of the lighting equipment.

In addition, the side surface portion 134 is in contact with the heat sink 120 in contact with the inclined surface 126 formed on the upper edge of the heat sink 120 in the lower border in contact with the flat portion 132. The lower projection jaw 136 is provided to prevent assembly failure due to the movement of the light guide plate holder 130 during assembly.

Accordingly, when the light guide plate holder 130 and the heat sink 120 are assembled, the lower guide projection 136 and the inclined surface 126 prevent the movement of the light guide plate holder 130 by assembling the light guide plate holder. It can be done reliably.

The side portion 134 includes an elastic locking jaw 135 in which the upper outer edge of the light guide plate 140 is elastically disposed on the inner side of the upper end corresponding to the upper outer edge of the light guide plate 140.

Accordingly, the light guide plate holder 130 and the light guide tube 140 may be fixed so that external detachment of the light guide plate inserted into the light guide plate holder is difficult by the elastic force of the elastic catching jaw 135.

Here, the upper outer edge of the light guide plate 140 may be provided in a round shape so as to prevent the breakage of the material when pressed in the direct direction for assembly between the light guide plate holder 130 and the light guide plate 140.

In addition, the side portion 134 is assembled to assemble the lower end of the diffusion cover 150 formed in a substantially hemispherical shape so as to diffuse the light generated from the LED element to the outside while protecting the LED element, the light guide plate from the external environment. The groove 137 is provided.

6, the light guide plate holder 130 is disposed on the heat sink 120 by at least one fastening member 138 fastened to the heat sink 120 through the fastening hole 139. Although illustrated and described as being assembled, the present invention is not limited thereto and may be assembled by an adhesive method.

Here, an upper end of the fastening member 138 fastened to the light guide plate holder 130 may not be in contact with a lower surface of the light guide plate 140, and an upper surface of the light guide plate holder 130 and a lower surface of the light guide plate 140 may be formed. It is preferable to be spaced apart at a certain interval (G).

The light guide plate 140 penetrates the placement hole 141 in which the mounting unit 122 is disposed in the center of the body to guide the light generated by the LED element 110 to the front, the side, and the rear. ) Is a light guide member assembled to.

The light guide plate 140 is preferably made of a transparent material such as PMMA. The light guide plate 140 has an approximately inverted trapezoidal cross section in which an area of the lower surface 142 of the body portion corresponding to the planar portion 132 of the light guide plate holder 130 is formed to be smaller than that of the opposite upper surface 144 of the light guide plate holder 130. And an inclined light exit surface 143 inclined at an angle to connect between the upper surface 144 and the lower surface 142 having different areas, and the inclined light exit surface is assembled between the light guide plate holder and the light guide plate. The light guide plate holder 130 is assembled to correspond to the side portion 134.

In addition, the light guide plate 140 is guided into the inside of the light guide plate 140 on the lower surface 142 corresponding to the light guide plate holder 130 as shown in FIGS. 7 and 8 (a) and (b). A reflector 145 is provided to reflect light.

The reflector 145 is formed of a reflective layer coated with a reflective material with a predetermined thickness on the lower surface 142 of the light guide plate holder 130 and the light guide plate holder 130, or a reflective sheet attached through an adhesive. It may be provided as a reflective pattern formed in any one of a method of printing, laser processing, V-cutting.

In addition, by adjusting any one of the number, shape, and density of the reflection pattern reflecting the light guided into the light guide plate to the upper surface of the light guide plate, the user desires or optimizes the light direction and the amount of light for each diverging region. The ratio can be varied in various ways.

Accordingly, the light generated by the LED element 110 is guided to the inside of the light guide plate 140, as shown in FIG. 8 (b), to the reflector 145 provided on the lower surface 142 of the light guide plate. While being reflected and guided to the upper surface 144 along with the inclined light emitting surface 143 corresponding to the side portion 134 of the light guide plate holder 130, the light efficiency can be increased to the front, side and rear of the lighting device. will be.

That is, the light generated by the LED element 110 is guided into the light guide plate 140, and the guided light is reflected by the reflector 145 provided on the bottom surface of the light guide plate 140 so that the top surface ( 144 and an LED illuminator 100 having a light guide plate by being irradiated to the outside through the diffusion cover 150 and a part of which is irradiated to the outside through the inclined light emitting surface 143 and the side portion 134 at an extended direction angle of 270 degrees or more. ) Is to obtain the same optical characteristics as the light distribution obtained from the incandescent lamp.

On the other hand, the light guide plate 140 is a light incident surface facing the LED element and the inner surface of the mounting hole 141 and the upper surface 144 of the light guide plate 140 is in contact with each other to the light of the LED element It is preferable to include an arc-shaped reflector 146 to which a reflective material or a reflective sheet is attached to a surface recessed to have a predetermined curvature so as to be reflected to the upper region of the mounting portion 122.

As a result, the LED element disposed in the mounting hole 141 of the light guide plate 140 and the dark part where the upper area of the mounting part is relatively darker than the other area by the mounting part receive the light irradiated from the LED element. 146 can be removed by reflecting to the upper region of the mounting portion to be brightly illuminated, thereby obtaining a uniform brightness of the lighting device as a whole.

In addition, as shown in FIG. 4, the dark portion formed in the upper region of the mounting portion 122 is removed by the LED element 110 mounted on the horizontal upper surface together with the vertical outer surface of the mounting portion 122. You may.

While the invention has been shown and described with respect to particular embodiments, it will be understood that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

110: LED element 112: substrate
120: heat sink 122: mounting portion
126: slope 127: power cable
130: light guide plate holder 132: flat portion
133: curved portion 134: side portion
135: elastic locking jaw 136: lower projection jaw
137: assembly groove 140: light guide plate
141: layout hole 143: inclined light exit surface
150: diffusion cover

Claims (13)

A heat sink having a mounting portion on which at least one LED element is mounted;
A light guide plate holder fixed to the heat sink to expose the mount;
And a light guide plate assembled to the light guide plate holder to guide the light generated by the LED element to the front, the side, and the rear side by penetrating the placement hole in which the mounting portion is disposed. The method of claim 1,
The light guide plate holder includes a flat portion having a through hole for passing the mounting portion, and a side portion extending inclined from an outer edge of the flat portion to guide the light guided through the light guide to the side. . The method of claim 2,
And the side portion includes a curved surface portion on an outer surface corresponding to an inclined light emitting surface formed on the outside of the light guide plate. The method of claim 2,
The side surface portion LED luminaires, characterized in that the lower edge in contact with the planar portion has a lower projection step in contact with the inclined surface formed on the upper edge of the heat sink. The method of claim 2,
And the side part includes an elastic locking jaw in which the upper outer edge of the light guide plate is elastically disposed on the inner side of the upper end corresponding to the upper outer edge of the light guide plate. The method of claim 2,
And the side portion includes an assembly groove in which a lower end of a diffusion cover for diffusing light generated by the LED element is assembled. The method of claim 1,
LED lighting device, characterized in that the upper surface of the light guide plate holder and the lower surface of the light guide plate are spaced at a predetermined interval. The method of claim 1,
The light guide plate is inclined at an angle so that an area of the lower surface of the body corresponding to the light guide plate holder is formed to be smaller than that of the upper surface of the body opposite to the light guide plate, and connects the upper surface and the lower surface having different areas. LED lighting device comprising a light surface. The method of claim 1,
The light guide plate further comprises a reflector to reflect the light guided to the inside of the light guide plate on the lower surface corresponding to the light guide plate holder. 10. The method of claim 9,
The reflector may be formed of a reflective sheet which is formed of a reflective layer coated on the lower surface of the light guide plate corresponding to the light guide plate holder or a predetermined thickness or is attached to the light guide plate holder, or is formed by any one of printing, laser processing, and V-cutting processing. LED lighting device, characterized in that provided as a reflective pattern. The method of claim 1,
The light guide plate is formed on the top edge of the inner surface of the mounting hole and the upper surface of the light guide plate recessed on the LED luminescent device characterized in that it comprises an arc reflector for reflecting the light of the LED element to the upper region of the mounting portion. The method of claim 1,
And the LED element is mounted on a vertical outer surface of the mounting portion corresponding to the light guide plate or mounted on a horizontal upper surface of the mounting portion. The method of claim 1,
The light guide plate is an LED lighting device, characterized in that it is provided in a round shape to prevent material damage when assembling with the light guide plate holder on the upper outer edge.

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