KR100257401B1 - Output controlling laser beam generator - Google Patents

Abstract

PURPOSE: An output controlling laser beam generator is provided to generate a laser beam of high power and high quality by unifying several laser beams generated simultaneously from independent laser beam generating units. CONSTITUTION: A plurality of laser media are disposed in rows parallel with each other. Pumping lamps are provided at a portion of the respective laser media for supplying an energy to the media. A reflecting substance(22) surrounds the each laser medium and pumping lamp set, and is included in a chamber(20). Front reflecting mirrors(10) and output mirrors(12) are respectively disposed at the front and rear of the chamber(20) correspondingly to the axial direction of the laser medium. In order to refract the beams from the output mirrors(12) along the predetermined paths, prisms(24) or mirrors are disposed correspondingly to the laser media or the output mirrors(12). The laser medium is selected from the group consisting of Nd:YAG, Nd:Glass and ruby.

Description

Power Adjustable Laser Light Generator

The present invention relates to a laser (laser) generating device, and more particularly to an output-controlled laser light generating device combining a plurality of independent laser light generating unit.

Laser light does not exist in nature and is a special light artificially created by humans. Laser (LASER), which is one of the greatest inventions of the century, is a short abbreviation for Light Amplification by Stimulated Emission of Radiation, which means light amplification by induced emission.

After the development of lasers, the industry using laser light is rapidly spreading. For example, it is widely used in various fields such as optical communication, photochemical industry, metal industry, machining technology, civil construction technology, medical technology, information processing technology, and environmental measurement technology. For example, semiconductor lasers are used in optical fiber communication, compact disc players, and the like, and their applications are further expanded.

In particular, as a high power laser, a carbon dioxide laser (CO ₂ laser) and YAG laser is widely used in all industries such as electronic, mechanical, aviation, automotive. The YAG laser is obtained by supplying energy to a laser medium in which Nd ⁺⁺ is added to the combined crystals of Yttrium, Aluminum and Garnet.

In general, in order to increase the output of the laser light, it is necessary to increase the size of the laser medium used in the laser light generator. However, when the laser medium is a solid, such as Nd: YAG laser, it is difficult to manufacture the medium to a certain extent due to the performance problems arising from the medium itself. Therefore, in order to increase the output of the laser light, several small laser media are connected and arranged in series.

1 is a view schematically showing the configuration of a laser light generating apparatus according to the prior art when the laser medium is a solid.

Referring to the drawings, the conventional laser light generating apparatus, a plurality of solid-state laser medium 14 connected in series, a total reflection mirror 10 is provided on one side of the laser medium 14, and the total reflection mirror 10 And an output mirror 12 located opposite to and a pumping lamp 16 for supplying energy to the laser medium 14.

In the conventional laser light generating apparatus as described above, induction emission of light occurs in the laser medium 14 applied with energy from the pumping lamp 16, and the light generated by the induction emission is total reflection mirror 10 and output. The light intensity increases as the light is repeatedly reflected between the mirrors 12. Subsequently, when an increase in light intensity that can overcome the loss occurring in each mirror surface is accompanied, laser oscillation is started and laser light 18 is generated through the output mirror 12.

On the other hand, since the output of the laser light is proportional to the length of the laser medium, in order to obtain a high power laser light, a plurality of laser medium has been used in series arrangement. However, since the laser medium rises to a very high temperature during induction emission, the higher the laser light output, the higher the heat generated in the medium. Therefore, high-quality laser light cannot be obtained due to the thermal lens effect generated in the laser medium itself and the thermal expansion of the laser medium due to the high temperature applied to the laser medium.

The thermal lens effect is a major cause of increasing the divergence angle of the laser light. In other words, when the laser output increases, the temperature increases, and when the temperature rises above a certain threshold, the laser medium functions as if it is a lens. Therefore, the thermal lens effect is caused to increase the divergence angle of the generated light, it is impossible to obtain a high quality laser light with an output above a certain limit. Increasing the divergence angle of the laser light results in poor machinability.

In addition, the conventional high-power laser light generating device has a very high light intensity of light generated in the laser medium, and therefore, there is a risk of damage to the total reflection mirror and the output mirror located on both sides of the laser medium by the laser light generated from the laser medium.

As a result, the conventional laser light generating apparatus used by connecting a plurality of laser media in order to obtain a high output laser light, there is a problem that can not obtain a high output high-quality laser light by the heat generated excessively in the laser medium itself.

The present invention has been made to solve the above problems, by constructing a plurality of independent laser light generating units each having a single laser medium, generating a plurality of laser light at the same time, the generated laser light is a separate optical path It is an object of the present invention to provide a laser light generating device that generates a high-power, high-quality laser light with a small light divergence angle by bringing them together through an adjusting means.

1 is a view showing the configuration of a laser light generating apparatus according to the prior art;

2 is a view showing the configuration of an output adjustable laser light generating apparatus according to a first embodiment of the present invention;

3 is a view showing the configuration of an output adjustable laser light generating apparatus according to a second embodiment of the present invention;

Figure 4 shows a longitudinal section of the chamber according to each of the above embodiments of the present invention.

<Explanation of symbols for main parts of drawing>

10: total reflection mirror 12: output mirror

14: laser medium 16: pumping lamp

18: laser light 20: chamber

22: Reflective body 24: Prism

30: Mirror

In order to achieve the above object, the present invention comprises: a plurality of laser media are arranged in parallel with each other in parallel with each other; A pumping lamp provided at the side of each laser medium to supply energy to the laser medium and constituting a set with the laser medium; A reflector surrounding each of the laser media and the pumping lamp set; A chamber including the reflector therein; A total reflection mirror and an output mirror disposed to correspond to the axial direction of the laser medium in front of and behind the chamber, respectively; It characterized in that it comprises an optical path control means for adjusting the path of the laser light generated through the output mirror.

The reflector includes a laser medium and a pumping lamp therein, and a material of ceramic or quartz is used. The cross-sectional shape of the reflector is preferably a symmetrical oval to maximize the efficiency of the pumping lamp.

In addition, the optical path adjusting means is a plurality of prisms arranged to be able to refracted light output through the output path along a predetermined path, or arranged to reflect the light output through the output path along a predetermined path. It is characterized by a plurality of mirrors.

Hereinafter, the present invention will be described in more detail with reference to the embodiments shown in the accompanying drawings.

2 is a power adjustable laser light generating apparatus according to a first embodiment of the present invention, and FIG. 4 includes a reflector 22 surrounding a laser medium 14 and a pumping lamp 16 of the laser light generating apparatus. It is a figure which shows the cross section of the chamber 20.

The laser light generating apparatus in this embodiment includes four laser light generating units and a plurality of prisms 24 for adjusting an optical path provided on the output side of the generating unit. In addition, although the cross section of the chamber 20 is applied in a circular shape, the cross section of the chamber 20 may have a different shape if necessary.

The laser light generating unit is a laser light generator composed of a laser medium, a pumping lamp, an output mirror and a total reflection mirror.

Each of the plurality of laser light generating units includes a laser medium 14 which is a component of a conventional laser light generating device, a pumping lamp 16 parallel to the laser medium and supplying excitation energy, and a total reflection mirror ( 10) and an output mirror 12, wherein the laser medium 14 and the pumping lamp 16 are installed in the reflector 22, respectively, as shown in FIG. In this state, the plurality of reflectors 22 are installed inside the chamber 20, and the total reflection mirror 10 and the output mirror 12 are formed on the axis of the laser medium 14 in front and rear sides outside the chamber 20. Are installed so as to correspond to Each laser light generating unit is independent of each other, and the number of installations can be freely determined. In addition, if necessary, by adjusting the operation number of the laser light generating unit, it is possible to adjust the output of the laser light.

On the other hand, the reflector 22 is preferably used to coat the silver (high) reflectivity is high by processing the outer wall of the quartz block in an elliptical shape. This silver coating and elliptical structure make it possible to more efficiently transfer the energy from the pumping lamp 16 to the laser medium 14. That is, by forming two holes in the geometric focus of the elliptical cross-section of the reflector 22 and inserting the laser medium 14 and the pumping means 16 into each hole, more effective excitation can be provided. The laser medium applies Nd: YAG. The laser medium can be applied to any solid laser medium such as Nd: YAG as well as Nd: Glass or Ruby. As the pumping lamp, an arc lamp or flash lamp can be used.

The optical path control means is composed of a plurality of prisms 24, and each laser light outputted in parallel from the plurality of laser light generating units is collected in close proximity to each other through the prism 24. The prism 24 aligns a plurality of prisms having the same characteristics with respect to one laser light such that the first incident surface and the last exit surface are parallel, so that only the direction of travel can be parallelized without affecting other characteristics of the laser light. have. Therefore, by passing each laser light output from each laser light generator unit through a plurality of prisms, it is possible to bring the laser light of a high output with a small beam divergence angle closer together in a predetermined area. In addition, if necessary, by controlling the operation of the laser light generating unit, it is possible to adjust the output of the laser light.

3 is a view schematically showing the configuration of an output type laser light generating apparatus according to a second embodiment of the present invention.

Referring to the drawings, it can be seen that the configuration of this embodiment is very similar to that of the first embodiment. Instead of the prism 24 used in the first embodiment, the mirror 30 was used in this embodiment.

The laser light generated from each laser light generating unit is collected into one by a plurality of mirrors provided in the output unit. That is, in order to collect the multiple laser light generated from the plurality of laser light generating units, by appropriately disposing a mirror capable of reflecting the laser light 100%, while maintaining the characteristics of the multi-laser light, the beam divergence angle is small High power laser light can be obtained. In addition, by adjusting the operation number of the laser light generating unit, if necessary, the output of the laser light can be adjusted.

The present invention has been described in detail with reference to specific embodiments, but the present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. It is possible.

As described above, the output-controlled laser light generating apparatus of the present invention comprises a plurality of independent laser light generating units each having a single laser medium, so as to generate a plurality of laser light having a small light divergence angle, and separately By gathering them together through the optical path control unit, high power and high quality laser light with a small light divergence angle can be generated, and by adjusting the number of operation of the plurality of laser light generating units, the output can be adjusted to accommodate various processing needs. It has the advantage of being able to cope with the enemy.

Claims (5)

A plurality of laser media positioned in parallel with each other and configured to be parallel to each other; A pumping lamp provided at the side of each laser medium to supply energy to the laser medium and constituting a set with the laser medium; A reflector surrounding each of the laser media and the pumping lamp set; A chamber including the reflector therein; A total reflection mirror and an output mirror disposed to correspond to the axial direction of the laser medium in front of and behind the chamber, respectively; And an optical path adjusting means for adjusting a path of the laser light generated through the output mirror. The laser beam of claim 1, wherein the optical path control means is a prism disposed to correspond to a laser medium or an output path, respectively, so that the light output through the output path can be refracted along a predetermined path. Light generating device. The laser beam of claim 1, wherein the optical path adjusting means is a laser medium or a mirror disposed to correspond to the laser medium or the output mirror so as to reflect light output through the output mirror along a predetermined path. Light generating device. The laser beam generator of claim 1, wherein the laser medium is one selected from the group consisting of Nd: YAG, Nd: Glass, and ruby. The laser beam generator of claim 1, wherein the reflector is made of ceramic or quartz, and the pumping lamp is an arc lamp or a flash lamp.

Images