JP2008030070A5 - - Google Patents

Claims (18)

A laser processing apparatus capable of processing a processing target surface of a processing target disposed in a work area by irradiating a laser beam and processing it into a desired processing pattern,
A laser oscillation unit for generating laser light;
A laser beam scanning system for scanning a laser beam emitted from the laser oscillation unit within a work area;
A laser control unit for controlling the laser oscillation unit and the laser beam scanning system;
A processing condition setting unit for setting a three-dimensional shape and a processing pattern of a processing target surface as a processing condition for processing into a desired processing pattern;
In accordance with the processing conditions set in the processing condition setting unit, a processing data generation unit that generates laser processing data of the processing target surface,
A processing image display unit capable of two-dimensionally and / or three-dimensionally displaying an image of the laser processing data generated by the processing data generation unit;
With
The processing condition setting unit further includes:
Machining pattern input means for inputting a machining pattern as two-dimensional information;
Machining surface profile input means for inputting profile information indicating the three-dimensional shape of the machining target surface;
With
3D as a reference for the machining surface profile input means to convert the 2D information of the machining pattern input from the machining pattern input means into 3D laser machining data according to a 3D machining target surface A laser processing apparatus characterized in that a basic figure representing a typical processing target surface can be specified. A laser processing apparatus capable of processing a processing target surface of a processing target disposed in a work area by irradiating a laser beam and processing it into a desired processing pattern,
A laser oscillation unit for generating laser light;
A laser beam scanning system for scanning a laser beam emitted from the laser oscillation unit within a work area;
A laser control unit for controlling the laser oscillation unit and the laser beam scanning system;
A processing condition setting unit for setting a three-dimensional shape and a processing pattern of a processing target surface as a processing condition for processing into a desired processing pattern;
In accordance with the processing conditions set in the processing condition setting unit, a processing data generation unit that generates laser processing data of the processing target surface,
A processing image display unit capable of two-dimensionally and / or three-dimensionally displaying an image of the laser processing data generated by the processing data generation unit;
With
The processing condition setting unit further includes:
Machining pattern input means for inputting a machining pattern as two-dimensional information;
Machining surface profile input means for inputting profile information indicating the three-dimensional shape of the machining target surface;
With
The machining surface profile input means is created in advance as a reference for converting the two-dimensional information of the machining pattern input from the machining pattern input means into the three-dimensional laser machining data according to the three-dimensional machining target surface. A laser processing apparatus configured to be able to input three-dimensional shape data representing a three-dimensional processing target surface from the outside. A laser processing apparatus capable of processing a processing target surface of a processing target disposed in a work area by irradiating a laser beam and processing it into a desired processing pattern,
A laser oscillation unit for generating laser light;
A laser beam scanning system for scanning a laser beam emitted from the laser oscillation unit within a work area;
A laser control unit for controlling the laser oscillation unit and the laser beam scanning system;
A processing condition setting unit for setting a three-dimensional shape and a processing pattern of a processing target surface as a processing condition for processing into a desired processing pattern;
In accordance with the processing conditions set in the processing condition setting unit, a processing data generation unit that generates laser processing data of the processing target surface,
A processing image display unit capable of two-dimensionally and / or three-dimensionally displaying an image of the laser processing data generated by the processing data generation unit;
With
The processing condition setting unit further includes:
Machining pattern input means for inputting a machining pattern as two-dimensional information;
Machining surface profile input means for inputting profile information indicating the three-dimensional shape of the machining target surface;
With
The machining surface profile input means includes:
Basics representing a three-dimensional machining target surface that serves as a reference for converting the two-dimensional information of the machining pattern input from the machining pattern input means into three-dimensional laser machining data according to the three-dimensional machining target surface A basic figure designating means for designating a figure;
3D shape data input means for inputting externally created 3D shape data representing a 3D processing target surface;
The laser processing apparatus is configured to convert two-dimensional information of a processing pattern into three-dimensional laser processing data according to a three-dimensional processing target surface by any means. It is a laser processing apparatus of Claim 2 or 3,
A laser processing apparatus for defining a processing target surface in a state in which the three-dimensional shape data input from the three-dimensional shape data input means is displayed in a desired posture on the processing image display unit. A laser processing apparatus according to any one of claims 2 to 4,
From the 3D shape data input from the 3D shape data input means, a Z coordinate at a position corresponding to the XY coordinates of the 2D information of the machining pattern is extracted and added as height information of the 2D information of the machining pattern. Thus, the two-dimensional information of the processing pattern is converted into three-dimensional laser processing data according to a three-dimensional processing target surface. Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting device for
A processing condition setting unit for setting a three-dimensional shape and a processing pattern of a processing target surface as a processing condition for processing into a desired processing pattern;
A processing image display unit capable of two-dimensionally and / or three-dimensionally displaying an image of the laser processing data of the processing target surface generated according to the processing conditions set in the processing condition setting unit;
With
The processing condition setting unit further includes:
Machining pattern input means for inputting a machining pattern as two-dimensional information;
Machining surface profile input means for inputting profile information indicating the three-dimensional shape of the machining target surface;
With
The machining surface profile input means includes:
Basics representing a three-dimensional machining target surface that serves as a reference for converting the two-dimensional information of the machining pattern input from the machining pattern input means into three-dimensional laser machining data according to the three-dimensional machining target surface A basic figure designating means for designating a figure;
3D shape data input means for inputting externally created 3D shape data representing a 3D processing target surface;
The laser processing data setting device is configured to convert two-dimensional information of a processing pattern into three-dimensional laser processing data according to a three-dimensional processing target surface by any means. Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting device for
A processing condition setting unit for setting a three-dimensional shape and a processing pattern of a processing target surface as a processing condition for processing into a desired processing pattern;
In accordance with the processing conditions set in the processing condition setting unit, a processing data generation unit that generates laser processing data of the processing target surface,
A processing image display unit capable of two-dimensionally and / or three-dimensionally displaying an image of the laser processing data generated by the processing data generation unit;
With
The processing condition setting unit further includes:
Machining pattern input means for inputting a machining pattern as two-dimensional information;
Machining surface profile input means for inputting profile information indicating the three-dimensional shape of the machining target surface;
With
The machining surface profile input means includes:
Basics representing a three-dimensional machining target surface that serves as a reference for converting the two-dimensional information of the machining pattern input from the machining pattern input means into three-dimensional laser machining data according to the three-dimensional machining target surface A basic figure designating means for designating a figure;
3D shape data input means for inputting externally created 3D shape data representing a 3D processing target surface;
The laser processing data setting device is configured to convert two-dimensional information of a processing pattern into three-dimensional laser processing data according to a three-dimensional processing target surface by any means. Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting method for
When setting the three-dimensional shape and the machining pattern of the processing target surface as processing conditions for processing into a desired processing pattern, the processing pattern is input as two-dimensional information, and a basic figure representing the three-dimensional shape of the processing target surface A process of specifying
Transforming the input machining pattern into a three-dimensional shape based on the basic figure and generating three-dimensional laser machining data according to the surface to be machined;
Displaying the generated three-dimensional laser processing data three-dimensionally on the processing image display unit;
A laser processing data setting method comprising: Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting method for
When setting the three-dimensional shape and the machining pattern of the machining target surface as the machining conditions for machining into a desired machining pattern, the machining pattern is input as two-dimensional information, and a previously created three-dimensional machining target surface A step of inputting 3D shape data representing
By extracting the Z coordinate at the position corresponding to the XY coordinate of the two-dimensional information of the machining pattern from the input three-dimensional shape data and adding it as the height information of the two-dimensional information of the machining pattern, the two-dimensional of the machining pattern Converting information into laser processing data according to a three-dimensional processing target surface;
Displaying the converted three-dimensional laser processing data three-dimensionally on the processing image display unit;
A laser processing data setting method comprising: Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting method for
When setting the three-dimensional shape and the machining pattern of the machining target surface as the machining conditions for machining into a desired machining pattern, the machining pattern is input as two-dimensional information, and a previously created three-dimensional machining target surface A step of inputting 3D shape data representing
The input three-dimensional shape data is three-dimensionally displayed on the processing image display unit and adjusted so as to match the position of the processing target surface in the work area. Only the process of extracting,
By extracting the Z coordinate at the position corresponding to the XY coordinate of the two-dimensional information of the machining pattern from the adjusted three-dimensional shape data and adding it as the height information of the two-dimensional information of the machining pattern, the two-dimensional of the machining pattern Converting information into laser processing data according to a three-dimensional processing target surface;
Displaying the converted three-dimensional laser processing data three-dimensionally on the processing image display unit;
A laser processing data setting method comprising: Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting program for
A function of inputting a processing pattern as two-dimensional information when setting a three-dimensional shape and a processing pattern of a processing target surface as processing conditions for processing into a desired processing pattern;
A function of designating a basic figure representing the three-dimensional shape of the processing target surface, or a function of inputting three-dimensional shape data representing a three-dimensional processing target surface created in advance,
A function to generate a 3D laser processing data according to the surface to be processed by transforming the input processing pattern into a 3D shape based on the basic figure, or 2D information of the processing pattern from the input 3D shape data By extracting the Z coordinate at the position corresponding to the XY coordinate of the and adding it as the height information of the two-dimensional information of the processing pattern, the laser processing data according to the three-dimensional processing target surface of the two-dimensional information of the processing pattern With the ability to convert to
A function of three-dimensionally displaying the generated three-dimensional laser processing data on the processing image display unit;
A laser processing data setting program characterized by causing a computer to realize the above. In the processing image display unit, when displaying the image of the processing target surface three-dimensionally, head image display means capable of displaying the image of the head unit of the laser processing apparatus;
The laser processing apparatus according to claim 2, comprising: It is a laser processing apparatus of Claim 12, Comprising:
When the image of the surface to be processed displayed on the processed image display unit is moved, enlarged / reduced, or the viewpoint is changed, the image of the head unit is also moved, enlarged / reduced, or the viewpoint is changed accordingly. Laser processing equipment. The laser processing apparatus according to claim 12 or 13,
A laser processing apparatus configured to be able to display a locus of laser light emitted toward an image of a processing target surface from an image of the head unit displayed on the processing image display unit. The laser processing apparatus according to any one of claims 12 to 14,
The processing condition setting unit can set a moving direction with respect to the head unit when the processing object moves,
The laser processing apparatus according to claim 1, wherein a positional relationship between an image of a processing target surface in the processing image display unit and an image of a head unit is reflected according to the setting. The laser processing apparatus according to claim 15,
The laser processing apparatus, wherein the processing image display unit is configured to be able to display a wider area with respect to the moving direction of the processing object than the work area when the processing object is stationary. The laser processing apparatus according to any one of claims 12 to 16,
The laser beam scanning system is
A beam expander including an incident lens and an exit lens, the optical axis of the incident lens and the exit lens being aligned with the optical axis of the laser light emitted from the laser oscillation unit; A beam expander that can adjust the focal length of the laser light by changing the relative distance of
A first mirror for scanning the laser light transmitted through the beam expander in a first direction;
A second mirror for causing the laser beam reflected by the first mirror to scan in a second direction substantially orthogonal to the first direction;
Have
The first mirror and the second mirror are galvanometer mirrors, which are connected to a galvanometer scanner that can rotate around a substantially orthogonal rotation axis to constitute an X-axis scanner and a Y-axis scanner. A featured laser processing apparatus. Processing data is set based on a desired processing pattern with respect to a laser processing apparatus capable of irradiating a processing target surface of a processing target disposed in a work area with a laser beam and processing the processing target surface into a desired processing pattern. A laser processing data setting device for
A processing condition setting unit for inputting a plurality of processing parameters as processing conditions for processing into a desired processing pattern,
In accordance with the processing conditions set in the processing condition setting unit, a processing image display unit capable of three-dimensionally displaying an image of the processing target surface;
In the processing image display unit, when displaying the image of the processing target surface three-dimensionally, head image display means capable of displaying the image of the head unit of the laser processing apparatus;
A laser processing data setting device comprising: