KR101475471B1 - Reflector for LED lighting fixtures - Google Patents

Abstract

The present invention relates to a reflector for LED lighting device. An LED reflects the light of a lighting device at the emission angle of a weak light which is emitted from the outside of a basic emission angle. The LED lighting device increases the entire brightness of the lighting device after shortening a distance for emitting a light which does not pass through a transparent cover and is re-reflected. The present invention comprises a reflector which installs a plurality of LEDs on a PCB and reflects a light which progresses on the PCB, which the LEDs are installed on, to the PCB. The transparent cover is arranged on the front side where the light of the LEDs is emitted. The reflector comprises a penetration hole which penetrates each LED at a point corresponding to a point where a plurality of LEDs is arranged and a reflection unit to reflect the light reflected from the transparent cover and emitted from the LEDs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reflector for LED lighting fixtures,

The present invention relates to a reflector for an LED lighting device.

More particularly, the present invention relates to a light emitting device that reflects an outgoing angle of weak light emitted outside a basic outgoing angle of an LED in a direction of emitting light of an illumination device, To a reflector for an LED lighting apparatus capable of improving the overall luminance of the lighting apparatus.

The LED lighting device used as the surface lighting is applied to indoor and outdoor lighting. It is constructed by mounting a plurality of LEDs on a PCB and arranging a transmission cover in front of the LEDs.

In the above-described planar light source, the light emitted from the plurality of LEDs is diffused through the transmission cover to be realized as an indoor illumination. Here, all of the LED light can not pass through the transmission cover, do. In this case, the light reflected from the inner surface of the transparent cover is not absorbed by the PCB mounted with LEDs, and the LEDs and the LEDs for driving the LEDs are mounted on the PCB, A reflector made of a reflective film or the like is provided.

Such reflectors are collectively referred to as reflective films and reflective plates for reflecting light, and are formed as thin as possible. The general structure of such a reflector is disclosed in Korean Patent Application No. 10-2010-0112976 (entitled "Illumination Device," filed on Dec. 12, 2010).

The present invention relates to a light emitting device comprising: a light emitting part including a plurality of LEDs; a reflector disposed on a light emitting part and including a bottom reflector, a side reflector connected to the bottom reflector and having a predetermined inclination, and a fixing protrusion connected to the side reflector A diffusion plate disposed in a direction in which the light is irradiated from the LED, and a case having an engaging groove in which the light emitting portion is disposed and engaged with the fixing protrusion, And a connecting member having a bracket engaging portion.

LEDs have different emission angles depending on the color and shape of emitted light, but are generally known to have an emission angle of about 120 or less. Such an angle of incidence represents the exit angle of light with a long emitting distance (hereinafter referred to as illuminating light) which can be applied to the light emitted from the LED, and the light having a short emitting distance has an angle of more than 120 to 180 degrees It is known to be released.

At this time, the light emitted in excess of 120 (hereinafter, referred to as extra light) does not advance to the transmission cover side, and therefore, it travels at a certain distance within the housing of the illumination lamp and is then lost.

Therefore, since the periphery of the LED is formed in a simple plate shape in the case of the reflector structure of the above-described invention, it is difficult to expect the excellent luminance efficiency because the extra light can not be included in the illumination light.

Also, since the reflector is in the form of a flat plate with the periphery of the LED closely attached to the inner surface of the housing as described above, the reflector is required to travel a considerable distance in order to be reflected by the transparent cover and to be reflected again by the reflector. Problems with high loss rates are exposed.

The present invention has been made to solve the above problems.

Accordingly, it is an object of the present invention to provide an LED lighting device that reflects an extra light outgoing angle, which is emitted outside a basic outgoing angle of an LED, in a direction in which light of an illumination device is emitted and transmits a reflected light, And an object of the present invention is to provide a reflector for an LED lighting device which can shorten the brightness of the LED illuminating device by improving the brightness of the illumination device.

In order to achieve the above object, the present invention has the following configuration.

In the present invention, a plurality of LEDs are mounted on a PCB, and a reflector is provided on a PCB surface of the PCB on which the LEDs are mounted to reflect light propagating to the PCB. A transmission cover is disposed in front of the LEDs Wherein the reflector is formed with a through hole through which LEDs are respectively passed through at positions corresponding to points where a plurality of LEDs are arranged, And the reflection surface is formed so as to protrude so as to reflect the light reflected by the reflection surface.

Here, the reflection surface portion is formed such that a section where the LED is mounted on the PCB as a whole is protruded, a depressed groove is formed on the surface side of the PCB at each point where the LED is mounted, and the through hole is formed inside the groove.

In particular, the reflective surface portion is formed at a height such that the height protruding from the PCB and the depth of the corresponding groove do not interfere with the light emission angle line of the LED. At this time, the reflective surface portion is selectively formed in a planar shape of a circular, elliptical, or polygonal shape and the depressed shape toward the surface side of the PCB is recessed in a hemispherical shape or a polygonal shape corresponding to the planar shape.

The reflection surface portion includes a concealing reflective surface portion protruding from the PCB to hide the portion where the electrical and electronic elements are mounted on the same surface as the LED on the PCB and reflect the light.

As described above, according to the present invention, the extra light which can not be used as illumination light can be transmitted to the transmission cover side together with the illumination light, thereby improving the overall luminance efficiency of the illumination.

Further, according to the present invention, the traveling distance for the light reflected from the transmission cover to be reflected and emitted is shortened, and the loss rate according to the distance of the light is reduced, so that the luminance efficiency of the illumination can be further improved.

1 is a front perspective view of a reflector according to the present invention;
2 is a rear perspective view of a reflector according to the present invention.
3 is a sectional view of a reflector according to the present invention;
4 is a view showing an example of a use state of the reflector according to the present invention.
Figure 5 is an illustration of a further embodiment of the invention.

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a front perspective view of a reflector according to the present invention, FIG. 2 is a rear perspective view of a reflector according to the present invention, FIG. 3 is a cross-sectional view of the reflector according to the present invention, and FIG.

Referring to the drawings, an LED lighting apparatus to which a reflector according to the present invention is applied includes a light source in which a plurality of LEDs 3 are mounted on a PCB 2 in a housing 1, And a transmission cover 4 which is disposed in front of the housing 1 and is coupled to the housing 1.

Here, the reflector 10 is installed on a surface of the PCB 2 on which the LED 3 is mounted. The reflector 10 is configured to reflect light traveling to the PCB 2, and is applied to a reflection film formed by performing reflection coating on a surface of a synthetic resin film, or a reflection plate made of a metal having a high reflectance or the like.

Specifically, the reflector 10 is provided with a through hole 11 through which the LED 3 passes, at a position corresponding to a point where a plurality of LEDs 3 are arranged, The reflecting surface portion 20 is formed so as to protrude so that the light emitted from the light emitting portion 3 and the light reflected from the transmission cover 4 are reflected.

At this time, the reflection surface portion 20 is formed such that a section where the LED 3 is mounted on the PCB 2 is entirely protruded. In this configuration, the reflection surface portion 20 is formed with grooves 21 recessed toward the surface side of the PCB 2 at points corresponding to points on the PCB 2 on which the LEDs 3 are mounted, And a through hole 11 penetrating through the LED 3 to expose the LED 3 is formed inside.

With the above-described configuration, the reflection surface portion 20 is reflected by the inner surface of the groove 21 at a short distance and travels to the transmission cover 4 together with the illumination light proceeding toward the transmission cover 4 side And is used as illumination light.

The distance between the transparent cover 4 and the reflective surface 20 is considerably reduced because the reflective surface 20 is formed in a protruding form on the PCB 2. Accordingly, the distance reflected by the transmission cover 4 and re-reflected by the reflection surface portion 20 is short, so that the loss rate of light is minimized.

The reflection surface portion 20 is set to a height that does not interfere with the emission angle line of the illumination light emitted from the LED 3. That is, since the height of the reflection surface portion 20 corresponds to the depth of the groove 21, the depth of the groove 21 recessed in the reflection surface portion 20 is set such that the depth of the groove 21 is on the light emission angle line of the LED 3 It is natural that it is formed to a depth that does not interfere.

As shown in the drawing, the reflection surface 20 is formed on the outside of the emission angle line. This is because the light emitted at the highest luminance is incident on the reflection surface 20, And the luminance characteristic is lowered.

Here, the groove 21 recessed toward the front side of the PCB 2 may be formed in various shapes. For example, the groove 21 may be formed in a circular shape, an elliptical shape, or a polygonal shape. Alternatively, the groove 21 may be formed in a hemispherical shape, have.

Such various forms can be variously modified according to the manufacturing conditions such as the number of the size LEDs 3 of the illumination device.

<Additional Embodiment>

Figure 5 is an illustration of a further embodiment of the invention.

Referring to the drawings, a reflector 10 of a further embodiment is constructed such that the reflecting surface portion 20 of the embodiment cooperates with the LED 3 on the PCB 2 to cover the area where the electric and electronic elements 5 are mounted, And the reflection is made possible.

In order to prevent the light reflected by the transmission cover 4 on the PCB 2 from being absorbed and lost by the electric and electronic element 5, And a concealing reflecting surface portion 30 protruded on the PCB 2 of the section is formed.

Accordingly, the reflector 10 further reduces the loss rate of light, thereby obtaining better luminance efficiency of illumination.

10: reflector 11: through hole
20: reflection surface portion 21: groove
30: Concealed reflection surface

Claims (5)

A plurality of LEDs 3 are mounted on a PCB 2 and a reflector 10 is installed on the PCB 2 on which the LEDs 3 are mounted so as to reflect light traveling to the PCB 2 And a transmission cover (4) arranged in front of the LED (3) to emit light, characterized in that the reflector
The reflector 10 is provided with a through hole 11 through which the LED 3 penetrates at a position corresponding to a point where the plurality of LEDs 3 are arranged and the LED 3 is arranged around the through hole 11. [ A reflective surface portion 20 is protruded so as to reflect light emitted from the transparent cover 4 and light reflected from the transparent cover 4. The section where the LED 3 is mounted on the PCB 2 is entirely protruded, A groove 21 recessed toward the front surface side of the PCB 2 is formed at each point where the PCB 3 is mounted and the through hole 11 is formed inside the groove 21, And the depth of the corresponding groove 21 is formed so as not to interfere with the basic light exit angle line of the LED 3, the reflection surface portion 20 is formed on the outside of the exit angle line of 120 degrees which is the exit angle of the illumination light And a section where the electric and electronic elements 5 are mounted on the same surface as the LED 3 on the PCB 2 is mounted on the reflection surface portion 20, Further comprising a concealing reflecting surface (30) protruding from the PCB (2) so as to be able to close and reflect light.
delete delete The light emitting device according to claim 1, wherein the reflecting surface portion (20)
The groove 21 recessed toward the surface side of the PCB 2 is selectively formed in a planar shape of a circle, an ellipse, or a polygon, and is recessed into a hemispherical shape or a polygonal shape corresponding to the planar shape thereof. Reflector for devices.
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