JP2004034068A - Laser marking apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a laser marking apparatus for allowing a laser excitation source control unit to prevent laser output in any unintended state, and safely control an excitation source by providing a means to detect a state of a write control unit by a relatively simple method. <P>SOLUTION: When a marking information detecting means of a CPU 6 detects that marking information 102 is not performing the marking, and a Q-switch control signal detecting means of the CPU 6 detects a Q-switch control signal 101 to set a Q-switch 2 in an open state by an unintended cause, the output 104 from the laser excitation source control means is converted into a signal to stop laser excitation. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a laser processing apparatus using a Q switch laser, and more particularly to a laser marking apparatus.
[0002]
[Prior art]
Conventionally, in a laser marking apparatus having a laser oscillator equipped with a Q switch, the laser material is usually excited by a light source for laser excitation, for example, an excitation source such as a laser diode or a flash lamp, and pulse oscillation is generated by opening and closing the Q switch. The laser is output.
In order to open and close the Q switch, the write control unit outputs a pulse signal of Q switch ON / OFF to the Q switch drive unit, and the Q switch During this time, the laser is output, and the writing control unit controls the scanning system such as a galvano scanner in synchronization with the opening and closing of the Q switch so as to write on the workpiece.
[0003]
In the case of a laser marking device of a system in which the excitation source control unit and the writing control unit of the laser oscillator exist asynchronously, when the excitation source is ON, due to noise or device failure, etc. Even if the Q switch is turned off, the laser may be output to the outside, and the safety of the operator may be significantly impaired.
[0004]
In order to detect the malfunction of the Q switch, as a prior art, for example, in Japanese Patent Publication No. 7-97681 “continuous excitation Q switch oscillation solid-state laser”, a device such as a detector for detecting a laser output is added. While trying to detect unintended laser output, the apparatus becomes complicated and expensive.
[0005]
[Problems to be solved by the invention]
Therefore, the present invention provides a laser processing apparatus in which a laser excitation source control unit provides a means for detecting the state of the write control unit by a relatively simple method, thereby preventing laser output in an unintended state and performing excitation. The purpose is to control the source safely.
In addition, a display device that displays to the outside that laser output in an unintended state is prevented is provided so that the user can determine that there is an abnormality in the device.
It is another object of the present invention to display externally that the apparatus is performing laser output outside the apparatus in a normal state so that the user can use the apparatus safely.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention has the following constituent elements.
(1) In a laser marking apparatus having a laser oscillator provided with a Q switch element coaxially, laser excitation source control means for turning on / off a laser excitation light source, and means for detecting a Q switch control signal for opening and closing the Q switch And marking information detection means for detecting that marking processing is being performed by opening and closing the Q switch, and when the marking information detection means detects that marking is not being performed, the Q switch control signal detection means When the open state of the Q switch is detected, the laser excitation source control means turns off the laser excitation light source.
[0007]
(2) Provided with display means for clearly indicating the state of the apparatus, and when the display means detects that the marking information detection means is not marking, the Q switch control signal detection means When the open state of the Q switch is detected, the Q switch signal abnormality detection lamp is turned on and the laser excitation source control means displays that the laser excitation light source is in the OFF state (1). The laser marking apparatus as described.
[0008]
(3) Provided with a display means for clearly indicating the state of the apparatus to the outside. When the marking information detection means detects that the marking is being performed, the display means detects that the Q switch control signal detection means opens the Q switch. The laser marking device according to (1) or (2) above, wherein when the state is detected, the laser output lamp is turned on and displayed by marking.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
In laser marking equipment, laser excitation source control means is provided with means for detecting the state of the writing control unit (Q switch control signal, writing state signal) by a relatively simple method, thereby preventing laser output in an unintended state. When the excitation source is controlled safely and a display device is attached to prevent laser output in an unintended state, the device is displayed as an abnormality and notified to the operator. When the laser output is performed in a normal state, this is displayed to the outside.
[0010]
【Example】
FIG. 1 shows an embodiment of the configuration of the present invention.
In the present embodiment, a description will be given by using a crystal such as Nd: YAG or Nd: YVO4 as the laser medium 3 constituting the laser oscillator 12, and using a laser diode or the like as the laser excitation light source (excitation source) 1. .
[0011]
First, the laser oscillator (co-oscillator) 12 turns on / off the laser output mechanically or optically with the input mirror 11 to which the excitation light from the excitation source 1 is input, and the laser medium 3, and outputs the laser pulse. The Q switch 2 that can be used and the output mirror 10 on the laser beam output side are provided on the same optical axis.
The excitation source 1 and the laser oscillator are connected by a condensing optical system such as an optical fiber (not shown).
[0012]
The excitation source 1 is turned on / off by a command (excitation source control signal 104) from the CPU 6 via the excitation source drive unit 8, and the ON / OFF state is stored in the memory 9 and at the same time the display unit 7 (When the excitation source control signal is ON, the excitation source source driving lamp is turned on and displayed, see S2 in FIG. 3).
As can be seen from the above description, the laser excitation source control means is constituted by the CPU 6 and the excitation source drive unit 8. In addition, the CPU 6 includes Q switch control signal detection means and marking (writing) information detection means, and compares and judges the status of both signals, and outputs a laser excitation source control signal OFF according to the conditions. The program to be installed is incorporated.
[0013]
The Q switch 2 is controlled by ON / OFF of the signal 101 (Q switch control signal) from the write control unit 5 via the Q switch driving unit 4, and when the Q switch control signal 101 is ON, the Q switch 2 is closed and the laser output is stopped. When the signal is OFF, the Q switch 2 is opened and the laser is output to the outside.
The Q switch control signal 101 is input to the Q switch drive unit 4 and also to the CPU 6, and the CPU constantly monitors the ON / OFF state of the Q switch control signal 101 (Q switch control signal detection). )doing.
[0014]
By the way, when performing processing with a Q switch laser, the Q switch control signal 101 is a continuous pulse of ON / OFF, and the workpiece 16 is moved in the XY axis direction in synchronization with the ON / OFF of the pulse. It is moved, or the laser is scanned in the XY axis direction by a galvano scanner or the like.
In the present embodiment, a case where the galvano scanner 14 is used as a scanning system for the workpiece 16 is shown.
[0015]
The galvano scanner 14 controls the respective mirror positions on the XY axes based on the control signal 103 from the writing control unit 5 via the galvano scanner driving unit 13, and converts the laser light output from the laser oscillator 12 to fθ. The light is projected onto the workpiece 16 through the lens 15 and writing processing is performed by a laser.
The writing control unit 5 inputs whether or not writing work as described above is performed to the CPU 6 via the writing state signal 102, and the CPU can always detect marking (writing state) information.
[0016]
FIG. 2 is a detailed explanatory diagram of the display unit 7 according to the embodiment.
In the figure, the display unit 7 includes a lamp 201 indicating that the excitation source is being driven by the excitation control signal 104 from the CPU 6 to indicate to the outside that the excitation source 1 is ON, and the writing control unit 5 is the writing state signal 102. A laser output in progress lamp 202 that informs that the writing control is in progress, and a Q switch signal abnormality detection lamp 203 that displays that the CPU 6 has detected an abnormality in the Q switch control signal 101 under the permission of a specific condition. Each has.
As shown in FIG. 1, the lamps of the display unit 7 are connected to the CPU 6 and blink according to a predetermined output signal from the CPU 6.
[0017]
Next, the operation of the apparatus of the present embodiment will be described using a flowchart.
FIG. 3 mainly explains the operation corresponding to the invention described in item (1).
First, when the CPU 6 outputs the excitation source control signal 104 to OFF (see S1), the excitation source drive unit 8 does not operate in FIG. 1, the excitation source 1 is the same, and the excitation source control signal 104 of the CPU 6 is OFF. In addition, the excitation source driving lamp 201 of the display unit 7 is turned off (S6), and the process ends.
When the excitation source control signal 104 is turned on and the excitation source drive unit 8 and the excitation source 1 are operated to output a laser (S1), the CPU 6 indicates that the excitation source control signal 104 is ON and the laser is in an output state. , The excitation source driving lamp 201 of the display unit 7 is turned on (S2), the fact that the laser oscillator is in an operating state is displayed to the outside, and then the state of the writing state signal 102 (marking process or unprocessed) ) (S3).
[0018]
When the CPU 6 detects that the write status signal 102 is being written, the process is terminated. The excitation source driving lamp 201 of the display unit 7 remains lit.
That is, it is in a normal processing step.
When the CPU 6 detects that the write state signal 102 is not being written (unprocessed), it next determines the state of the Q switch control signal 101 (S4).
When the CPU 6 detects that the Q switch control signal 101 is ON, that is, when the Q switch 2 is closed and the laser output is shut off, the processing is terminated.
In this state, there is no fear that the laser beam is output to the outside.
[0019]
When the Q switch control signal 101 is in the OFF state, that is, when the Q switch 2 is in the open state and laser output is possible, the CPU 6 determines to turn off the excitation source control signal 104 and turns off the control signal. Is output to stop the operation of the excitation source driving unit 8 and the excitation source 1, and the laser output is stopped (S5).
The Q switch signal abnormality detection lamp 203 of the display unit 7 is turned on (see (S19) and (S20) in FIG. 4 described later).
[0020]
As a result, when the CPU 6 detects that the marking information (writing state signal) detection means is not processing marking, the Q switch control signal 101 is in an OFF state, that is, when the Q switch 2 is detected to be open. The laser excitation can be stopped, the laser output in an unintended state can be prevented, and the excitation source can be controlled safely.
[0021]
FIG. 4 exclusively explains the operation of the invention described in the items (2) and (3). It should be understood that the contents described with reference to the flowchart shown in FIG. 3 also apply to FIGS.
In the figure, the processes of S11, S12, and S16 are the same as the processes of S1, S2, and S6 in the flowchart shown in FIG.
Next, the operation of the invention described in item (2) will be described.
When the CPU 6 detects that the excitation source control signal 104 is ON, the excitation source driving lamp 201 of the display unit 7 is turned on (S12), and then the state of the writing state signal 102 is determined (S13). ) If not in writing (unprocessed), the state of the Q switch control signal 101 is determined (S18).
[0022]
Therefore, when the Q switch control signal 101 is OFF, that is, when it is detected that the Q switch 2 is open and laser output is possible, the excitation source control signal 104 is turned OFF to stop the driving of the excitation source 1, and the laser The output is stopped (S19).
Further, the Q switch control signal abnormality detection lamp 203 of the display unit 7 is turned on (S20), it is displayed that there is an abnormality in the apparatus, and the process is terminated.
[0023]
On the other hand, when it is detected that the Q switch control signal 101 is ON, that is, when the Q switch 2 is closed and the laser output is cut off, the Q switch control signal abnormality detection lamp 203 of the display unit 7 is turned on. The lamp is turned off (not lit), and the process is terminated (S21).
[0024]
Next, the operation of the invention described in item (3) will be described.
In the flowchart of FIG. 4, when the CPU 6 detects that the write state signal 102 is in a writing state (S13), the state of the Q switch control signal 101 is determined (S14).
When the Q switch control signal 101 is OFF, that is, when the Q switch 2 is open and laser output is possible, the laser output lamp 202 on the display unit 7 is turned on (S15), and the process is terminated.
[0025]
When the Q switch control signal 101 is ON, that is, when the Q switch 2 is closed and the laser output is interrupted, the laser output in progress lamp 202 of the display unit 7 is turned off (S17), and the process is terminated.
In short, only when the excitation source control signal is ON, the write status signal is being written, and the Q switch control signal is OFF, the predetermined lamp is lit and the laser marking device is operating normally. When it is detected that the Q switch is in the open state even though it is not in the writing state, the excitation source control signal is immediately turned OFF and the Q switch signal abnormality detection lamp is turned on. Announcements of abnormalities are made to protect the safety of workers by relatively simple means.
[0026]
【The invention's effect】
Since the present invention is as described above,
(1) The Q switch control signal 101 and the write state signal 102 are respectively input to the CPU 6 to detect a state indicating that the excitation source 1 is in the ON state and the write state signal 102 is not being written, and the Q switch control is performed. If the signal is detected to be off, the CPU 6 outputs an excitation source control signal OFF and the program is set to stop the laser output. It is possible to prevent.
[0027]
(2) The display unit 7 connected to the CPU 6 includes the Q switch signal abnormality detection lamp 203, and the Q switch control signal when the excitation source 1 is in the ON state and the writing state signal 102 is not being written. Is OFF (the laser can be output to the outside), the CPU 6 outputs the excitation source control signal OFF, stops the laser output via the excitation source drive unit 8, and changes the state to Q The switch signal abnormality detection lamp is turned on to indicate that there is an abnormality in the device.
[0028]
(3) When the display unit connected to the CPU 6 detects that the excitation source 1 is ON and the writing state signal 102 is being written, and detects that the Q switch control signal is OFF , A laser output in progress lamp 202 that can clearly indicate that the laser output state is being written is displayed by lighting the lamp. That is, it indicates that the apparatus is outputting laser in a normal state.
As compared with the conventional apparatus, it is possible to achieve a special operation and effect such that the laser excitation light source can be controlled safely and the safety of the operator can be ensured by simple means.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a configuration example of a device of the present invention.
FIG. 2 is a detailed explanatory diagram of a display unit of the device of the present invention.
FIG. 3 is a flowchart for explaining the operation of the apparatus of the present invention.
FIG. 4 is another flowchart for explaining the operation of the apparatus of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Excitation source 2 Q switch 3 Laser medium 4 Q switch drive part 5 Write control part 6 CPU
DESCRIPTION OF SYMBOLS 7 Display part 8 Excitation source drive part 9 Memory 10 Output mirror 11 Input mirror 12 Laser oscillator 13 Galvano scanner drive part 14 Galvano scanner 15 f (theta) lens 16 Work piece 101 Q switch control signal 102 Write state signal 103 Galvano scanner control signal 104 Excitation Source control signal 201 Excitation source driving lamp 202 Laser output lamp 203 Q switch signal abnormality detection lamp

Claims (3)

In a laser marking device having a laser oscillator having a Q switch element coaxially,
Laser excitation source control means for turning on / off a laser excitation light source; means for detecting a Q switch control signal for opening and closing the Q switch;
Marking information detecting means for detecting that marking processing is being performed by opening and closing the Q switch,
When the marking information detection unit detects that marking is not being performed, and the Q switch control signal detection unit detects the open state of the Q switch, the laser excitation source control unit selects the laser excitation light source. Laser marking device characterized by being turned off. Display means for indicating the state of the device to the outside, and when the marking information detection means detects that marking is not being performed, the display means detects the Q switch control signal when the Q switch control signal detection means 2. The laser marking device according to claim 1, wherein when the open state is detected, the Q switch signal abnormality detection lamp is turned on, and the laser excitation source control means displays that the laser excitation light source is in an OFF state. . Provided with a display means for clearly indicating the state of the apparatus, the display means detects the open state of the Q switch when the marking information detection means detects that marking is being performed. 3. A laser marking device according to claim 1, wherein the laser marking lamp is turned on and displayed when the laser is output.

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