KR100347767B1 - Aperture Control Device of LASER Generator - Google Patents

Abstract

An opening control apparatus for a laser oscillator is disclosed.

The disclosed opening control device includes: a housing installed to be reciprocated a predetermined distance in a first direction with respect to a base; A first adjusting block and a second adjusting block which are installed in the housing independently in a first direction and in a second direction perpendicular to the first direction; First and second beam through tubes installed in each of the first and second control blocks; A power source reciprocating the housing a predetermined distance in a first direction; First and second positioning parts for determining first and second positions of the housing by the power source; First and second block position adjusting units for adjusting positions of the first control block and the second control block with respect to the housing; Equipped.

Therefore, not only the laser beam having a different diameter can be selected internally, but also the diameter of the laser beam can be changed by simple operation from the outside without replacing parts. Therefore, in some cases, the diameter of the laser beam can be changed while the laser beam is oscillated.

Description

Aperture Control Device of LASER Generator

The present invention relates to an opening control device of a laser oscillator, and more particularly to an opening control device of a laser oscillator that can select two modes.

As shown in FIG. 1, the laser generating apparatus includes a resonance area provided by two mirrors 1 and 2, a laser medium 3, and a laser medium in the resonance area. It has a structure in which a light source 4 for exciting a laser medium is provided adjacent thereto. An opening limiting portion 5 is provided between the laser medium 3 and each of the mirrors 1 and 2.

Of the two mirrors 1 and 2 forming the resonance region, one is a rear mirror as a total reflection mirror and the other is a front mirror as a half mirror through which some light passes. .

The laser beam actually used is output from the front mirror 2, and this laser output is used after being optically controlled according to the use.

The opening limiting section 5 limits the opening of the laser beam resonating in the resonance region to determine the diameter of the laser beam. The limitation of the opening of the laser beam is to remove the skirt portion around the laser beam having a weak intensity from the Gaussian distribution of the resonant laser as shown in FIG. Select (c, laser beam flux).

The opening limiting portion 5 has a structure as shown in FIG. 3A. 3A is a schematic cross-sectional view of the opening limiting section 5, and FIG. 3B is a perspective view showing a moving block 54 and a beam passing tube 55 to which one part of the opening limiting section 5 is coupled.

3A and 3B, a housing 52 in which the moving block 54 is accommodated is provided on the base 51. A beam passage tube 55 through which the laser beam passes in the resonance region is coupled to the movable block 54, and an inner diameter of the beam passage tube 55 has a value corresponding to the diameter of the laser beam. The movable block 54 is elastically biased by the springs 53a and 53b in the horizontal and vertical direction in the housing 52, and the springs 53a and 53b are opposite to the springs 53a and 53b. Adjusting screws 56a and 56b for supporting the movable block 54 are provided. The screws 56a and 56b adjust the vertical and horizontal positions of the moving block 54 in the housing 52 so that the beam passing tube 55 is positioned on the traveling axis of the laser beam.

Since the conventional opening limiting part 5 as described above determines the diameter of the laser beam resonated by the inner diameter of the beam passing tube 55, when the diameter of the laser beam needs to be changed, After opening, the beam passing tube 55 installed in the moving block 54 should be replaced.

Therefore, the conventional opening limiting part has a drawback of going through the process of opening the housing, replacing the beam passage, closing the housing, and modifying the position of the adjustment block when the diameter of the laser beam needs to be changed. In particular, the replacement of the beam through tube as described above should be made in the state that the laser oscillation is stopped.

It is a first object of the present invention to provide an opening control apparatus for a laser oscillator that can easily change the diameter of a laser beam without disassembling the housing.

A second object of the present invention is to provide an opening control apparatus for a laser oscillator that can change the diameter of the laser beam even without stopping the laser oscillation.

1 is a schematic diagram of a laser oscillator.

2 is a Gaussian distribution diagram of a laser beam generated in a laser oscillator.

3A is a schematic cross-sectional view of a conventional aperture control apparatus applied to a laser oscillator.

Figure 3b is an exploded perspective view of the control block of the conventional opening control device shown in Figure 3a.

Figure 4 is a schematic perspective view of a preferred embodiment according to the opening control device of the laser oscillator of the present invention.

5 is a schematic front view of the opening control apparatus of the present invention shown in FIG.

6 is a schematic plan view of the opening control apparatus of the present invention shown in FIG.

7 is a schematic exploded perspective view of a housing applied to the opening control apparatus of the present invention shown in FIG.

8 is a schematic exploded front view of a housing applied to the opening control apparatus of the present invention shown in FIG.

FIG. 9 is a schematic front view showing a state in which the housing in which the beam passage is installed is biased to the left side in the opening control apparatus of the present invention shown in FIG. 4.

FIG. 10 is a schematic front view showing a state in which the housing in which the beam passage is installed is biased to the right in the opening control device of the present invention shown in FIG. 4.

According to the present invention to achieve the above object,

A base;

A housing installed to reciprocate a predetermined distance in a first direction with respect to the base;

A first adjustment block and a second adjustment block which are installed in the housing and are independently movable in a second direction perpendicular to the first direction and the first direction;

First and second beam through tubes installed in each of the first and second control blocks;

A power source reciprocating the housing a predetermined distance in a first direction;

First and second positioning parts for determining first and second positions of the housing by the power source;

First and second block position adjusting units for adjusting positions of the first control block and the second control block with respect to the housing; An aperture control apparatus for a laser oscillator is provided.

In the present invention, the housing is preferably supported by the rail installed on the base and guided reciprocating movement, linear bearing supported on the rail in the lower portion of the housing to help the movement of the housing more smoothly It is preferable to be installed.

In addition, the base is provided with side walls located on both sides of the housing in the movement direction, and one side wall is provided with a bolt-shaped first stop element as a first positioning unit for limiting the movement distance to one side of the housing, and one side of the housing. It is preferable that the bolt-shaped second stop element is provided in the side wall opposite to the other side wall.

On the other hand, the housing is provided with a spring that is elastically supported at the lower portion of each of the first and second control block, the upper portion of the housing by pressing the upper portion of each of the first and second control block, the first and second As the first and second block position adjusting unit for adjusting the height of the adjusting block, it is preferable that the bolt-type first and second adjusting knobs are installed.

Preferably, the power source is a pneumatic cylinder with a drive shaft reciprocating in the first direction, and the drive shaft is mechanically connected to the housing by a universal joint.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the opening control device of the laser oscillator of the present invention will be described in detail.

Figure 4 is a schematic perspective view of the opening control device of the laser oscillator of the present invention, Figure 5 is a front view with some components omitted, Figure 6 is a plan view.

4 to 6, side walls 501a, 501b, and 501c are provided along the upper edge of the base 500, and the rail 502 is disposed on the upper surface of the base 500 in the first direction. On the rail 502, a housing 520 is moved below the rail 502 along the rail 502 by a linear bearing 510.

On the rear side of the housing 520, a power source 540, for example, a pneumatic cylinder, is provided to provide power for linear reciprocation of the housing 520.

A bolt-shaped first stop element 504 is positioned on the side wall 501a opposite to the movement direction of the housing 520 as a first positioning unit for limiting a moving distance of the housing 520. The locking nut 504a is coupled to the stop element 504. One side of the housing 520 is provided with a second stop element 505 opposite the side wall 502b opposite the side wall 501a as a second positioning unit. The first stop element 504 and the second stop element 505 determine a top dead center and a bottom dead center of the housing 520, and have a kind of bolt structure. The second stop element 505 is screwed to the fixed rod 506 fixed to one side of the housing 520, the locking rod 506 to the locking bolt to prevent the movement of the second stop element 505 506 is coupled.

In front of the housing 520, first and second through holes 521a and 521b at predetermined distances arranged in the first direction are formed, and the beam through pipes 550a and 550b are exposed therein. The beam passing tubes 550a and 550b are adjusted to the traveling axis of the laser beam by adjusting the heights of the first and second adjustment blocks, which will be described later, on which the beam passing tubes 550a and 550b are fixed. The first and second adjusting knobs 530a and 530b to be matched are combined. And corresponding to the first and second adjustment knobs (530a, 530b), the locking bolt 531a for preventing movement of each of the first and second adjustment knobs (530a, 530b) on the upper side of the front of the housing 520. , 531b) is combined.

Referring to FIG. 6, an L-shaped bracket 521 is fixed to the rear of the housing 520, and is connected to the drive shaft 541 of the power source 540 of the bracket 521 by a universal joint 542. have. In the drawings, reference numerals 543a and 543b denote nipples connected to the power source 540. In this case, the universal joint 542 may be operated even when the moving direction of the housing 520 by the rail 502 and the driving shaft 541 of the power source 540 are misaligned. It is delivered to the housing 520 and is very effective for the housing 520 to move normally.

7 is an exploded perspective view of the housing 520, and FIG. 8 is a front view illustrating an internal structure of the housing 520.

Referring to FIGS. 7 and 8, the housing 520 may include a main body 524 having first and second spaces 524a and 524b in which the first and second adjustment blocks 522a and 522b may move up and down. A cover 528 is provided to close the space. First and second through holes 521a and 521b through which the first and second beam through tubes 550a and 550b pass are formed at the bottoms of the first and second spaces 524a and 524b. The first and second magnets 526a and 526b for generating attraction force to the bottom of the first and second spaces 524a and 524b by the magnetic force are fixed to the first and second adjustment blocks 522 and 523. It is.

Widths of the first and second spaces 524a and 524b are such that the first and second control blocks 522a and 522b can move in the vertical direction, and the heights of the first and second spaces 524a and 524b are 527a and 527b. The first and second adjustment blocks 522a and 522b elastically biased by the first and second adjustment blocks 530a and 530b allow vertical movement of a predetermined distance.

Each of the first and second control blocks 522a and 522b has first and second coupling holes 523a and 523b to which the first and second beam passing tubes 500a and 500b are coupled.

The cover 528 corresponds to the first and second beam through pipes 500a and 500b and the first and second coupling holes 523a and 523b of the first and second control blocks 522a and 522b, respectively. Beam through holes 528a and 528b are formed and are coupled to the main body 524 by fastening bolts 529.

In the opening control apparatus of the present invention as described above, one of the two beam passing tubes 550a and 550b is selectively positioned according to the position of the housing 520 to change the diameter of the laser beam. .

The present invention reciprocates the housing on which the two beam passing tubes 550a and 550b are mounted along the rail 502 arranged in the first direction. In the case where the beam passing tubes 500a and 500b are coaxially aligned on the traveling axis of the beam, the adjustment in the first direction is first controlled by the first and second stop elements 504 and 505, and the first direction. Height adjustment in the second direction perpendicular to the second is made by the first and second adjustment knobs 530a and 530b.

For example, when adjusting with respect to the first and second directions of the first beam passing tube 500a, the housing is first driven by the power source 540 so that the first beam passing tube 500a is positioned on the laser beam propagation path. After positioning 520 to the right as shown in FIG. 9, the first stop element 504 is adjusted to adjust the position in the first direction, that is, the horizontal direction, and to the first beam passing tube 500a. Adjust the corresponding first adjustment knob (530a) in the vertical position. When the position adjustment for the first beam through tube 500a is completed as described above, the locking bolt 531a corresponding to the first adjustment knob 530a is tightened to firmly fix the first adjustment knob 530a. Then, the locking nut 504a corresponding to the first stop element 504 is tightened to fix the first stop element 504.

In addition, when adjusting the position of the second beam through tube 500b, the housing 520 is illustrated in FIG. 10 by the power source 540 so that the second beam through tube 500b is positioned on the laser beam path. After positioning to the left as shown, the second stop element 505 is adjusted to adjust the position in the first direction, that is, the horizontal direction, and the second adjustment knob 530b corresponding to the second beam through tube 500b. ) To adjust the vertical position. In this manner, when the position adjustment for the second beam through tube 500b is completed, the locking bolt 531b corresponding to the second adjustment knob 530b is tightened to firmly fix the second adjustment knob 530b. Then, the locking bolt 506 corresponding to the second stop element 505 is tightened to fix the second stop element 505.

In the above manner, the positions of the first beam passing tube 550a and the second beam passing tube 550b are set, and different diameters are selectively changed by the operation of the power source 540 in a state where the laser beam oscillator is mounted. The branch can obtain a laser beam.

The present invention as described above is not only able to select a laser beam having a different diameter internally, it is also possible to change the diameter of the laser beam by a simple operation from the outside. Therefore, in some cases, the diameter of the laser beam can be changed while the laser beam is oscillated. According to the opening control apparatus of the present invention which selects the two laser beams as described above, the inconvenience of disassembling the housing or replacing the beam passage tube in the state where the laser oscillation is stopped is eliminated as in the prior art.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only in the appended claims.

Claims (13)

A base; A housing installed to reciprocate in a first direction with respect to the base; A first adjustment block and a second adjustment block which are installed in the housing and are independently movable in a second direction perpendicular to the first direction and the first direction; First and second beam through tubes installed in each of the first and second control blocks; A power source reciprocating the housing in a first direction; First and second positioning parts for determining first and second positions of the housing by the power source; First and second block position adjusting units for adjusting positions of the first control block and the second control block with respect to the housing; Aperture control device of a laser oscillator, characterized in that provided. The method of claim 1, An opening control device for a laser oscillator, characterized in that a rail for guiding the movement of the housing is provided on the base. The method of claim 2, The lower portion of the housing is provided with a linear bearing which is supported by the rail and guides the reciprocating motion of the housing. The method according to any one of claims 1 to 3, The base is further provided with at least two side walls located on both sides of the movement direction of the housing, And a bolt-type first stop element provided on one side of the side walls as the first positioning unit for limiting a moving distance to one side of the housing. 5. An opening control apparatus for a laser oscillator according to claim 4, wherein one side of the housing is further provided with a bolt-shaped second stop element as a second positioning portion facing the other side wall of the side walls. The method according to any one of claims 1 to 3, The housing further includes a spring for elastically supporting the lower portion of each of the first and second adjustment blocks, the upper portion of the housing by pressing the upper portion of each of the first and second adjustment blocks, the first and second adjustment blocks An opening control apparatus for a laser oscillator, characterized in that the first and second block position adjusting portions for adjusting the height of a block are provided with bolted first and second adjusting knobs. The method of claim 4, wherein The housing further includes a spring for elastically supporting the lower portion of each of the first and second adjustment blocks, the upper portion of the housing by pressing the upper portion of each of the first and second adjustment blocks, the first and second adjustment blocks An opening control apparatus for a laser oscillator, characterized in that the first and second block position adjusting portions for adjusting the height of a block are provided with bolted first and second adjusting knobs. The method according to any one of claims 1 to 3, The power source is a pneumatic cylinder to the drive shaft reciprocating in the first direction, And the drive shaft is mechanically connected to the housing by a universal joint. The method of claim 4, wherein The power source is a pneumatic cylinder to the drive shaft reciprocating in the first direction, And the drive shaft is mechanically connected to the housing by a universal joint. The method of claim 8, The power source is a pneumatic cylinder to the drive shaft reciprocating in the first direction, And the drive shaft is mechanically connected to the housing by a universal joint. The method of claim 5, The housing further includes a spring for elastically supporting the lower portion of each of the first and second adjustment blocks, the upper portion of the housing by pressing the upper portion of each of the first and second adjustment blocks, the first and second adjustment blocks An opening control apparatus for a laser oscillator, characterized in that the first and second block position adjusting portions for adjusting the height of a block are provided with bolted first and second adjusting knobs. The method of claim 5, The power source is a pneumatic cylinder to the drive shaft reciprocating in the first direction, And the drive shaft is mechanically connected to the housing by a universal joint. The method of claim 7, wherein The power source is a pneumatic cylinder to the drive shaft reciprocating in the first direction, And the drive shaft is mechanically connected to the housing by a universal joint.