KR101628454B1 - Laser optical system for head lamp - Google Patents

Abstract

The present invention relates to a laser optical system for a headlamp, in which a laser diode (10) and a phosphor (30) are provided in an inner space of an arc-shaped main reflector (30) So that the light efficiency can be greatly improved.

Description

TECHNICAL FIELD [0001] The present invention relates to a laser optical system for a headlamp,

The present invention relates to a laser optical system for a headlamp, and more particularly, to a laser optical system for a headlamp capable of increasing optical efficiency through minimization of optical loss and increasing design freedom through size reduction of the optical system.

A headlamp (headlight) of a vehicle is a lamp which illuminates the front for securing the front view of the driver, and usually uses halogen, HID (high intensity discharge) and LED diode as a light source.

However, since halogen, HID, LED diodes, etc. have high power consumption, there is a disadvantage in that the light efficiency is low, and in particular, the entire optical system including the light source and the lens is large, so that the degree of design freedom is low and the weight is heavy.

In recent years, headlamps that are environmentally friendly, have a long lifetime, and use laser diodes with high optical efficiency as a light source are being developed.

1, a conventional laser optical system for a head lamp includes a laser diode 1 for generating a laser beam of a blue wavelength band, a laser diode 1 for positioning the laser diode 1 on the front surface of the laser diode 1, A phosphor 3 that reacts with the light output from the laser diode 1 to output white light, a reflector 4 that reflects the white light output from the phosphor 3 forward, And a heat sink 5 for radiating heat generated by the heat sink 5 to the outside.

However, in the conventional laser optical system, the laser diode 1 is located outside the reflector 4, and in order to set the incident path 6 of the laser beam on the phosphor 3, It is necessary to apply the hole 7, which causes a part of the light output through the phosphor 3 to be lost in the hole 7, resulting in a loss of light, resulting in a decrease in the light efficiency.

Particularly, when a plurality of laser diodes 1 are applied, the number of holes 7 is increased by the number of laser diodes 1 or the size of the holes 7 is increased, so that optical loss is further increased, .

Further, when the laser diode 1 is located outside the reflector 4, the size of the optical system in the vertical direction is increased, which is disadvantageous in weight increase, cost increase, and design freedom.

As another example of the conventional laser optical system, US2012-0106178A1 has a structure in which a laser diode is fixed to a reflector through a reflector. However, in this case as well, disadvantages as shown in FIG. 1 occur.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

Japanese Unexamined Patent Application Publication No. 2012-099284

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to eliminate the occurrence of optical loss when light emitted from a laser diode is forwardly output through a phosphor, And it is an object of the present invention to reduce the weight of the optical system, to reduce the weight, to reduce the cost, and to increase the degree of design freedom.

According to an aspect of the present invention, there is provided a laser optical system for a headlamp including: a laser diode for generating a laser beam; A phosphor that reacts with the laser beam to output white light; And a main reflector for forwardly reflecting the white light output from the phosphor; And the laser diode and the phosphor are located in an inner space of the main reflector.

And a beam reflector fixed to the main reflector and having a reflecting surface for reflecting the laser beam with the phosphor.

A PCB substrate for controlling supply of current to the laser diode by fixing the laser diode; A heat sink for transferring heat generated from the laser diode and the phosphor to the outside to dissipate heat, the phosphor being fixed to the main reflector and the PCB substrate; And a lens positioned on the front surface of the laser diode and condensing the laser beam.

Wherein the beam reflector is fixedly installed at a front end portion of the main reflector; And the laser diode and the phosphor are disposed on the lower side of the reflective surface and on the front side and the rear side, respectively, with respect to the reflective surface.

The laser diode is composed of one or a plurality of laser diodes; Wherein the reflective surface is formed in the same number as the laser diode; And the plurality of laser diodes are fixed on the same plane of the PCB substrate when the laser diodes are composed of a plurality of laser diodes.

In the case where the laser diode is composed of a plurality of laser diodes, the paths of the beams from the laser diode to the phosphor are not overlapped with each other.

And the reflective surface is formed to be perpendicular to a reference line having an axis at an intermediate value of the angle formed by the incident light and the emitted light of the laser beam with respect to the reflective surface.

The reflective surface is characterized in that the reflective film or the mirror serves to reflect the laser beam.

According to the present invention, since the laser diode and the phosphor are provided in the inner space of the main reflector formed in an arc shape, it is possible to eliminate the phenomenon that the light loss occurs when the white light output through the phosphor is forwardly reflected through the main reflector The light efficiency can be greatly increased, and in particular, the size of the optical system can be reduced, thereby reducing the weight, reducing the cost, and improving the degree of freedom in design.

1 is a view of a laser optical system for a conventional head lamp,
Fig. 2 is a perspective view of a laser optical system for a headlamp according to an embodiment of the present invention composed of one laser diode,
Fig. 3 is a sectional view of Fig. 2,
4 is a perspective view of a laser optical system for a headlamp according to another embodiment of the present invention having a plurality of laser diodes,
5 is a cross-sectional view of Fig. 4,
6 is a view for explaining conditions for forming a reflecting surface according to the present invention.

Hereinafter, a laser optical system for a head lamp according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The laser optical system for a head lamp according to the present invention includes a laser diode 10 for generating a laser beam of a blue wavelength (usually a short wavelength of 450 nm) as shown in FIGS. 2 to 6; A phosphor 20 which reacts with the laser beam to output white light; And a main reflector (30) for forwardly reflecting the white light output from the phosphor (20). The laser diode 10 and the phosphor 20 are disposed in an inner space of the main reflector 30.

The main reflector 30 has a circular arc shape and the laser diode 10 and the fluorescent material 20 are located in an inner space of a circular arc formed by the main reflector 30, Holes may not be formed in the main reflector 30 as in the prior art in order to set the incident path of the laser beam from the phosphor 20 to the phosphor 20, It is possible to eliminate the disadvantage that a part of the white light outputted through the light source is lost. As a result, the optical efficiency can be increased by minimizing the light loss.

In addition, when the laser diode 10 and the fluorescent material 20 are positioned in the inner space of the arc formed by the main reflector 30, the size of the optical system in the vertical direction can be greatly reduced, thereby reducing weight, There is also an advantage to increase.

Since the laser diode 10 and the phosphor 20 are installed in the inner space of the arc formed by the main reflector 30, in order to set an incident path of the laser beam from the laser diode 10 to the phosphor 20, And further includes a beam reflector 40 having a reflecting surface 41.

The beam reflector 40 is fixed to the front end of the main reflector 30 and may be integrally formed with the main reflector 30 or may be separately manufactured from the main reflector 30, It may be a structure combined with the main reflector 30.

The reflecting surface 41 is provided on the inner surface facing the laser diode 10 and the phosphor 20 in the beam reflector 40. The reflecting surface 41 may be a reflective film or a mirror for enhancing the reflection efficiency of the laser beam. ). ≪ / RTI >

In order to set the path of the laser beam from the laser diode 10 to the phosphor 20, the present invention is characterized in that the laser diode 10 and the phosphor 20 are positioned below the reflecting surface 41, 41, respectively, as shown in FIG.

In addition, the present invention may include a PCB substrate 50 to which the laser diode 10 is fixed and controls supply of current to the laser diode 10; A heat sink 60 for transferring heat generated from the laser diode 10 and the phosphor 20 to the outside by fixing the phosphor 20, the main reflector 30, and the PCB substrate 50, ; And a lens 70 positioned on the front surface of the laser diode 10 and condensing the laser beam.

The laser diode 10 according to the present invention may be constituted as one as in the embodiment of FIGS. 2 to 3 or may be composed of a plurality of laser diodes 10 as in the other embodiments of FIGS. 4 to 5, And the plurality of laser diodes 10 are formed in the same number as the number of the laser diodes 10 and the plurality of laser diodes 10 are arranged on the PCB substrate 50 are preferably fixed on the same plane.

When the laser diodes 10 are constituted of a plurality of laser diodes 10, each of the laser beams output from the laser diode 10 passes through the paths 81, 82 of the beam to the phosphors 20 And 83 are not overlapped with each other, and the optical loss can be prevented through overlap avoidance of the beam, thereby further increasing the light efficiency.

6, regardless of the number of the laser diodes 10, the reflection surface 41 according to the present invention may be formed by arranging the incident beam 84 of the laser beam and the outgoing beam The laser beam incident on the phosphor 20 is incident on the reference line C1 at a right angle with respect to the reference line C1. The incident angle? Can be further improved.

The incident light 84 is incident on the reflective surface 41 of the laser diode 10. The emitted light 85 is reflected through the reflective surface 41 and then incident on the phosphor 20 As shown in FIG.

As described above, according to the embodiment of the present invention, the laser diode 10 and the phosphor 30 constituting the optical system are provided in the form of being accommodated in the inner space of the main reflector 30 having an arc-shaped section Holes are not formed in the main reflector 30 as in the prior art in order to set an incident path of the laser beam from the laser diode 10 to the phosphor 20 and holes are not formed in the main reflector 30 It is possible to eliminate the disadvantage that a part of the white light outputted through the phosphor 20 is lost according to the light amount of the phosphor 20. As a result, the light loss can be minimized and the light efficiency can be increased.

In addition, according to the present invention, since the laser diode 10 and the phosphor 20 are located in the inner space of the arc formed by the main reflector 30, the size of the optical system in the vertical direction can be reduced, There is also an advantage that cost reduction and design freedom can be increased.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

10 - Laser Diode 20 - Phosphor
30 - Main reflector 40 - Beam reflector
41 - Reflective surface 50 - PCB board
60 - Heatsink 70 - Lens

Claims (8)

A laser diode for generating a laser beam;
A phosphor that reacts with the laser beam to output white light;
A main reflector for forwardly reflecting the white light output from the phosphor;
A beam reflector fixed to the main reflector and having a reflecting surface reflecting the laser beam with the phosphor; And
And a PCB substrate for controlling supply of current to the laser diode by fixing the laser diode;
The laser diode and the phosphor are located in an inner space of the main reflector;
The laser diode is composed of a plurality of laser diodes;
Wherein the reflective surface is formed in the same number as the laser diode;
Wherein the plurality of laser diodes are fixed on the same plane of the PCB substrate to enhance incident efficiency to the reflective surface;
Each of the laser beams output from the plurality of laser diodes does not overlap the paths of the beams to the phosphors so as to increase light efficiency by reducing light loss;
The reflective surface is formed to be perpendicular to a reference line having an axis centered on an angle formed by the incident light and the emitted light of the laser beam with respect to the reflective surface so as to improve the incidence efficiency of the laser beam incident on the phosphor Wherein the laser light source is a laser light source. delete The method according to claim 1,
A heat sink for transferring heat generated from the laser diode and the phosphor to the outside to dissipate heat, the phosphor being fixed to the main reflector and the PCB substrate; And
Further comprising a lens positioned on a front surface of the laser diode to condense the laser beam. The method according to claim 1,
Wherein the beam reflector is fixedly installed at a front end portion of the main reflector;
Wherein the laser diode and the phosphor are disposed on the lower side of the reflective surface and on the front side and the rear side, respectively, with respect to the reflective surface. delete delete delete The method according to claim 1,
Wherein the reflecting surface is such that the reflecting film or the mirror serves to reflect the laser beam.

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