KR20030022981A - Apparatus for regulating an angle of reflection degree of a laser reflection mirror - Google Patents

Abstract

PURPOSE: A reflection angle adjusting device of laser reflecting mirror is provided to adjust a slope and position of a laser reflecting mirror by a displayed laser shape through sensing a temperature distribution of the laser reflecting mirror. CONSTITUTION: A laser reflecting mirror is included in a case(4), and a thermocouple is provided to measure a temperature distribution at a rear surface of the laser reflecting mirror. The thermocouple is connected to a reflection angle adjusting part that converts the temperature distribution into a shape so as to be displayed. The reflection angle adjusting part comprises a plurality of operation buttons(22) connected to adjust a reflection angle of the laser reflecting mirror while showing the shape of displayed laser light.

Description

Apparatus for regulating an angle of reflection degree of a laser reflection mirror}

The present invention relates to an apparatus for adjusting the reflection angle of a laser reflector, and more particularly, by installing a thermocouple on a rear surface of the reflector to display the shape of the laser beam by the temperature distribution of the reflector detected by the thermocouple, and thus displaying the laser beam. The present invention relates to an apparatus for adjusting the reflection angle of a laser reflector capable of automatically adjusting the reflection angle of a reflector by a shape.

In general, a laser includes a light generator 101 for generating a light beam as schematically shown in FIG. 1, and a plurality of mirrors for moving the laser beam L generated by the light generator 101 to a destination. 102 and a lens 103 for focusing the laser beam L near the final destination. In addition, a reflector support tube 104 of a duct type is provided to support the reflector 102 and the lens 103 and to provide a movement path of the laser beam L.

The reflector 102 is installed in the reflector support tube 104 via a cover 105 in the form of a square plate, and this conventional structure has four corners of the cover 105 as shown in FIG. The reflector 102 is fixedly coupled to the reflector support tube 104 and inserted into the circular groove 105a formed inside the cover 105. In addition, a plurality of adjusting screws 106 connected to the rear end of the reflecting mirror 102 are provided so that the reflecting angle of the reflecting mirror 102 can be adjusted so that the reflecting mirror 102 is moved forward and backward of the adjusting screw 106. Adjust the angle of reflection.

Since the laser reflector 102 installed as described above deviates from the initially set reflection angle when a predetermined time elapses due to vibration of the apparatus, the reflection angle of the laser reflector 102 should be regularly adjusted.

In the method of adjusting the reflection angle of the reflector 102, after stopping driving of the laser device, a transparent acrylic plate (not shown) is placed behind the laser reflector 102 and one shooting of the laser beam is performed. The reflection angle of the laser reflector 102 is adjusted by moving the adjusting screws 106 forward or backward based on the trace of the laser beam formed on the acrylic plate.

However, the above-described conventional method for adjusting the reflection angle of the reflector 102 is made by looking at the traces of the laser beam formed on the acrylic plate, and thus has a problem that requires a high level of skill and experience.

In addition, in the related art, since the structure is installed so that only the inclination of the reflector can be adjusted only in the up and down and left and right directions, there is a problem that the lifetime of the laser beam is very short since the part where the laser beam touches is constant and the reflector is replaced.

The present invention is to solve the above problems, by installing a thermocouple on the rear of the reflector to display the shape of the laser beam by the temperature distribution of the reflector detected by the thermocouple and the shape of the reflector by the shape of the laser beam thus displayed It is an object of the present invention to provide an apparatus for adjusting the angle of reflection of a laser reflector, which is capable of automatically adjusting the angle of reflection.

In addition, another object of the present invention is to provide an apparatus for adjusting the reflection angle of a laser reflector, which enables the position of the reflector to be adjusted in all directions so that it can be recycled even when a part of the reflector is damaged.

1 is a configuration diagram schematically showing a general laser configuration;

2 is a detailed view showing a mounting structure of a laser reflector according to the prior art;

3 is a schematic configuration diagram showing a reflection angle adjusting device of the laser reflector according to the present invention;

4 is an exploded perspective view of the main part of FIG. 3;

5 is a detailed cross-sectional view of the main portion of FIG. 4; to be.

※ Explanation of symbols about main part of drawing ※

1: laser reflector 11: thermocouple

3: holder 4: case

41: body 42: cover

43: adjusting screw 51: rotating shaft

54: drive motor 6: base

The present invention as a technical configuration for achieving the above object, the base is fixed to the path of the laser beam and the case provided with a reflecting mirror on the base is coupled to enable the adjustment of the reflection angle, the built-in A thermocouple for measuring a temperature distribution is provided on a rear surface of the laser reflector, and the thermocouple is connected to a reflection angle adjuster for converting and displaying a temperature distribution into a shape. The reflection angle adjuster is configured to view the shape of the displayed laser beam. By providing a reflection angle adjusting device of the laser reflector, characterized in that it has a plurality of operation buttons connected to adjust the reflection angle of the laser reflector.

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

Figure 3 is a schematic configuration diagram showing a reflection angle adjusting device of the laser reflector according to the present invention, Figure 4 is an exploded perspective view of the main portion of Figure 3, the thermocouple 11 on the back of the laser reflector 1 formed in a circular shape Is installed fixed.

The thermocouple 11 is configured to be able to measure the temperature distribution of the laser reflector 1, such a thermocouple 11 is known, so a detailed description thereof will be omitted.

The thermocouple 11 is connected to the reflection angle adjuster 2 via a wire, and the reflection angle adjuster 2 is capable of displaying a laser shape using the temperature distribution of the laser reflector 1 as input information. The display unit 21 is included.

The laser reflector 1 and the thermocouple 11 are mounted to the holder 3, the holder 3 has a disk-shaped body 31 having a predetermined thickness, and the center of one end of the body 31 The laser reflector 1 and the thermocouple 11 are fixedly installed at the distal end of the protrusion 32 of the holder 3 so that the laser reflector 1 faces outward. do.

The holder 3 is built in the case 4, the case 4 is a hollow cylindrical body 41 of which one side is open to accommodate the holder 3, and the case body 41 It consists of a disk-shaped cover 42 fixed to the case body 41 formed to cover the open portion of the). In addition, the cover 42 may be provided with a protruding portion 42a that protrudes to be slightly fitted toward the open hollow portion of the body 41.

The adjusting screw 43 is fitted into a plurality of places of the body 41, for example, three or four places so as to move forward and backward in the radial direction, and the tip of the adjusting screw 43 is connected to the laser reflector 1. The position of the laser reflector 1 is radially adjusted in the hollow part of the body 41 by the adjustment of the adjusting screw 43 by being in contact with the outer circumferential surface thereof. Of course, it is preferable that the adjustment screws 43 are provided so that the angles formed between the adjustment screws 43 are the same.

The cover 42 is formed with a hole 42b penetrating in the longitudinal direction so that the protrusion 32 of the holder 3 can penetrate therethrough, and the cover 42 has a plurality of places, for example, three or four places. Rotating support hole 42c is formed in the longitudinal direction, the rotation support hole (42c) is rotatably coupled to the rotation shaft 51, but the movement in the longitudinal direction is coupled to the bar bar, as an example for such a structure As shown in FIG. 5, a portion of the rotating support hole 42c has a larger inner diameter than the other portion, and a portion of the rotating shaft 42c having a larger outer diameter than the other portion is inserted into the largely formed inner diameter portion. By fixing the blocking plate 51a or the like, the rotating shaft 51 is rotatable in the rotation supporting hole 42c, and the movement in the longitudinal direction is blocked. Of course, the rotation support hole 42c may be located on a concentric circle with respect to the center of the cover 42, and the distance between adjacent rotation support holes 42c may be the same.

One side of the rotating shaft 51 is coupled to the base of the plate-shaped fixed to the duct-shaped reflector support tube (not shown) provided to provide a movement path of the laser beam, to the base (6) Rotating shaft coupler 61 having a female screw portion is formed, and one side of the rotating shaft 51 forms a male screw portion to be coupled to the rotary shaft coupler 61 by screwing. In addition, the elastic spring 52 is inserted into the rotation shaft 51 of the portion where the male screw portion is formed in this manner, and the elastic spring 52 repels each other between the cover 42 and the base 6 of the case 4. It is good to provide elastic force of.

In addition, the gear 53 is fixedly mounted on the other side of the rotation shaft 51, and the gear 53 is driven to rotate by a drive motor 54 installed in the base 6, preferably the rotation shaft 51. Connection structure of the gear 53 and the drive motor 54 may be configured in various ways so as to more precisely adjust the rotation speed or the rotation angle. For example, as shown in the drawing, the driving motor 54 detects the rotational speed and provides the reflection angle adjuster 2 with the PLG sensor 55 and the rotational speed of the driving motor 54. It is preferable that a reduction gear 56 and a rotation force transmission gear 57 or the like are provided to provide the gear 53 with the rotational speed reduced by the reduction gear 56.

Of course, each of the drive motors 54 is connected to the reflection angle adjuster 2 via a wire, and the reflection angle adjuster 2 has an operation button 22 for driving the drive motor 54.

In addition, a hole 62 is formed in the base 6 so that the laser reflector 1 fixed to the holder 3 can be fitted and disposed in the path of the laser beam.

The operation of the present invention having the above configuration will be described.

In the present invention, the temperature distribution of the laser reflector 1 is continuously measured by the thermocouple 11, and by analyzing the temperature distribution, the shape of the laser beam is displayed on the display 21 of the reflection angle adjuster 2 as an image. do.

When the shape of the laser beam displayed in this manner is a circle, it indicates that the inclination of the laser reflector 1 is kept in the initial setting state, and the shape of the laser beam is displayed in another shape such as an oval or cut by the laser beam. If the cut surface of the material is rough, it indicates that the inclination of the laser reflector 1 is changed or the portion reflecting the laser beam is damaged, and if the laser is determined to be abnormal, the inclination of the laser reflector 1 is determined by the apparatus. And position can be adjusted. Of course, the apparatus of the present invention adjusts the inclination and position of the laser reflector 1 without interrupting the operation of the laser.

In order to adjust the inclination and the position of any one of the laser reflecting mirrors 1 on the path where the laser beam travels, the laser appearing on the display portion 21 of the reflection angle adjuster 2 corresponding to the laser reflecting mirror 1 is adjusted. While operating the operation button 22 while watching the shape of the light beam, the driving motor 54 is rotated forward and reverse by the operation of the operation button 22, the rotation of the drive motor 54 is a reduction gear 56, It is transmitted to the rotating shaft 51 through the rotation force transmission gear 57 and the gear 53.

When the rotary shaft 51 is rotated, the rotary shaft 51 is screwed to the rotary shaft coupling hole 61 of the base 6, so that the case 4 and the rotary shaft coupling hole on which the laser reflector 1 is mounted The distance between the bases 6 on which the 61 is formed is changed, so that the inclination of the case 4 relative to the base 6 changes. That is, the inclination of the laser reflector 1 provided in the case 4 is changed, whereby the inclination of the laser reflector 1 can be adjusted to an appropriate state.

In addition, when the surface of the laser reflector 1 is partially damaged and the damaged part is in the path of the laser beam, the laser reflector is adjusted by adjusting the adjusting screw 43 provided on the body 41 of the case 4. Only the position of the laser reflecting mirror 1 can be adjusted while maintaining the inclination of (1).

As described above, the apparatus for adjusting the reflection angle of the laser reflector according to the present invention has the effect of quickly and accurately adjusting the inclination and position of the laser reflector by detecting the temperature distribution of the laser reflector and displaying the displayed laser shape.

Claims (3)

In a configuration in which a base is fixed to a path of a laser beam and a case having a reflector on the base is coupled to adjust the reflection angle, a temperature distribution is provided on a rear surface of the laser reflector 1 built in the case 4. A thermocouple 11 for measuring is provided, and the thermocouple 11 is connected to a reflection angle adjuster 2 which converts the temperature distribution into a shape and displays it, and the reflection angle adjuster 2 is connected to the displayed laser beam. Apparatus for adjusting the reflection angle of a laser reflector, characterized in that it has a plurality of operation buttons (22) connected to adjust the reflection angle of the laser reflector (1) while looking at the shape. The casing (4) according to claim 1, wherein the case (4) includes a body (41) in which the laser reflector (1) is accommodated, and a rotation support hole (42c) is formed through a plurality of edges, and a hole (42b) is penetrated in the center thereof. The cover 42 is formed, and the rotary shafts 51 are rotatably fitted into the rotary support holes 42c of the cover 42, respectively, and one end of the rotary shaft 51 is rotated in the axial direction. It is coupled to the base forward, backward and coupled and the other end is connected to receive the rotational force in the axial direction by the drive motor 54, the reflection angle adjusting device of the laser reflector. The interior of the case (4) according to claim 1 or 2, wherein the laser reflector (1) is moved by a plurality of adjustment screws (43) so that the laser reflector (1) can be moved in a position on a plane which does not change the angle of reflection with the laser beam. Adjusting the reflection angle of the laser reflector, characterized in that installed in.