KR101116695B1 - Device for setting focus of side-guide beam in laser marker - Google Patents

Abstract

According to the present invention, a table on which a marking object is positioned and a marking having a different focal length are detachably installed by irradiating a marking laser beam to the marking object so as to be movable upward and downward. A laser marker having a laser head, comprising: a fixed block provided at both sides of the marking laser head and having through holes formed in a front and rear direction; A rotation block installed in the through-holes of the fixed blocks and provided to be rotatable based on the through-direction, and having a through-hole formed in the front end portion in a vertical direction; A light emitting part inserted into the through hole of each of the rotating blocks and selectively irradiating the side guide beam at a position coinciding with the focal point of the marking laser beam radiated from the marking laser head; Rotating the rotation block at a predetermined angle to set the side guide beam focus of the laser marker comprising an angle adjusting means for adjusting the irradiation angle irradiated to the side guide beam of each light emitting unit according to the lens having a different focal length Provide a device.

Description

Device for setting focus of side-guide beam in laser marker}

The present invention relates to an apparatus for focusing a side guide beam of a laser marker, and more particularly, to a side guide beam generated in a laser diode for focusing corresponding to each lens in using a plurality of lenses having different marking focuses from the laser marker. It relates to a side guide beam focusing device for the laser marker to facilitate setting the focus of the laser marker.

In general, laser markers are equipment for engraving serial numbers, barcodes, and patterns on metal or non-metallic surfaces, and are currently applied to various fields such as semiconductors, mobile phone parts, various tools, various electronic parts, accessories, and mechanical parts. It is used.

1 is a view showing a conventional laser marker.

As shown in the figure, the laser marker is positioned on the table 10 and the table 10 on which the marking object is positioned and moved upward and downward, and has a marking laser head 30 for irradiating a laser beam for marking. do.

The marking laser head 30 is moved up and down by the head moving part 20, and the head moving part 20 serves to position the marking laser head 30 above the table 10.

Looking at the operation of such a laser marker, first, the marking object is placed on the table 10, the marking laser head 30 is moved up and down by the head moving part 20, and then the laser beam is irradiated to irradiate the marking object. Form various letters or patterns on the surface.

In the conventional laser marker, in order to focus the marking laser beam irradiated through the lens, one marking object is used as a sample, and the marking laser head 30 is moved up and down by the head moving unit 20 to mark the laser. The focusing test of the beam focuses precisely. In this case, there is a problem that the marking object used as a sample has to be discarded, and furthermore, when the marking object is expensive, there is a problem of a large loss.

Accordingly, in order to solve this problem, for example, a red laser diode is irradiated on both sides of the marking laser head 30 that irradiates the marking laser beam, and a red side guide beam that directs the focus of the marking laser beam is irradiated. A laser marker with an apparatus for the development has been developed.

On the other hand, a plurality of lenses having different marking focus, that is, a lens having a focal length of 100 mm (hereinafter referred to as a '100 mm lens'), a lens having a focal length of 160 mm (hereinafter referred to as a '160 mm lens') and a lens having a focal length of 254 mm ( Hereinafter referred to as '254mm lens').

When using lenses with different focal lengths as described above, in order to focus the marking laser beam every time the lens is replaced, a device for irradiating the red side guide beam indicating the focus of the marking laser beam is also irradiated through the replaced lens. It should be adjusted to accurately indicate the focus of the marking laser beam.

By the way, in the laser marker provided with a device for irradiating the red side guide beam which indicates the focus of the conventional laser beam for marking, the focal point of the marking laser beam is still irradiated through the replaced lens when the lens is replaced. In order to adjust to accurately indicate, for example, the table 10 is placed on both sides of the marking laser head 30 by placing the article at a position separated by the focal length of the marking laser beam irradiated from the marking laser head 30. There is still a problem of adjusting the red laser diode so that the side guide beam from the laser diode must be set to exactly match the focus of the marking laser beam irradiated from the marking laser head 30.

Accordingly, the present invention has been made to solve the above problems, and when using a plurality of lenses with different marking focus on the laser marker, it is easy to focus the side guide beam generated by the focusing laser diode corresponding to each lens. It is an object of the present invention to provide an apparatus for focusing a side guide beam of a laser marker, which can be set in a simple manner.

The side guide beam focusing apparatus for a laser marker according to the present invention for achieving the above object is provided with a table on which a marking object is located, and is installed to be movable upward and downward on an upper side of the table to irradiate a marking laser beam to the marking object. A laser marker having a marking laser head detachably provided with a lens having a different focal length, the laser marker comprising: a fixed block provided at both sides of the marking laser head and having through holes formed in a front and rear direction; A rotation block installed in the through-holes of the fixed blocks and provided to be rotatable based on the through-direction, and having a through-hole formed in the front end portion in a vertical direction; A light emitting part inserted into the through hole of each of the rotating blocks and selectively irradiating the side guide beam at a position coinciding with the focal point of the marking laser beam radiated from the marking laser head; Rotating the rotation block at a predetermined angle characterized in that it comprises an angle adjusting means for adjusting the irradiation angle irradiated to the side guide beam of each light emitting unit according to the lens having a different focal length.

Here, the angle adjusting means, the fixing plate is provided in the rear end direction, the fixing plate formed a plurality of fixing grooves at the end; A lever provided on the rotation block to be rotatable in the longitudinal direction and positioned in one selected from a plurality of fixing grooves of the fixing plate; And an elastic member which pulls the lever in the direction of the fixing block to prevent the lever from being separated from the fixing groove of the fixing plate.

In addition, the lenses having different focal lengths are a lens having a focal length of 100 mm, a lens having a focal length of 160 mm, and a lens having a focal length of 254 mm, and three fixing grooves of the fixing plate are formed, and the lever is provided in each fixing groove. As the position of the light emitting portion at the position corresponding to the focal point of the marking laser beam from the marking laser head corresponding to a lens having a focal length of 100 mm, a lens having a focal length of 160 mm and a lens having a focal length of 254 mm, respectively, The guide beam is set to be irradiated.

According to the present invention configured as described above, according to the type of lens (100mm lens, 160mm lens or 254mm lens) installed in the marking laser head, the red laser diodes installed on both sides of the marking laser head are adjusted so as to adjust the side guide beam from the laser diode. This eliminates cumbersome work that must be set to exactly match the focus of the marking laser beam irradiated from the marking laser head, thereby shortening the setting time, thereby improving work efficiency.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only, and various modifications may be made without departing from the technical gist of the present invention.

2 is a view showing a laser marker according to the present invention, Figure 3 is a view showing a side guide beam focusing apparatus of the laser marker according to the invention, Figure 4 is a side guide beam focusing apparatus according to the present invention Figure 5 is an exploded perspective view of Figure 5 is a side view of the side guide beam focusing apparatus of the laser marker according to the present invention, Figure 6 is a side guide beam focusing apparatus of the laser marker according to the present invention FIG. 7 is a view showing an operating state according to the angle adjusting means, and FIG. 7 is a view showing an operating state of the side guide beam focusing apparatus of the laser marker according to the present invention.

As shown in the figure, the laser marker is composed of a table 10, the head moving unit 20, the marking laser head 30 and the position adjusting device 100.

A marking object is positioned on the table 10, and the marking laser head 30 is positioned above the table 10 to be moved upward and downward by the head moving unit 20 to irradiate a laser beam for marking.

Here, a lens (not shown) for condensing a laser beam is provided in the marking laser head 30, and as such a lens, a plurality of lenses having different marking focus, that is, a lens having a focal length of 100 mm (hereinafter referred to as a '100 mm lens') ), A lens having a focal length of 160 mm (hereinafter referred to as a '160 mm lens') and a lens having a focal length of 254 mm (hereinafter referred to as a '254 mm lens') are used.

At this time, since the marking laser head 30 should be set differently from the marking object according to the focal length of the lens, the head moving unit 20 checks the correct position by the side guide beam focusing apparatus 100. Position must be adjusted.

Each of the side guide beam focusing apparatuses 100 is provided on both sides of the marking laser head 30. For example, a red laser diode is installed to direct the red side guide beam to indicate the focus of the marking laser beam. By irradiating, the outer side is protected by the head case 32 which surrounds the outer side of the marking laser head 30.

3, the side guide beam focusing apparatus 100 includes a fixed block 110, a rotation block 120, a light emitting unit 130, and an angle adjusting unit 140.

The fixed block 110 is provided on both sides of the marking laser head 30, the through hole 112 is formed in the front and rear direction, the rotation block 120 is the through hole 112 of each fixed block 110. Is installed on.

The rotation block 120 is provided to be rotatable based on the penetrating direction, and the through hole 122 is formed in the front and rear direction.

In addition, the light emitting unit 130 includes a red laser diode, for example, is fitted into the through hole 122 of each rotation block 120 and is fixed to selectively irradiate a red side guide beam, thereby rotating the rotation block ( In accordance with the rotation of 120 to rotate the same to irradiate the beam forward.

The angle adjusting means 140 rotates the rotation block 120 at a predetermined angle, thereby focusing the marking laser beam according to the type of lens (100 mm lens, 160 mm lens or 254 mm lens) installed in the marking laser head 30. The irradiation angle is adjusted so that the beam of each light emitting unit 130 is irradiated at a position corresponding to the distance.

The angle adjusting means 140 is composed of a fixing piece 142 and the lever 144 and the elastic member 146, the fixing piece 142 is provided in the rear block in the fixed block 110, a plurality of ends Fixing grooves 142a, 142b, and 142c are formed.

In addition, the lever 144 is provided on the rotation block 120 to be rotatable in its longitudinal direction, and is located in any one selected from the fixing grooves 142a, 142b, and 142c of the fixing plate 142.

In other words, the lever 144 is fixed by adjusting the angle of the rotation block 120, one of the fixing grooves (142a, 142b, 142c) of the fixing piece 142 according to the installed lens (not shown). Is positioned at to set the beam irradiation angle of the light emitting unit 130.

The angle fixing of the rotation block 120 including the light emitting unit 130 is made by the elastic member 146 pulling the lever 144, the lever 144 by pulling the lever 144 in the fixed block 110 direction. Is prevented from being separated from the fixing grooves 142a, 142b, and 142c of the fixing plate 142.

Of course, when the user applies more than a predetermined force to the lever 144, it is natural that the lever 144 is separated from the fixing grooves 142a, 142b and 142c of the fixing plate 142.

6 to 7, three fixing grooves 142a, 142b, and 142c of the fixing plate 142 are formed, and the lever 144 has fixing grooves 142a and 142b of the fixing plate 142. 142c), the beam is irradiated from the light emitting unit 130 from the marking laser head 30 toward the focus of the 100 mm lens, the focus of the 160 mm lens, and the focus of the 254 mm lens, respectively, located at 100 mm, 160 mm, and 254 mm. Be sure to

In other words, when the lever 144 is located in the fixing groove 142a of the fixing piece 142, the beam is irradiated from the light emitting unit 130 at a position spaced 100 mm from the marking laser head 30, and the fixing piece ( When the lever 144 is located in the fixing groove 142b of the 142, the beam is irradiated from the light emitting unit 130 at a position spaced 160 mm from the marking laser head 30, and the fixing groove of the fixing piece 142 ( When the lever 144 is positioned at 142c, the beam is irradiated from the light emitting unit 130 at a position spaced 100 mm from the marking laser head 30.

Accordingly, the position of the lever 144 is simply positioned in any one of the fixing grooves 142a, 142b, and 142c according to the type of lens (100 mm lens, 160 mm lens or 254 mm lens) installed in the marking laser head 30. It is possible to easily set the focus of the red side guide beam indicating the focus of the marking laser beam.

As described above, according to the present invention, according to the type of the lens (100 mm lens, 160 mm lens or 254 mm lens) installed in the marking laser head, the red laser diodes installed on both sides of the marking laser head are adjusted to adjust the side guide beam from the laser diode. This eliminates cumbersome work that has to be set to exactly match the focus of the marking laser beam irradiated from the marking laser head, thereby shortening the setting time, thereby improving work efficiency.

On the other hand, the present invention is not limited to the above specific embodiments, but can be modified and modified in various ways without departing from the gist of the present invention. If such modifications and variations are included in the appended claims, of course, they belong to the present invention.

1 is a view showing a conventional laser marker,

2 is a view showing a laser marker according to the present invention,

3 is a view showing a side guide beam focusing apparatus of the laser marker according to the present invention,

4 is an exploded perspective view of the side guide beam focusing apparatus according to the present invention,

5 is a side view of a side guide beam focusing apparatus for a laser marker according to the present invention;

6 is a view showing an operating state according to the angle adjusting means of the apparatus for focusing the side guide beam of the laser marker according to the present invention;

7 is a view showing an operating state of the side guide beam focusing apparatus of the laser marker according to the present invention.

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<Description of Symbols for Main Parts of Drawings>

10 table 20 head moving part

30: marking laser head

100: side guide beam focusing device 110: fixed block

120: rotation block 130: light emitting unit

140: angle adjustment means 142: fixed plate

142a, 142b, 142c: fixing groove 144: lever

146: elastic member

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Claims (3)

Marking laser head which is installed on the table on which the marking object is located, and movable above and below the table and irradiating the marking laser beam to the marking object with detachable lenses having different focal lengths. In the equipped laser marker, Fixed blocks which are provided at both sides of the marking laser head and have through holes formed in the front and rear directions; A rotation block installed in the through-holes of the fixed blocks and provided to be rotatable based on the through-direction, and having a through-hole formed in the front end portion in a vertical direction; A light emitting part inserted into the through hole of each of the rotating blocks and selectively irradiating the side guide beam at a position coinciding with the focal point of the marking laser beam radiated from the marking laser head; Marking of the laser marker, characterized in that for rotating the rotation block at a predetermined angle comprises an angle adjusting means for adjusting the irradiation angle irradiated to the side guide beam of each light emitting unit according to the lens having a different focal length Laser head side guide beam focusing device. According to claim 1, wherein the angle adjusting means, A fixing plate provided in the fixing block in a rear end direction and having a plurality of fixing grooves formed at an end thereof; A lever provided on the rotation block to be rotatable in the longitudinal direction and positioned in one selected from a plurality of fixing grooves of the fixing plate; And And a resilient member which pulls the lever in a fixed block direction to prevent the lever from being separated from the fixing groove of the fixing plate. 3. The method of claim 2, The lenses having different focal lengths are lenses having a focal length of 100 mm, lenses having a focal length of 160 mm, and lenses having a focal length of 254 mm, The fixing plate of the fixing plate is formed in three, and as the lever is located in each fixing groove, the lens having a focal length of 100 mm, a focal length of 160 mm, and a lens of focal length of 254 mm respectively correspond to the marking laser head. Marking laser head side guide beam focusing apparatus of the laser marker, characterized in that the side guide beam of the light emitting portion is set to be irradiated at a position corresponding to the focus of the marking laser beam.

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