Electric heating – Metal heating – By arc
Reexamination Certificate
2002-01-11
2003-05-27
Heinrich, Samuel M. (Department: 1725)
Electric heating
Metal heating
By arc
Reexamination Certificate
active
06570121
ABSTRACT:
TECHNICAL FIELD
This invention relates to a laser working apparatus for working in a laser beam and in particular to a laser working apparatus for enabling beam on/off or a work condition to be changed in a work program.
BACKGROUND OF THE INVENTION
FIG. 3
is a block diagram of a general laser working apparatus. In the figure, a CPU
1
reads a work program, a work condition, a parameter, etc., stored in RAM
3
based on a control program stored in ROM
2
and controls the whole laser working apparatus. Key operation of setting a parameter, etc., screen display, and the like are performed through a setting and display
4
. An I/O unit
5
inputs/outputs a signal responsive to turning on/off a laser beam or a work condition from/to a laser oscillator
6
and a working machine
7
in response to processing of the CPU
1
. A servo amplifier
8
drives a servomotor of each axis of the working machine in response to an axis move command of the CPU
1
.
FIG. 4
is a block diagram of work program processing in a related art. Program analysis means
10
analyzes a work program
9
input to a laser working apparatus and if a position command exists, sends a move command of each axis to interpolation means
11
. The interpolation means
11
performs interpolation processing responsive to a command speed and a command position and outputs a move distance to a servo amplifier
8
. If the work program contains a beam on/off command or a work condition command, the program analysis means
10
analyzes the command and sends a signal output command to an I/O unit
5
.
FIG. 5
shows an example of a work program for making a circular hole and
FIG. 6
shows an axis move locus in the program. Block N
01
is a beam on command and hole making called piercing is performed at this position. In block N
02
, cutting is executed from the piercing position to the circumferential portion of the circular hole. In block N
03
, the circumferential portion is cut. In block N
04
, the inside is entered from the circumferential portion with the beam on. In block N
05
, the beam is turned off. If working is performed starting at the circumference, the piercing trail is left in the circular hole and thus working often is started at the inside as in block N
02
. If moving is stopped at the end point of N
03
where the circular hole is cut out and the beam is turned off, a slight convex part of the cutout part may remain and thus a method of escaping to the inside of the circular hole with the beam on as in N
04
may be adopted.
FIG. 7
is a schematic drawing of axis move, beam on/off processing, and work time when the work program in
FIG. 5
is processed in the work program processing in the related art. In N
01
, beam on processing is performed and after the beam is turned on, move in N
02
, N
03
, N
04
is executed and after the move terminates, the beam is turned off in N
05
. The work time becomes T in total.
Since the work locus in N
02
and N
04
does not relate to the actually necessary work shape (in this case, circular hole), if the beam is turned on during moving in N
02
and is turned off during moving in N
04
, the work time can be shortened. For this purpose, however, if a beam on/off command and a move command are entered in the same block, for example, as in
FIG. 8
, the beam is turned on at the same time as move start in N
02
and is turned off at the same time as move start in N
04
and thus the beam is not always turned on/off at a proper position. That is, the N
03
block may be entered before a sufficient beam passes through a workpiece, or a beam may be turned off before sufficiently escaping from the circumference.
To deal with this, it becomes necessary to prepare a program by trial and error in such a manner that the move commands in N
02
and N
04
are further subdivided into multiple blocks and a beam on/off command is entered at a proper position; a problem of an extremely cumbersome job is involved. A method of delaying execution of a beam on/off command by a predetermined time interval is also available. However, if move speed is changed or a command with no move (a subprogram call command, a coordinate system setting command, or the like) is inserted, the relationship between the time and the position changes and thus a beam cannot necessarily be turned on/off at a proper position; this is a problem.
It is an object of the invention to solve the above-mentioned problems and provide a laser working apparatus for making it possible to turn on/off a beam at an optimum position during moving by making easy adjustment and shorten the work time.
DISCLOSURE OF THE INVENTION
According to the invention, there is provided a laser working apparatus comprising program analysis means for analyzing a work program and outputting a move command of each axis and an on/off command for turning on/off a laser beam, interpolation means for performing interpolation processing based on the move command and outputting a move distance to a servo amplifier, move distance setting means for setting a move distance for delay operation, and beam on/off delay means for delaying a beam on/off command output to a laser oscillator based on the actual move distance after the on/off command is output and the move distance for delay operation.
Therefore, if a beam on/off command is given in the work program, a signal output command is not immediately sent and when the actual move distance after the beam on/off command is output reaches the setup move distance for delay operation, a beam on/off signal output command is sent, so that adjustment can be made so as to turn on/off the beam at a proper position simply by changing the setup move distance, and it is made possible to shorten the work time.
In the laser working apparatus of the invention, the move distance setting means enables the move distance for delay operation for beam on and the move distance for delay operation for beam off to be set to separate values.
Therefore, beam on and beam off can be easily adjusted to proper positions.
According to the invention, there is provided a laser working apparatus comprising program analysis means for analyzing a work program and outputting a move command of each axis and a change command for changing a work condition, interpolation means for performing interpolation processing based on the move command and outputting a move distance to a servo amplifier, move distance setting means for setting a move distance for delay operation, and condition change delay means for delaying the timing of actually changing the work condition based on the actual move distance after the change command is output and the move distance for delay operation.
Therefore, to use work condition change as an alternative to beam on/off, the work condition change is not immediately executed and when the actual move distance after a work condition change command is output reaches the setup move distance for delay operation, the work condition change is executed, so that adjustment can be made so as to execute the work condition change at a proper position simply by changing the setup move distance, and it is made possible to shorten the work time.
In the laser working apparatus of the invention, the move distance setting means enables the move distance for delay operation applied if a predetermined work condition value increases and the move distance for delay operation applied if the predetermined work condition value decreases to be set to separate values.
Therefore, each work condition change can be easily adjusted to a proper position.
REFERENCES:
patent: 4-33788 (1992-02-01), None
patent: 7-112287 (1995-05-01), None
patent: 7-223085 (1995-08-01), None
patent: 9-66377 (1997-03-01), None
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