KR20160101448A - Cleaning system, and laser marking apparatus and laser marking method using the cleaning system - Google Patents

Abstract

Disclosed are a cleaning system and a laser marking apparatus, and a laser marking method using the cleaning system. The disclosed cleaning system comprises: a window plate having a window through which a laser beam penetrates; a suction unit provided in the window plate; and an air blow brush provided to be moved by being opposite to the suction unit, having an air blow unit and a brush unit.

Description

The present invention relates to a cleaning system, a laser marking apparatus and a laser marking method using the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to laser marking, and more particularly, to a cleaning system for removing dust or foreign matter that may be generated during a laser marking operation, and a laser marking apparatus and a laser marking method using such a cleaning system.

In order to ensure the quality of the laser marking in the process of marking the object using the laser, all the paths of the laser beam should be free from any obstructing factors such as dust and foreign matter. To this end, the inside of the laser marking apparatus or the path of the laser beam is sealed as much as possible to prevent dust or foreign matter from penetrating. However, when the laser marking operation is performed, dust, foreign matter, or the like is generated, and dust or foreign matter generated by the laser marking may adhere to the exposed laser head, thereby degrading the laser marking quality.

In order to keep the surface of the laser head clean, the operator has cleaned the surface of the laser head regularly using a cleaning tool. However, in this method, the work is manually performed by the operator, the work progresses in a narrow space, and the work must be progressed according to a predetermined safety procedure. Therefore, problems such as work time and safety problems . In order to solve these problems, conventionally, a method of maintaining a clean state by using air and suction has been used. However, according to this method, as dust and foreign matter due to various marking materials are increased It is difficult to keep the clean state and the marking quality may deteriorate.

An embodiment of the present invention provides a cleaning system for removing dust or foreign matter that may be generated during a laser marking operation, and a laser marking apparatus and a laser marking method using such a cleaning system.

In one aspect of the present invention,

A window plate including a window through which a laser beam is transmitted;

A suction unit provided on the window plate; And

There is provided a cleaning system including an air blow unit and an air blow brush unit including an air blow unit and a brush unit, the unit being movably opposed to the suction unit.

The window plate may be provided with a moving member for reciprocally moving the air blowing brush device in one direction.

The air blowing unit may include a plurality of air holes for discharging air toward the suction unit. The brush unit may include a brush for sweeping the dust accumulated on the upper surface of the window plate toward the suction unit. Here, the brush may include, for example, an uninterruptible brush. The brush unit may be provided under the air blowing unit.

The suction unit can suck the dust moving by the air blow unit and / or the brush unit on the window plate.

In another aspect of the present invention,

A window plate including a window through which a laser beam is transmitted;

A suction unit provided on the window plate;

An air blow brush device movably provided opposite to the suction unit, the air blow brush unit including an air blow unit and a brush unit; And

And a laser head for emitting the laser beam.

The laser head may be provided on the window plate, and an object to be marked may be provided under the window plate. The window plate may be provided with a moving member for reciprocating the air blowing brush device.

The air blowing unit may include a plurality of air holes for discharging air toward the suction unit, and the brush unit may include a brush for sweeping the dust accumulated on the upper surface of the window plate toward the suction unit. The suction unit can suck the dust moving on the window plate by the air blow unit and / or the brush unit.

In the laser marking method using the laser marking apparatus described above,

Performing a marking operation;

Moving the window plate and the dust around the window plate toward the suction unit by operating the air blowing brush device after completion of the marking operation; And

And sucking the dust moved toward the suction unit into the suction unit.

The laser head may be provided on the window plate, and an object to be marked may be provided under the window plate. The air blowing unit may include a plurality of air holes for discharging air toward the suction unit, and the brush unit may include a brush for sweeping the dust accumulated on the upper surface of the window plate toward the suction unit.

And operating the air blow unit and the suction unit before performing the marking operation.

The marking operation can be performed by scanning the laser beam emitted from the laser head to the object through the window. Here, the dust generated during the marking operation moves toward the suction unit by the operation of the air blow unit, and the suction unit can suck the dust.

Moving the window plate and the dust around the window plate toward the suction unit while moving the air blow unit and the brush unit by the operation of the air blow brush device after completion of the marking operation; And sucking the dust moved toward the suction unit into the suction unit.

According to the embodiment of the present invention, the dust generated during the marking operation is removed by using the air blow unit and the suction unit, and the dust remaining on the window plate or its periphery after the marking operation is finished is returned to the air blow unit, The unit can be moved and removed through the suction unit, so that the inside of the laser marking apparatus can be kept clean during the marking operation or after the marking operation is completed.

1 is a perspective view illustrating a cleaning system according to an exemplary embodiment of the present invention.
Fig. 2 is an enlarged view of the air blow brush device shown in Fig.
3 is a flow chart illustrating a laser marking method according to another exemplary embodiment of the present invention.
4A to 4C are views showing a laser marking method according to another exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments illustrated below are not intended to limit the scope of the invention, but rather are provided to illustrate the invention to those skilled in the art. In the drawings, like reference numerals refer to like elements, and the size and thickness of each element may be exaggerated for clarity of explanation. Further, when it is described that a certain material layer is present on a substrate or another layer, the material layer may be present directly on the substrate or another layer, and there may be another third layer in between. In addition, the materials constituting each layer in the following embodiments are illustrative, and other materials may be used.

1 is a perspective view illustrating a cleaning system 100 in accordance with an exemplary embodiment of the present invention. 2 is an enlarged view of the air blow brush device 170 shown in FIG. The cleaning system 100 shown in FIG. 1 can keep the inside of the laser marking apparatus clean by removing dust or foreign substances generated by a laser machining operation, for example, a laser marking operation.

1 and 2, the cleaning system 100 according to the present embodiment includes a window plate 110, a suction unit 130 provided on the window plate 110, And an air blow brush apparatus 170 that is movably provided on the upper surface 110 of the apparatus.

The window plate 110 has a window 120 through which a laser beam emitted from the laser head is transmitted. Such window 120 may comprise a material that is transmissive to the laser beam. A suction unit 130 is provided on one side of the upper surface of the window plate 110. When the suction unit 130 is operated, dust or the like on the window plate 110 can be sucked.

The air blow brush unit 170 is provided movably on the window plate 110 while facing the suction unit 130. The air blow brush unit 170 is provided so as to reciprocate in one direction, for example, along the y direction in FIG. To this end, the window blades 110 may further include a moving member 140. The moving member 140 is connected by a driving cylinder (not shown), and the moving member 140 moves in one direction on the window plate 110, for example, y It is possible to reciprocate along the direction.

The air blowing brush unit 170 can also reciprocate along the y direction in FIG. 1 in accordance with the movement of the movable member 140. The air blowing brush unit 170 includes an air blowing unit 150 connected to the moving member 140 and a brush unit 160 provided below the air blowing unit 150. Here, the air blow unit 150 and the brush unit 160 are provided on the window plate 110 so as to face the suction unit 130 and reciprocate in one direction, for example, along the y direction in FIG.

In the air blow unit 150, a plurality of air holes 151 are provided at regular intervals. The air holes 151 may discharge the air toward the suction unit 130 to move the dust on the window plate 110 toward the suction unit 130. The brush unit 160 includes a brush 161 provided to contact the upper surface of the window plate 110. The brush 161 may sweep the dust accumulated on the upper surface of the window plate 110 toward the suction unit 130. Here, as the brush 161, for example, an uninterrupted brush can be used.

In the cleaning system 100 having the above-described structure, when a laser head (300 in FIG. 4A) for emitting a laser beam is provided on the upper portion (specifically, the upper portion of the window 120) of the window plate 110, An apparatus, for example, a laser marking apparatus, may be implemented. At this time, the object 400 to be marked is provided at the lower portion of the window plate 110 (specifically, the lower portion of the window 120).

In the cleaning system 100 having the above structure, the suction unit 130 can suck the dust moving toward the suction unit 130 by at least one of the air blow unit 150 and the brush unit 160.

Hereinafter, a method of performing laser marking on an object to be processed by using the above-described cleaning system 100 will be described.

3 is a flow chart illustrating a laser marking method according to another exemplary embodiment of the present invention. 4A to 4C are views showing a laser marking method according to another exemplary embodiment of the present invention.

Referring to FIG. 3, the start button of the cleaning system 100 is pressed (201). Then, the air blow unit 150 of the suction unit 130 and the air blow brush unit 170 is operated (202).

4A shows a state in which the suction unit 130 and the air blowing unit 150 of the air blowing brush device 170 are operated. 4A, a laser head 300 for emitting a laser beam L is provided at an upper portion of a cleaning system 100. A movable object 400 to be marked is provided at a lower portion of the cleaning system 100 have.

The air blowing brush device 170 includes an air blowing unit 150 connected to the moving member 140 and a brush unit 160 provided below the air blowing unit 150. Here, the air blow unit 150 includes a plurality of air holes 151 for discharging air toward the suction unit 130, and the brush unit 160 is configured to suction the dust accumulated on the upper surface of the window plate 110, And a brush 161 which sweeps the ink into the ink cartridge 130 side. Since the cleaning system 100 has been described above, a detailed description thereof will be omitted.

When the start button of the cleaning system 100 is pressed, the suction unit 130 and the air blowing unit 150 of the air blowing brush device 170 start to operate. Thus, air can be uniformly discharged from the air holes 151 of the air blow unit 150 toward the suction unit 130 on the window plate 110. The suction unit 130 can suck the dust moving toward the suction unit 130 by the operation of the air blow unit 150.

3, a marking operation is performed in a state where the suction unit 130 and the air blow unit 150 are operated (203).

4B shows a state in which a marking operation is performed. 4B, the laser beam L is emitted from the laser head 300 provided on the top of the window plate 110 (more specifically, on the top of the window 120), and the emitted laser beam L Passes through the window 120 and is irradiated onto the object 400. [ The marking operation is performed by scanning the laser beam L irradiated onto the object 400 in this way. If the marking operation is performed while the suction unit 130 and the air blow unit 150 are operated, the dust present on the window plate 110, which is generated during the marking operation, The suction unit 130 moves toward the suction unit 130, and the suction unit 130 sucks the moved dust.

Referring to FIG. 3, after completion of the marking operation described above, a cleaning process is performed while operating the moving member 140 by moving a cylinder (not shown).

4C shows a state in which the cleaning process is performed after the marking operation is completed. Referring to FIG. 4C, when the moving member 140 moves in one direction, for example, the y direction in FIG. 4C, the air blow brush apparatus 170 moves in the y direction along with the movement of the moving member 140.

Thus, when the air blow device 170 is operated and moves toward the suction unit 130, the dust generated by the marking operation moves toward the suction unit 130. Specifically, the brush 161 provided on the brush unit 160 sweeps the dust accumulated on the upper surface of the window plate 110 including the window 120 to move the suction unit 130 toward the brush unit 160, The air blow unit 150 provided at the upper portion of the window plate 160 may discharge air toward the suction unit 130 to move the window plate 110 or the dust around the window plate 110 toward the suction unit 130. The dust thus moved is sucked into the suction unit 130, thereby performing the cleaning process.

In the above description, the case where the air blowing brush device 170 performs the cleaning process while moving once toward the suction unit 130 has been exemplarily described. In addition, the air blowing brush device 170 may be provided in one direction, for example, y The cleaning process may be performed while reciprocating a plurality of times along the direction.

Referring to FIG. 3, after the cleaning process is completed, the operation of the suction unit 130 and the air blow unit 150 is stopped (205). Then, by pressing the finish button of the cleaning system 100, the laser marking process is terminated.

As noted above, Dust generated during the marking operation is removed by using the air blow unit 150 and the suction unit 130. After the marking operation is completed, the dust remaining on the window plate 110 or its periphery is removed from the air blow unit 150 and the brush unit 160 are moved and removed through the suction unit 130, so that the inside of the laser marking apparatus can be kept clean during the marking operation or after the marking operation is completed.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims.

100 .. Cleaning System
110 .. Window Plate
120 .. Windows
130 .. Suction unit
140.
150 .. Air blow unit
151 .. Air Hole
160 .. Brush Unit
161 .. Brushes
170 .. Air blowing brush device
300 .. Laser Head
400 .. Object to be processed

Claims (19)

A window plate including a window through which a laser beam is transmitted;
A suction unit provided on the window plate; And
And an air blow brush device movably provided opposite to the suction unit, the air blow brush unit including an air blow unit and a brush unit. The method according to claim 1,
Further comprising a moving member provided on the window plate for reciprocating the air blowing brush device in one direction. The method according to claim 1,
Wherein the air blowing unit includes a plurality of air holes for discharging air toward the suction unit. The method of claim 3,
Wherein the brush unit includes a brush for sweeping dust accumulated on an upper surface of the window plate toward the suction side. 5. The method of claim 4,
Wherein the brush comprises an uninterrupted brush. 5. The method of claim 4,
Wherein the brush unit is provided at a lower portion of the air blowing unit. The method according to claim 1,
Wherein the suction unit sucks dirt moving by the air blow unit and / or the brush unit on the window plate. A window plate including a window through which a laser beam is transmitted;
A suction unit provided on the window plate;
An air blow brush device movably provided opposite to the suction unit, the air blow brush unit including an air blow unit and a brush unit; And
And a laser head for emitting the laser beam. 9. The method of claim 8,
Wherein the laser head is provided on an upper portion of the window plate and an object to be marked is provided below the window plate. 10. The method of claim 9,
Further comprising a moving member provided on the window plate and reciprocatingly moving the air blowing brush device in one direction. 10. The method of claim 9,
Wherein the air blowing unit includes a plurality of air holes for emitting air toward the suction unit, and the brush unit includes a brush for sweeping the dust accumulated on the upper surface of the window plate toward the suction unit. 10. The method of claim 9,
Wherein the suction unit sucks dirt moving on the window plate by the air blow unit and / or the brush unit. A laser marking method using the laser marking apparatus according to claim 8,
Performing a marking operation;
Moving the window plate and the dust around the window plate toward the suction unit by operating the air blowing brush device after completion of the marking operation; And
And sucking the dust moved toward the suction unit into the suction unit. 14. The method of claim 13,
Wherein the laser head is provided on an upper portion of the window plate, and an object to be marked is provided below the window plate. 15. The method of claim 14,
Wherein the air blowing unit includes a plurality of air holes for emitting air toward the suction unit, and the brush unit includes a brush for sweeping the dust accumulated on the upper surface of the window plate toward the suction unit. 14. The method of claim 13,
And operating the air blow unit and the suction unit before performing the marking operation. 17. The method of claim 16,
Wherein the marking operation is performed by scanning a laser beam emitted from the laser head to the object through the window. 18. The method of claim 17,
Wherein the dust generated during the marking operation moves toward the suction unit by the operation of the air blow unit, and the suction unit sucks the dust. 19. The method of claim 18,
Moving the window plate and the dust around the window plate toward the suction unit while moving the air blow unit and the brush unit by operation of the air blow brush unit after completion of the marking operation; And
And sucking the dust moved toward the suction unit into the suction unit.

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