KR200464906Y1 - The Lense cover for Light Emitting Diode Lamp Module - Google Patents

Abstract

The present invention relates to a lens cover for an LED lamp module in which the lens is integrated, and a plurality of LEDs (Light Emitting Diode-equipped metal substrates are embedded in the bar case embedded, and the epoxy is coated on the upper surface of the metal substrate) In the lens cover for an LED lamp module integrated with a lens including an LED module formed by forming a cured waterproof layer,
A cover in the form of a cover fitted to the upper part of the bar case is formed, and a hemispherical lens is formed on the upper surface of the cover to correspond to the LED so that the light of the LED is diffused to the outside, and the light of the LED is formed on the inner circumferential surface of the lens. The side diffusion surface refracted so as to diverge to the side is formed to be inclined upwardly inward, and the front diffusion portion for diffusing the light of the LED to the front is formed on the inner upper part of the lens to protrude downward,
A fixing guide protruding in the longitudinal direction from the inner wall of the cover to abut against the outer wall of the bar case to increase the coupling force, the side diffusion surface is formed to be inclined from the inner lower portion of the lens to the upper, inclined at different angles And a second diffusion surface formed to be inclined upwardly.
According to the present invention, since the light emitted from the LED is diffused while being widely diffused to the front and side of the lens through the side diffusion surface, the illumination of the lamp is increased as well as the light emitted from the LED is also seen from the side In addition to improving the utilization as a cover, since the cover is separated from the LED module can be expected to reduce the maintenance cost.

Description

Lens cover for LED lamp module incorporating lens {The Lense cover for Light Emitting Diode Lamp Module}

The present invention relates to a lens cover for an LED lamp module in which the lens is integrated, and more specifically, a plurality of lenses formed on the inner circumferential surface of the side diffusion surface for diffusing the light of the LED to a wide side and protruding to the upper surface of the cover, An LED lamp module cover in which a lens is integrated is configured such that the cover is attached to and detached from an LED bar equipped with a plurality of LEDs so that the light of the LED can be emitted while being diffused from the front side and the side through the lens.

In general, an LED module formed in a bar shape is provided by mounting a substrate on which a plurality of LEDs are mounted inside a bar case having an upper opening, and forming a waterproof layer by applying and curing an epoxy so that only the surface of the LED is exposed on the substrate. have.

The LED module is to prevent the LED and the substrate mounted on the LED module by the waterproof layer to be damaged by water permeated.

When the LED module is used inside the billboard, the light emitted from the LED is displayed in the state projected on the billboard. When installed so as to be exposed to the outside when a person directly sees the light emitted from the LED has a serious glare caused a problem that the vision is dropped for a while.

In order to solve this problem, a lens is installed in the LED that diffuses the light emitted from the LED farther and improves the lighting effect so that a person cannot feel glare even when viewed from the front of the LED.

However, conventionally, it is difficult to form convex three-dimensionally formed lenses with epoxy because it is common to provide an integrally formed epoxy in the form of a lens applied to the LED module in order to install the lens on the LED. Due to the very poor productivity of the product is significantly reduced, and because the LED is completely embedded in the epoxy, there is a problem that the life of the LED is shortened due to poor ventilation and poor heat dissipation efficiency.

Therefore, the present invention for solving the above problems is formed by protruding a plurality of lenses formed on the inner circumferential surface of the inner circumferential surface of the side diffusion surface for diffusing the light of the LED broadly to the upper surface of the cover, the LED is equipped with a plurality of LED By attaching and detaching to the bar, the light emitted from the LED is diffused while being widely distributed to the front and side of the lens through the side diffusion surface, so the illumination of the lamp is increased and the light emitted from the LED is also seen from the side. It is an object of the present invention to provide a lens cover for an LED lamp module in which a lens is integrated so as to further increase the utilization for interior use.

The present invention for achieving the above object,

The side diffusion surface integrally forms a lens provided on the inner circumferential surface on the upper surface of the cover, and the cover is forcibly inserted into the LED module equipped with a plurality of LEDs to form a lamp, and thus the light generated from the LED Because the light is diffused while spreading to the side of the lens through the diffusion surface, bright light can be emitted from the lamp and prevent dark areas between the LED module and the LED module continuously connected by the wires. In addition, since the cover is formed by integrally protruding the lens integrally attached to the LED module, it can be expected to reduce the maintenance cost and time of the lamp.

According to the present invention, since the light emitted from the LED is diffused while being widely diffused to the front and side of the lens through the side diffusion surface, the illumination of the lamp is increased as well as the light emitted from the LED is also seen from the side It can be expected to have an effect that can further increase the utilization as a.

1 is an exploded perspective view of the lens cover for the LED lamp module integrated lens of the present invention.
Figure 2 is a cross-sectional view of the lens cover for LED lamp module integrated lens of the present invention.
Figure 3 is a bottom view of the lens cover for LED lamp module integrated lens of the present invention.
Figure 4 is a state of use of the lens cover for LED lamp module integrated lens of the present invention.
Figure 5 is a cross-sectional view showing another embodiment of the side diffusion surface of the present invention.
Figure 6 is a bottom view showing another embodiment of the side diffusion surface of the present invention.

Hereinafter, with reference to the accompanying Figures 1 to 6 will be described a preferred embodiment of the present invention.

First, the present invention forms a lamp (1) by combining the cover 20 is formed integrally with the lens 30 to the LED module 10 is equipped with a plurality of LEDs 13, the interior of the lens 30 The side diffusion surface 32 is formed on the side diffusion surface 32 so that the LED 130 light can be emitted to the front and side at the same time through the lens 30.

The LED module 10 of the lamp 1 has a plurality of LEDs 13 mounted inside the bar case 11 having through holes 15 formed on both sides thereof so that the wires 40 penetrate as shown in FIG. 2. The metal substrate 12 is bonded to be embedded.

Epoxy is applied to the upper surface of the metal substrate 12 bonded to the bar case 11 to form a cured waterproof layer 14.

At this time, the LED module (200) mounted with a plurality of LEDs (13) by using a power supplied from the wire 40 by coupling the connection terminal 41 of the screw type to the metal substrate 12 to be connected to the wire 40 ( 10) Let light emanate.

In addition, the screw coupling part 17 provided with the screw groove 17 is formed on both sides of the bar case 16 so as to couple the screw 23 to the screw groove 17 to connect the LED module 10 to the object. To be combined.

In this way, the plurality of lenses 30 are integrally protruded from the cover module 20 integrally protruding from the LED module 10, and the light of the LED 13 is diffused to the side at the same time as the front surface by the lens 30. While being diverged as well as cover 20 is detachably coupled from the LED module 10, the productivity of the lamp 10, as well as to reduce the maintenance cost and time.

A plurality of fixing guides 21 are formed to protrude in the vertical direction on the inner wall of the cover 20 so as to forcibly fit in the LED module 10, and the LED mounted on the LED module 10 on the upper surface of the cover 1. Corresponding to (13) to form a hemispherical lens 30 formed integrally protruding.

At this time, the clearance groove 17 that can allow the head size of the screw 23 is rotatably coupled to the screw groove 17 on both side ends of the cover 20 is formed to correspond to the screw groove 17.

The lens 30 is formed at both side ends of the cover 20 protruding integrally to form a clearance groove 22 that can allow the head size of the screw 23, respectively, so that the clearance groove 22 causes the cover ( The LED module 10 combined with the 20) can be smoothly rotated when the screw 23 is mounted on the object using the screw 23, thereby reducing the installation time of the lamp 1.

The side diffusion surface 32 is formed on the inner circumferential surface of the lens 30 integrally formed with the cover 20 to be inclined upward in the inward direction, and the light of the LED 13 is raised to the front of the side diffusion surface 32. The front diffusion part 31 that can be diffused is formed to protrude close to the LED 13, and the front diffusion part 31 is formed to have an inclined surface 31a on the side toward the end, so that the inclined surface 31a By the large amount of light generated by the LED 31 can be diffused while being spread to the front through the front diffusion unit 31.

On the other hand, the side diffusion surface 32 formed along the inner circumferential surface of the lens 30 is to be made of any one of a square to a hexagonal shape when the lens 30 is viewed from the bottom, in the present invention 16 angle as shown in FIG. The side diffusion surface 32 formed as an example will be described.

The side diffusion surface 32 is formed to form a polygon along the inner circumferential surface of the first diffusion surface 33 to be inclined upward from the inner end of the lens 30 as shown in Figure 3, the first diffusion surface 33 and the top The second diffusion surface 34 is formed to be inclined upwardly at different angles so that the first and second diffusion surfaces 33 and 34 are moved from the position as close as possible to the upper surface of the cover 20 to the upper portion of the lens 30. Let the light shine.

That is, when the light generated by the LED 13 passes through the first diffusion surface 33, the light is refracted to the upper surface of the cover 20 due to the inclination angle of the first diffusion surface 32 and the first diffusion. The light is emitted to the upper portion of the lens 30 by the size of the surface 33 is formed.

In addition, the light of the LED 13 passing through the second diffusion surface 33 diverges to the outside while being refracted larger than the refractive angle passing through the first diffusion surface 33 due to the inclination angle of the second diffusion surface 33. Will be.

Accordingly, the light of the LED 13 passing through the first and second diffusion surfaces 33 and 34 crosses with the light of the LED 13 passing through the front diffusion part 31 in the form of a bu chatsal where the fan is wide open. It is emitted to the outside through the lens 30, which can not only increase the illuminance of the lamp 1, but also can be used as a light source for landscape lighting of various interiors.

At this time, the side diffusion surface 32 is to form a third or fourth diffusion surface 35, 36 in which the side cross-section is inclined upward in a straight line, as shown in Figure 5, the third or fourth diffusion surface As shown in FIG. 6, the reference numerals 35 and 36 may be formed in any one of a square to a hexagon.

Referring to the preferred bonding state and effects of the present invention formed as described above are as follows.

First, the cover 20 formed by protruding the lens 30 integrally protruded into the LED modules 10 connected at equal intervals by the wires 40, respectively, is coupled to the LED module 10 to which the cover 20 is coupled. Power to allow the LED 13 to emit light.

The light emitted from the LED 13 is refracted by the front diffusion part 31 formed along the inner circumferential surface of the lens 1 and the side diffusion surface 32 formed in a polygon, and is emitted to the entire lens 30.

That is, the light generated from the LED 13 due to the front diffusion part 31 of the lens 30 is refracted and diffused to the front surface of the lens 30 and simultaneously to the first and second diffusion surfaces 33 and 34. Due to this, the light passing through the lens 30 is refracted as close as possible to the upper surface of the cover 20.

The LEDs are formed on the inner circumferential surface of the lens 30 integrally formed with the cover 20 such that the first and second diffusion surfaces 33 and 34 are inclined at different angles from the other front diffusion portions 31. The light generated from the module 10 can emit a wide range of light through the lens 30, thereby providing a bright illumination to the user.

In addition, by attaching a cover 20 in which the lens 30 is integrally attached to and detached from the LED module 10 to form a lamp 1, the productivity of the lamp 1 is improved as well as maintenance costs. Can be reduced.

And as it can reduce the shadow of the light generated from the lamp (1) to the maximum, using the lamp (1) can be used as a light source of the interior that can be variously produced as well as the LED module 10 of Figure 1 Even if it is combined continuously as shown in this can reduce the shadow between the LED module 10 and the LED module 10 to the maximum.

1: lighting, 10: led module,
11: bar case, 12: metal substrate,
13: LED, 14: waterproof layer,
15: through hole, 20: cover,
21: fixed guide, 30: lens,
31: front diffusion, 32: side diffusion,
33: first diffusion surface, 34: second diffusion surface,
35: second diffusion plane, 40: wires,
41: connector,

Claims (3)

The metal substrate 12 having a plurality of LEDs (Light Emitting Diodes) 13 is bonded to the inside of the bar case 11, and an epoxy is coated on the upper surface of the metal substrate 12 to cure the waterproof layer 14. In the lens cover for the LED lamp module integrated with a lens including the LED module 10 formed by forming a),
A cover 20 having a cover shape fitted to the upper part of the bar case 11 is formed, and the lens 30 having a hemispherical shape is formed on the upper surface of the cover 20 so that the light of the LED 13 is diffused to the outside. To correspond to (13),
On the inner circumferential surface of the lens 30 is formed a side diffusion surface 32 for refracting the light of the LED 13 to diverge to the side inclined upwardly inward, and the light of the LED 13 on the inner upper portion of the lens 30 It is configured by forming the front diffusion portion 31 to protrude downward to diffuse to the front,
A fixing guide 21 is formed to protrude in the vertical direction on the inner wall of the cover 20 to abut against the outer wall of the bar case 11 to increase the bonding force,
The side diffusion surface 32 is formed to be inclined upward from the inner lower portion of the lens 30, and forms the first and second diffusion surfaces 33 and 34 that are inclined at different angles upward.
The side diffusion surface 32 is a lens cover for the LED lamp module integrated lens, characterized in that the flat cross-section is formed in any one of the square to hexagonal shape so that the side diffusion surface 32 is divided into a plurality of diffusion surfaces. delete The method according to claim 1,
In order to fix the bar case 11 to the installation object as the screw 23, the screw engaging portion 16 provided with the screw groove 17 into which the screw 23 is fitted is formed to protrude from both ends of the bar case 11. and,
Lens for LED lamp module integrated lens, characterized in that the outer wall of the cover 20 is formed so that the clearance groove 22 to allow the head of the screw 23 fitted in the screw groove 17 to be smoothly mounted. cover.

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