KR101196964B1 - LED headlight for vehicle - Google Patents

Abstract

The present invention relates to a vehicle LED headlamp mounted on a front surface of a vehicle and irradiating light forwardly, the headlight case; An LED installed on one side of the headlight case; And a lens installed at the front side of the LED to focus the light emitted from the LED and to irradiate the light forward. It includes, The lens provides a vehicle LED headlamp including a shield for reflecting the light emitted from the LED to one side, the irradiation unit for irradiating the light reflected from the shield to the front of the vehicle. By reflecting the light rays emitted from the light source of the headlight of the vehicle to block the upper irradiation of the light beams, the reflected light beams can be irradiated to the front of the vehicle by using the total reflection of the light rays to improve the light efficiency.

Description

LED headlights for vehicles {LED headlight for vehicle}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to vehicle headlights, and more particularly, to automotive LED headlights that use LEDs as light sources.

LED light sources are widely used as display products of various electronic products because they show great advantages in processing speed, power consumption, and lifespan due to the characteristics of semiconductors. Recently, with the development of products with high brightness, it has been spotlighted as an advanced lighting light source.

In particular, the lamp using the LED light source has been spotlighted as an efficient light source due to the lower power consumption than the conventional light bulb, LED has the advantage that it is excellent in durability and can reduce the maintenance and maintenance costs such as replacement costs.

Recently, researches on vehicle headlights using LED light sources have been actively conducted, and in particular, headlights using LED light sources have been applied in place of halogen lamps or HID (High Intensity Dischargy) lamps. The research is also active.

By the way, as described above, the LED lamp used for the headlamp is different from the conventional light emission characteristics, but the optical design for applying this to the headlamp is a situation that the existing method is used as it is, the advantage of the light source is not effectively used.

In particular, when the LED is used as a low beam light source of a vehicle headlight, the shield portion of the headlight which prevents the light emitted from the LED from being upwardly shielded may absorb the light but does not allow the blocked light to be irradiated forward. Energy efficiency has fallen.

In addition, the reflector reflecting the light emitted from the LED is made of a reflector in which aluminum is deposited, but the reflectance of the aluminum is low (80 ~ 90%) has a problem that the light efficiency is lowered.

The present invention is to reflect the light emitted from the low-beam LED of the vehicle headlight to block the upper irradiation of the light beam and the reflected light is to be irradiated to the front of the vehicle using the total reflection of the light beam to improve the light efficiency of the vehicle LED It aims to provide headlights.

The present invention relates to a vehicle LED headlamp mounted on a front surface of a vehicle and irradiating light forwardly, the headlight case; An LED installed on one side of the headlight case; And a lens installed at the front side of the LED to focus the light emitted from the LED and to irradiate the light forward. It includes, The lens provides a vehicle LED headlamp including a shield for reflecting the light emitted from the LED to one side, the irradiation unit for irradiating the light reflected from the shield to the front of the vehicle.

The lens may further include a light guide part for preventing leakage of light reflected from the shield part to the irradiation part.

The shield may be formed as a curved surface with the LED as the focal point.

The curved surface may include a parabolic surface.

The shield may be coated with a light reflecting material.

The light reflecting material may include aluminum.

The irradiation unit may irradiate the light beam forward by total reflection of light.

According to the LED headlight for a vehicle according to the present invention, by reflecting the light rays emitted from the low-beam LED of the vehicle headlight to block the upper irradiation of the light beam and the reflected light is irradiated to the front of the vehicle by using the total reflection of the light beam to improve the light efficiency Can be improved.

1 is a cross-sectional view showing the configuration of an LED headlamp for a vehicle according to an embodiment of the present invention.
2 and 3 are front and rear bottom perspective views showing the configuration of a lens used in the vehicle LED headlamp shown in FIG.
4 is a cross-sectional view showing the configuration of a lens used in the vehicle LED headlamp shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a cross-sectional view showing the configuration of an LED headlamp for a vehicle according to an embodiment of the present invention.

Referring to FIG. 1, an LED headlamp 100 for a vehicle according to an exemplary embodiment of the present invention includes a headlamp case 102, an LED 110, and a lens 120.

First, the headlights are mounted on the front of the vehicle and irradiate light forward, thereby illuminating the traveling direction of the vehicle.

Headlight case 102 serves to seal the interior of the headlight with the lens 120 to be described later, so that the components disposed therein are not affected by moisture or foreign matter. The structure and shape of the headlight case 102 can be variously modified by the user's selection.

The front cover 104 may be installed in front of the headlight case 102 to prevent the components inside the headlight 100 from being damaged by an external force. The front cover 104 may be replaced by the lens 120 described later.

The headlamp of the vehicle may be separately provided with LEDs for use as a high beam light source and a low beam light source.

In the detailed description and drawings of the embodiment of the present invention, since the light source for the high beam is well known in the art, a detailed description thereof will be omitted. Therefore, in the following description, it is assumed that the LED is a low beam light source.

The LED 110 emits a predetermined light beam by a power source applied from the outside. The LED 110 is installed at the rear center of the lens 120 to be described later.

Power supply, wiring, control means, etc. connected to the LED 110 is a well-known well-known technology, so a detailed description and illustration thereof are omitted.

The lens 120 is disposed on the front surface of the headlight case 102 to irradiate the light emitted from the LED 110 to the front of the headlight 100. In addition, the lens 120 may serve to close the interior of the headlight case 102 as a front cover.

The lens 120 is preferably made of a transparent material in order to efficiently radiate the light emitted from the LED 110.

2 and 3 are front and rear bottom perspective views showing the configuration of a lens used in the vehicle LED headlamp shown in FIG. 4 is sectional drawing which shows the structure of the lens used by the LED headlight for vehicles shown in FIG.

2 to 4, the lens 120 includes a light collecting part 122, a shield part 124, and an irradiating part 128.

The light collecting part 122 is formed in a convex lens shape toward the front center of the lens 120. The light collecting unit 122 collects and radiates a portion of light rays emitted from the LEDs 110 of the vehicle headlight 100 toward the front of the vehicle. Irradiation of light rays by the light collecting unit 122 will be described later.

A ring fixing lens part 123 is formed around the light collecting part 122. The lens fixing part 123 facilitates the connection between the headlamp case 102 and the lens 120. In the present embodiment, the lens fixing part 123 is formed in a ring shape, but may be formed in another shape according to the needs of the user.

The shield unit 124 reflects a part of the light rays emitted from the LED 110 to the lower side of the lens 120, thereby preventing the light rays emitted from the LED 110 from being upwardly irradiated. The shield part 124 is formed in a curved surface formed at a predetermined curvature in the upper portion of the center side behind the lens 120. The LED 110 is disposed inside the shield 124.

The shield part 124 has a predetermined curvature in order to reflect the light rays emitted from the LED 110 in parallel to the irradiation part 128 described later. The shield 124 is preferably a curved surface with the focus on the point where the LED 110 is located. The curved surface of the shield 124 may be a parabolic surface.

Shield 124 is coated with a light reflecting material over the entire surface. Here, the light reflecting material may be aluminum.

The irradiator 128 reflects the light reflected by the shield 124 forward. The irradiator 128 is formed at the rear side of the lower side of the lens 120. The radiator 128 totally reflects the light reflected by the shield 124 toward the front of the vehicle by using the total reflection phenomenon of the light beam.

Here, the shield 124 and the irradiation unit 128 may be spaced apart by a predetermined distance depending on the size of the headlamp. In this case, the spaced distance may vary according to the size of the headlamp. In addition, the part spaced apart is produced by the transmission surface.

The total reflection of light rays is a phenomenon in which light incident at an angle of incidence greater than a certain critical angle is reflected 100% without refraction when light travels from an optically dense medium to a small medium.

The irradiator 128 is formed at a critical angle at which a total reflection of the light beam is generated at one rear lower side of the lens fixing part 123. The irradiation unit 128 is mounted on the front of the vehicle and irradiates light forward, thereby illuminating a traveling direction of the vehicle.

In this embodiment, the irradiation part 128 is disposed below the shield part 124 vertically, but the shield part 124 and the irradiation part 128 may be disposed at different angles depending on the shape of the headlamp.

According to the figure, the cross-sectional shape of the irradiation part 128 is in the form of a flat plate, but it is preferable that the left and right bend at a predetermined curvature in order to facilitate the irradiation of light to the front left and right.

The present invention configured as described above operates as follows.

When a user turns on a switch of a headlamp (not shown), power of an external (vehicle battery) is applied to the LED 110, and the LED 110 emits light.

Again, referring to FIG. 4, the light rays emitted from the LEDs 110 are irradiated forward and upward and downward. Here, the light beam irradiated toward the shield portion 124 is reflected by the shield portion 124. The surface of the shield 124 is coated with a reflective material such as aluminum to reflect the light emitted from the LED 110 with a reflection efficiency of 80 to 90%.

Here, the LED 110 is located on the focal point of the curved surface (parabolic surface) forming the shield portion 124, so that the light rays emitted from the LED 110 are reflected by the shield portion 124, and forms a parallel beam of light. .

Subsequently, the light rays reflected by the shield portion 124 reach the irradiation portion 128 disposed below the shield portion 124 and then are reflected toward the front side by the total reflection of the light rays at the irradiation portion 128. In the total reflection phenomenon of the light source, since the reflection efficiency is 100%, the light rays reflected by the shielding portion 124 are used for the entire amount of forward irradiation without loss in the irradiating portion 128.

On the other hand, the light rays emitted from the upper portion of the light rays emitted from the LED 110, that is, toward the shield portion 124 is reflected by the shield portion 124 to the irradiating portion 128, but the light rays irradiated toward the front side condensing portion 122 Irradiated forward). Since the LED 110 is located at the focal point of the light collecting part 122, the light rays emitted from the LED 110 may pass through the light collecting part 122 and may be irradiated forward in parallel with respect to the central axis of the light collecting part 122. have.

In addition, the light beam irradiated downward is reflected by the irradiation unit 128 and irradiated forward. Here, the light rays radiated downward may be irradiated forward through the lens fixing part 123 around the light collecting part 122.

According to the present invention configured as described above, the light rays emitted from the light source of the headlamp of the vehicle is reflected by the shield unit 124 to block the upper irradiation of the light beams, the light beams reflected from the shield unit 124 is a light beam from the irradiation unit 128 By using the total reflection of the to be irradiated to the front of the vehicle to improve the light efficiency.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. The true technical protection scope of the invention should be defined by the technical spirit of the appended claims.

100: LED headlight
102: headlight case
110: LED
120 lens

Claims (6)

As a vehicle LED headlight mounted on the front of the vehicle to irradiate light forward,
Headlight case;
An LED installed on one side of the headlight case; And
A lens installed at the front side of the LED to focus the light emitted from the LED and irradiate it forward; Including,
The lens is a light collecting unit for focusing and irradiating some of the light rays emitted from the LED in front,
A shield unit for reflecting a part of the light emitted from the LED to one side;
LED headlights for a vehicle including an irradiation unit for irradiating the light reflected from the shield to the front of the vehicle. The method of claim 1,
LED shield of the vehicle is formed in a curved surface with the focusing position of the LED arrangement. The method of claim 2,
LED curved headlights include a parabolic surface. The method according to claim 2 or 3,
LED headlights for the shield is coated with a light reflection material. 5. The method of claim 4,
The LED reflector is a vehicle LED headlamp containing aluminum. The method of claim 1,
The LED headlight for a vehicle for irradiating the light beam forward by the total reflection phenomenon of the light.

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