CN210413039U - Large-breadth mobile module laser processing equipment - Google Patents
Large-breadth mobile module laser processing equipment Download PDFInfo
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- CN210413039U CN210413039U CN201921253250.0U CN201921253250U CN210413039U CN 210413039 U CN210413039 U CN 210413039U CN 201921253250 U CN201921253250 U CN 201921253250U CN 210413039 U CN210413039 U CN 210413039U
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Abstract
The utility model provides a large-breadth mobile module laser processing device, which comprises a main machine cabinet, a controller component, a laser processing component and an object positioning component; the laser processing assembly comprises an up-down lifting mechanism arranged at the upper part of the main cabinet in an erected mode and a laser light path assembly which is arranged on the up-down lifting mechanism and can move up and down on the up-down lifting mechanism; the object positioning assembly comprises an XY axis moving module assembly arranged on the upper part of the main cabinet and a jig positioning assembly positioned on the upper part of the XY axis moving module assembly; the jig positioning assembly comprises a jig mounting frame, a jig panel and a first driving motor, wherein the jig panel is arranged on the jig mounting frame and can rotate around a fixed shaft, the first driving motor is used for driving the jig panel to rotate axially, in the practical application process, the XY-axis moving module assembly and the jig positioning assembly are combined to adjust the object to be processed in the XY direction and the inclination angle, and an up-down lifting mechanism is combined, so that a low-power laser can scan and process the large-width 300 x 600 workpiece at high precision.
Description
[ technical field ]
The utility model relates to a laser beam machining equipment technical field especially relates to a structural design is reasonable, and module laser beam machining equipment is removed to big breadth that machining efficiency is high.
[ background art ]
In recent years, laser processing equipment has been rapidly developed and popularized, and due to the adoption of laser processing, the actual processing efficiency is remarkably improved, and the processing mode which is complex, unfavorable for cutting and low in efficiency is improved.
However, the existing laser processing equipment still has more defects, such as the fact that the special processing surface cannot realize accurate processing, the actual efficiency cannot meet the requirements in some occasions, and the like, and the better application of the equipment is restricted.
Based on this, those skilled in the art have made a lot of research and development and experiments, and have started to improve and improve from the specific configuration part of the laser processing apparatus, and have achieved better results.
[ contents of utility model ]
For overcoming the problem that prior art exists, the utility model provides a module laser beam machining equipment is removed to structural design is reasonable, the big breadth that machining efficiency is high.
The utility model provides a solution to the technical problem to provide a large-breadth mobile module laser processing device, which comprises a main cabinet, a controller component arranged in the main cabinet, a laser processing component arranged on the upper part of the main cabinet and an article positioning component for bearing an article to be processed; the laser processing assembly comprises an up-down lifting mechanism erected on the upper part of the main cabinet and a laser light path assembly which is arranged on the up-down lifting mechanism and can move up and down on the up-down lifting mechanism; the object positioning assembly comprises an XY axis moving module assembly arranged at the upper part of the main cabinet and a jig positioning assembly positioned at the upper part of the XY axis moving module assembly; the jig positioning assembly comprises a jig mounting frame, a jig panel which is arranged on the jig mounting frame and can rotate around a fixed shaft, and a first driving motor which is used for driving the jig panel to rotate axially; the laser processing assembly, the XY axis moving module assembly, the first driving motor and the controller assembly are electrically connected.
Preferably, the XY-axis moving module assembly includes a transverse moving guide rail and a vertical moving guide rail erected on the transverse moving guide rail; the jig positioning assembly is integrally arranged on the vertical movable guide rail.
Preferably, the laser optical path component comprises a laser emission bin, and a laser, a beam expander, a three-dimensional dynamic focusing galvanometer, a scanning galvanometer and a field lens which are arranged inside the laser emission bin; the light beam emitted by the laser firstly irradiates to the beam expander, then enters the three-dimensional dynamic focusing galvanometer through the beam expander, and finally reaches the scanning galvanometer area.
Preferably, the front part of the main cabinet is further provided with a control panel for operating and controlling equipment and a signal display screen for displaying signals; the side part of the main cabinet is also provided with a plurality of cooling fans for improving the heat dissipation performance of the equipment.
Preferably, the laser light path component is connected with a field lens component used for changing the laser emission direction and carrying out laser processing on the object in the panel of the jig at the upper side part of the jig positioning component.
Preferably, a plurality of article placing grooves for arranging articles to be processed are formed in the jig panel in a matrix manner.
Preferably, the first driving motor is installed at an end part of one end of the jig mounting frame.
Compared with the prior art, the large-breadth mobile module laser processing equipment of the utility model has the advantages that through the simultaneous arrangement of the main cabinet 11, the controller component arranged in the main cabinet 11, the laser processing component arranged on the upper part of the main cabinet 11 and the object positioning component structure for bearing the object to be processed, the laser processing component is designed to comprise an up-down lifting mechanism 13 arranged on the upper part of the main cabinet 11 and a laser light path component 12 arranged on the up-down lifting mechanism 13 and capable of moving up and down on the up-down lifting mechanism 13, the object positioning component comprises an XY-axis mobile module component arranged on the upper part of the main cabinet 11 and a jig positioning component 16 arranged on the upper part of the XY-axis mobile module component, and the jig positioning component 16 comprises a jig mounting frame 163, a jig panel 161 arranged on the jig mounting frame 163 and capable of rotating around a fixed shaft and a first driving motor 162 for driving the jig panel 161 to rotate axially, in the practical application process, the XY-axis moving module component and the jig positioning component 16 are combined to adjust the object to be processed in the XY direction and the inclination angle, and the up-down lifting mechanism 13 is combined, so that a small-power laser can scan and process a large-width 300 x 600 workpiece at high precision.
[ description of the drawings ]
Fig. 1 and fig. 2 are schematic diagrams of a three-dimensional structure of a large-format mobile module laser processing device according to the present invention.
[ detailed description of the invention ]
To make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1 and 2, the laser processing apparatus 1 of the present invention includes a main cabinet 11, a controller assembly disposed inside the main cabinet 11, a laser processing assembly disposed on the upper portion of the main cabinet 11, and an article positioning assembly for supporting an article to be processed; the laser processing assembly comprises an up-down lifting mechanism 13 erected on the upper part of the main cabinet 11 and a laser light path assembly 12 which is arranged on the up-down lifting mechanism 13 and can move up and down on the up-down lifting mechanism 13; the object positioning assembly comprises an XY axis moving module assembly arranged at the upper part of the main cabinet 11 and a jig positioning assembly 16 positioned at the upper part of the XY axis moving module assembly; the jig positioning assembly 16 comprises a jig mounting frame 163, a jig panel 161 which is arranged on the jig mounting frame 163 and can rotate around a fixed shaft, and a first driving motor 162 for driving the jig panel 161 to rotate axially; the laser processing assembly, the XY axis moving module assembly, the first driving motor 162 and the controller assembly are electrically connected.
The laser processing device comprises a main cabinet 11, a controller component arranged in the main cabinet 11, a laser processing component arranged on the upper part of the main cabinet 11, and a workpiece positioning component structure for bearing a workpiece to be processed, wherein the laser processing component is designed to comprise an up-down lifting mechanism 13 erected on the upper part of the main cabinet 11, and a laser light path component 12 arranged on the up-down lifting mechanism 13 and capable of moving up and down on the up-down lifting mechanism 13, the workpiece positioning component comprises an XY axis moving module component arranged on the upper part of the main cabinet 11 and a jig positioning component 16 arranged on the upper part of the XY axis moving module component, the jig positioning component 16 comprises a jig mounting frame 163, a jig panel 161 which is arranged on the jig mounting frame 163 and capable of rotating around a fixed shaft, and a first driving motor 162 for driving the jig panel 161 to axially rotate, in the practical application process, the XY-axis moving module component and the jig positioning component 16 are combined to adjust the object to be processed in the XY direction and the inclination angle, and the up-down lifting mechanism 13 is combined, so that a small-power laser can scan and process a large-width 300 x 600 workpiece at high precision.
Preferably, the XY-axis moving module assembly includes a lateral moving guide 14 and a vertical moving guide 15 mounted on the lateral moving guide 14; the jig positioning assembly 16 is integrally mounted on the vertical moving guide 15.
Preferably, the laser optical path component comprises a laser emission bin, and a laser, a beam expander, a three-dimensional dynamic focusing galvanometer, a scanning galvanometer and a field lens which are arranged inside the laser emission bin; the light beam emitted by the laser firstly irradiates to the beam expander, then enters the three-dimensional dynamic focusing galvanometer through the beam expander, and finally reaches the scanning galvanometer area.
Preferably, the front part of the main cabinet 11 is further provided with a control panel 113 for device operation and control and a signal display screen 112 for signal display; a plurality of heat dissipation fans 111 for improving heat dissipation performance of the device are further disposed at the side of the main cabinet 11.
Preferably, the laser path assembly 12 is connected to a field lens assembly 121 for changing the laser emission direction and performing laser processing on the object in the jig panel 161 at the upper side of the jig positioning assembly 16.
Preferably, the jig panel 161 is provided with a plurality of object placing grooves for placing objects to be processed in a matrix manner.
Preferably, the first driving motor 162 is installed at an end portion of one end of the jig mounting frame 163.
Compared with the prior art, the large-breadth mobile module laser processing equipment 1 of the utility model is characterized in that the laser processing component comprises an up-down lifting mechanism 13 arranged on the upper part of the main cabinet 11, and a laser light path component 12 arranged on the up-down lifting mechanism 13 and capable of moving up and down on the up-down lifting mechanism 13, and the object positioning component comprises an XY-axis mobile module component arranged on the upper part of the main cabinet 11 and a jig positioning component 16 arranged on the upper part of the XY-axis mobile module component, wherein the laser processing component is simultaneously arranged on the main cabinet 11, a controller component arranged in the main cabinet 11, a laser processing component arranged on the upper part of the main cabinet 11 and an object positioning component structure for bearing an object to be processed, the jig positioning component 16 comprises a jig mounting frame 163, a jig panel 161 which can rotate around a fixed shaft and a first driving motor 162 for driving the jig panel 161 to rotate axially, in the practical application process, the XY-axis moving module component and the jig positioning component 16 are combined to adjust the object to be processed in the XY direction and the inclination angle, and the up-down lifting mechanism 13 is combined, so that a small-power laser can scan and process a large-width 300 x 600 workpiece at high precision.
The above-mentioned embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.
Claims (7)
1. The utility model provides a big breadth removes module laser beam machining equipment which characterized in that: the laser processing device comprises a main cabinet, a controller assembly arranged in the main cabinet, a laser processing assembly arranged on the upper part of the main cabinet and an article positioning assembly used for bearing an article to be processed; the laser processing assembly comprises an up-down lifting mechanism erected on the upper part of the main cabinet and a laser light path assembly which is arranged on the up-down lifting mechanism and can move up and down on the up-down lifting mechanism; the object positioning assembly comprises an XY axis moving module assembly arranged at the upper part of the main cabinet and a jig positioning assembly positioned at the upper part of the XY axis moving module assembly; the jig positioning assembly comprises a jig mounting frame, a jig panel which is arranged on the jig mounting frame and can rotate around a fixed shaft, and a first driving motor which is used for driving the jig panel to rotate axially; the laser processing assembly, the XY axis moving module assembly, the first driving motor and the controller assembly are electrically connected.
2. The large format mobile module laser processing apparatus of claim 1, wherein: the XY axis moving module assembly comprises a transverse moving guide rail and a vertical moving guide rail which is erected on the transverse moving guide rail; the jig positioning assembly is integrally arranged on the vertical movable guide rail.
3. The large format mobile module laser processing apparatus of claim 1, wherein: the laser light path component comprises a laser emission bin, and a laser, a beam expanding lens, a three-dimensional dynamic focusing galvanometer, a scanning galvanometer and a field lens which are arranged in the laser emission bin; the light beam emitted by the laser firstly irradiates to the beam expander, then enters the three-dimensional dynamic focusing galvanometer through the beam expander, and finally reaches the scanning galvanometer area.
4. The large format moving module laser processing apparatus of any one of claims 1 to 3, wherein: the front part of the main cabinet is also provided with a control panel for controlling equipment and a signal display screen for displaying signals; the side part of the main cabinet is also provided with a plurality of cooling fans for improving the heat dissipation performance of the equipment.
5. The large format mobile module laser processing apparatus of claim 1, wherein: the laser light path component is connected with a field lens component which is used for changing the laser emission direction and carrying out laser processing on the object in the panel of the jig at the upper side part of the jig positioning component.
6. The large format mobile module laser processing apparatus of claim 1, wherein: a plurality of article standing grooves used for arranging articles to be processed are formed in the jig panel in a matrix mode.
7. The large format mobile module laser processing apparatus of claim 1, wherein: the first driving motor is installed at the end head part of one end of the jig mounting frame.
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CN201921253250.0U CN210413039U (en) | 2019-08-05 | 2019-08-05 | Large-breadth mobile module laser processing equipment |
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CN201921253250.0U CN210413039U (en) | 2019-08-05 | 2019-08-05 | Large-breadth mobile module laser processing equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115430924A (en) * | 2022-11-03 | 2022-12-06 | 广东国玉科技股份有限公司 | Laser carving equipment |
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2019
- 2019-08-05 CN CN201921253250.0U patent/CN210413039U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115430924A (en) * | 2022-11-03 | 2022-12-06 | 广东国玉科技股份有限公司 | Laser carving equipment |
CN115430924B (en) * | 2022-11-03 | 2023-02-28 | 广东国玉科技股份有限公司 | Laser etching equipment |
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