CN220698557U - Double-cantilever laser cutting workstation - Google Patents
Double-cantilever laser cutting workstation Download PDFInfo
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- CN220698557U CN220698557U CN202322148408.0U CN202322148408U CN220698557U CN 220698557 U CN220698557 U CN 220698557U CN 202322148408 U CN202322148408 U CN 202322148408U CN 220698557 U CN220698557 U CN 220698557U
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- 238000003698 laser cutting Methods 0.000 title claims abstract description 86
- 230000007246 mechanism Effects 0.000 claims description 79
- 230000005540 biological transmission Effects 0.000 claims description 32
- 230000009977 dual effect Effects 0.000 claims description 12
- 238000007599 discharging Methods 0.000 abstract description 13
- 238000000034 method Methods 0.000 abstract description 6
- 230000008569 process Effects 0.000 abstract description 6
- 230000001360 synchronised effect Effects 0.000 abstract description 3
- 238000009434 installation Methods 0.000 description 4
- 238000003754 machining Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
Abstract
The utility model discloses a double-cantilever laser cutting workstation, which comprises a machine tool body formed by a base, a sliding table, a rack and a cantilever and a laser, and is characterized in that: the sliding table comprises a left sliding table and a right sliding table, and the left sliding table and the right sliding table are arranged on the same base; the cantilever that corresponds in left side slip table top is installed in the frame that is located left side slip table left side, the cantilever that corresponds in right side slip table top is installed in the frame that is located right side slip table right side, installs corresponding Z axle straight line module on every cantilever, installs laser cutting head on the output of Z axle straight line module. According to the double-cantilever laser cutting workstation, two groups of racks and two groups of cantilevers are arranged, so that the same set of laser cutting workstation can process two different workpieces at the same time, the two groups of cantilevers cannot interfere with each other, when the two groups of sliding tables alternately operate, the function of synchronous processing and feeding and discharging can be realized, and the operation efficiency of equipment is improved.
Description
Technical Field
The utility model relates to the technical field of laser processing, in particular to a double-cantilever laser cutting workstation.
Background
The existing double-cantilever laser cutting equipment is usually provided with two cantilevers on the same machine tool body, and although the two laser cutting heads on the double cantilevers can simultaneously cut and process workpieces, the machining efficiency is higher than that of the original single-cantilever laser cutting equipment, the two cantilevers on the same machine tool body are easy to generate motion interference, so that the popularization and the application of the equipment are not facilitated.
Disclosure of Invention
The utility model aims to solve the problems in the prior art and provides a double-cantilever laser cutting workstation.
The utility model aims at solving the problems through the following technical scheme:
the utility model provides a two cantilever laser cutting workstations, includes lathe body and laser instrument that base, slip table, frame, cantilever constitute, its characterized in that: the sliding table comprises a left sliding table and a right sliding table, and the left sliding table and the right sliding table are arranged on the same base; the cantilever that corresponds in left side slip table top is installed in the frame that is located left side slip table left side, the cantilever that corresponds in right side slip table top is installed in the frame that is located right side slip table right side, installs corresponding Z axle straight line module on every cantilever, installs laser cutting head on the output of Z axle straight line module.
The left sliding table and the right sliding table are arranged in parallel, and the left sliding table and the right sliding table are respectively corresponding to the racks on two sides of the base.
The cantilever corresponding to the upper part of the left sliding table and the cantilever corresponding to the upper part of the right sliding table are arranged in a back way; the free end of the cantilever corresponding to the upper part of the left sliding table is adjacently arranged with the free end of the cantilever corresponding to the upper part of the right sliding table, and the installation end of the cantilever corresponding to the upper part of the left sliding table is far away from the installation end of the cantilever corresponding to the upper part of the right sliding table.
The base is divided into a processing area and a loading and unloading area according to different functions, the base between the frames is the processing area, the base which extends from the processing area to be far away from the frames is the loading and unloading area, and the sliding table on the base can move back and forth between the loading and unloading area and the processing area.
The feeding and discharging areas are arranged on one side or two sides of the processing area, namely, one end of the processing area is provided with the feeding and discharging areas, or the two ends of the processing area are respectively provided with the feeding and discharging areas.
The laser cutting head is arranged at the output end of the three-dimensional linear motion system.
The three-dimensional linear motion system comprises an X-axis linear transmission mechanism, a Y-axis linear transmission mechanism and a Z-axis linear module, and the cantilever is arranged on the frame through the X-axis linear transmission mechanism, so that the cantilever can reciprocate along the setting direction of the frame; the Y-axis linear transmission mechanism is arranged on the cantilever, and the Z-axis linear module is arranged on the cantilever through the Y-axis linear transmission mechanism, so that the Z-axis linear module can reciprocate along the arrangement direction of the cantilever; the laser cutting head is installed on the output of Z axle straight line module for the laser cutting head can be followed the setting direction round trip operation of Z axle straight line module.
The X-axis linear transmission mechanism comprises an X-axis driving mechanism and an X-axis guide rail, wherein the X-axis guide rail is arranged at the top of the frame, a sliding block structure at the bottom of the cantilever is in sliding connection with the X-axis guide rail, the X-axis driving mechanism is in driving connection with the cantilever, and the X-axis driving mechanism can drive the cantilever to run in the direction limited by the X-axis guide rail.
The Y-axis linear transmission mechanism comprises a Y-axis driving mechanism and a Y-axis guide rail, the Y-axis guide rail is arranged on the cantilever, a sliding block structure at the bottom of the Z-axis linear module installation seat is in sliding connection with the Y-axis guide rail, the Y-axis driving mechanism is in driving connection with the installation seat of the Z-axis linear module, and the Y-axis driving mechanism can drive the Z-axis linear module to run in the direction limited by the Y-axis guide rail.
The Z-axis linear module comprises a Z-axis driving mechanism and a Z-axis guide rail, the Z-axis guide rail is vertically arranged on the side part of the mounting seat of the Z-axis linear module, the sliding block structure at the bottom of the mounting seat of the laser cutting head is in sliding connection with the Z-axis guide rail, the Z-axis driving mechanism is in driving connection with the mounting seat of the laser cutting head, and the Z-axis driving mechanism can drive the laser cutting head to move in the direction limited by the Z-axis guide rail.
The laser cutting head is a three-dimensional cutting head or a two-dimensional cutting head.
The sliding table is used for bearing and fixing a workpiece to be machined, the workpiece is fixed on the sliding table in a manual or automatic mode in the feeding and discharging area, feeding of the workpiece is completed, the sliding table driving mechanism drives the sliding table bearing the workpiece to move to the machining area, the laser cutting head processes the workpiece, after machining is completed, the sliding table returns to the feeding and discharging area, the workpiece is taken down from the sliding table in a manual or automatic mode, and discharging of the workpiece is completed.
One, two or more workpieces can be carried on the same sliding table.
The control center of the double-cantilever laser cutting workstation is connected with a driving mechanism on a machine tool body and a driving mechanism in a three-dimensional linear motion system, the two laser cutting heads and the two sliding tables are controlled to cooperatively operate through multi-axis linkage, meanwhile, the control center is connected with a laser, the start and stop of the laser, the output power, the frequency and other laser performance indexes are controlled, and the laser cutting heads are enabled to cut and process a workpiece in a preset track through linkage control of the driving mechanism and the laser.
Compared with the prior art, the utility model has the following advantages:
according to the double-cantilever laser cutting workstation, two groups of racks and two groups of cantilevers are arranged, so that the same set of laser cutting workstation can process two different workpieces at the same time, the two groups of cantilevers cannot interfere with each other, when the two groups of sliding tables alternately operate, the function of synchronous processing and feeding and discharging can be realized, and the operation efficiency of equipment is improved.
Drawings
FIG. 1 is a schematic diagram of a dual cantilever laser cutting workstation of the present utility model;
FIG. 2 is a schematic view of a dual cantilever laser cutting station of the present utility model concealing a cover on a frame;
fig. 3 is a top view of a dual cantilever laser cutting station of the present utility model.
Wherein: 1-a machine tool body; 101-a base; 1011-a processing zone; 1012-an up-down feeding area; 102-a sliding table; 1021-left slipway; 1022-right slipway; 103-a frame; 104-cantilever; 2-three-dimensional rectilinear motion system; 201-X axis linear transmission mechanism; 2011-X axis driving mechanism; 2012-X axis guide rail; 202-Y axis linear transmission mechanism; 2021-Y axis drive mechanism; 2022-Y-axis guide rail; 203-a Z-axis straight line module; 2031-Z drive mechanism; 2032-Z axis guide rail; 3-a laser cutting head; 301-left laser cutting head; 302-right laser cutting head.
Description of the embodiments
The utility model is further described below with reference to the drawings and examples.
As shown in fig. 1-3: the double-cantilever laser cutting workstation comprises a machine tool body 1 formed by a base 101, a sliding table 102, a frame 103 and a cantilever 104 and a laser (not shown), wherein the sliding table 102 comprises a left sliding table 1021 and a right sliding table 1022, and the left sliding table 1021 and the right sliding table 1022 which are arranged in parallel are arranged on the same base 101; the cantilever 104 corresponding to the upper part of the left sideslip platform 1021 is arranged on the frame 103 positioned on the left side of the left sideslip platform 1021, the cantilever 104 corresponding to the upper part of the right sideslip platform 1022 is arranged on the frame 103 positioned on the right side of the right sideslip platform 1022, each cantilever 104 is provided with a corresponding Z-axis linear module 203, the output end of the Z-axis linear module 203 is provided with a laser cutting head 3, and the laser cutting head 3 is a three-dimensional cutting head or a two-dimensional cutting head.
In the above structure, the cantilever 104 corresponding to the upper side of the left slide 1021 and the cantilever 104 corresponding to the upper side of the right slide 1022 are arranged back to back; that is, the free end of the cantilever 104 above the left slide table 1021 is disposed adjacent to the free end of the cantilever 104 above the right slide table 1022, and the attachment end of the cantilever 104 above the left slide table 1021 is disposed away from the attachment end of the cantilever 104 above the right slide table 1022.
In the above structure, the base 101 is divided into the processing area 1011 and the loading and unloading area 1012 according to different functions, the base 101 located between the frames 103 is the processing area 1011, the base 101 extending from the processing area 1011 away from the frames 103 is the loading and unloading area 1012, and the sliding table 102 on the base 101 can move back and forth between the loading and unloading area 1012 and the processing area 1011.
In the above structure, the laser cutting head 3 is mounted at the output end of the three-dimensional linear motion system 2, the three-dimensional linear motion system 2 includes an X-axis linear transmission mechanism 201, a Y-axis linear transmission mechanism 202, and a Z-axis linear module 203, and the cantilever 104 is mounted on the frame 103 through the X-axis linear transmission mechanism 201, so that the cantilever 104 can reciprocate along the setting direction of the frame 103; the Z-axis linear module 203 is mounted on the cantilever 104 through the Y-axis linear transmission mechanism 202, so that the Z-axis linear module 203 can reciprocate along the setting direction of the cantilever 104; the laser cutting head 3 is mounted on the output end of the Z-axis straight line module 203 such that the laser cutting head 3 can reciprocate along the setting direction of the Z-axis straight line module 203.
Specifically, the X-axis linear transmission mechanism 201 includes an X-axis driving mechanism 2011 and an X-axis guide rail 2012, the X-axis guide rail 2012 is mounted on the top of the rack 103, and a slider structure at the bottom of the cantilever 104 is slidingly connected to the X-axis guide rail 2012, the X-axis driving mechanism 2011 is drivingly connected to the cantilever 104, and the X-axis driving mechanism 2011 is capable of driving the cantilever 104 to operate in a direction defined by the X-axis guide rail 2012; the Y-axis linear transmission mechanism 202 comprises a Y-axis driving mechanism 2021 and a Y-axis guide rail 2022, the Y-axis guide rail 2022 is arranged on the cantilever 104, a sliding block structure at the bottom of a mounting seat of the Z-axis linear module 203 is in sliding connection with the Y-axis guide rail 2022, the Y-axis driving mechanism 2021 is in driving connection with the mounting seat of the Z-axis linear module 203, and the Y-axis driving mechanism 2021 can drive the Z-axis linear module 203 to run in the direction defined by the Y-axis guide rail 2022; the Z-axis linear module 203 includes a Z-axis driving mechanism 2031 and a Z-axis guide rail 2032, the Z-axis guide rail 2032 is vertically installed on the side of the mounting seat of the Z-axis linear module 203 and the slider structure at the bottom of the mounting seat of the laser cutting head 3 is slidably connected with the Z-axis guide rail 2032, the Z-axis driving mechanism 2031 is in driving connection with the mounting seat of the laser cutting head 3, and the Z-axis driving mechanism 2031 can drive the laser cutting head 3 to run in the direction defined by the Z-axis guide rail 2032.
Examples
As shown in fig. 1-3: the double-cantilever laser cutting workstation comprises a machine tool body 1 and a laser (not shown), wherein the machine tool body 1 is composed of a base 101, a sliding table 102, a rack 103 and a cantilever 104, the sliding table 102 is arranged on the base 101, the cantilever 104 is arranged on the rack 103, the cantilever 104 can reciprocate along the arrangement direction of the rack 103, a Z-axis linear module 203 is arranged on the cantilever 104, the Z-axis linear module 203 can reciprocate along the arrangement direction of the cantilever 104, a laser cutting head 3 is arranged on the Z-axis linear module 203, and the laser cutting head 3 can vertically reciprocate on the Z-axis linear module 203; wherein, the frame 103 and the cantilever 104 are respectively provided with two groups, the two groups of frames 103 and the cantilever 104 are oppositely arranged at two sides of the base 101, and the two groups of sliding tables 102 on the base 101 are respectively corresponding to the frames 103 and the cantilever 104 at two sides of the base 101.
A set of three-dimensional linear motion system 2 is arranged on any group of machine frame 103 and cantilever 104, the three-dimensional linear motion system 2 comprises an X-axis linear transmission mechanism 201, a Y-axis linear transmission mechanism 202 and a Z-axis linear module 203, the X-axis linear transmission mechanism 201 is arranged on the machine frame 103, the cantilever 104 is in sliding connection with the X-axis linear transmission mechanism 201, the Y-axis linear transmission mechanism 202 is arranged on the cantilever 104, the mounting seat of the Z-axis linear module 203 is in sliding connection with the Y-axis linear transmission mechanism 202, the Z-axis linear module 203 is provided with a laser cutting head 3 in sliding manner, and the laser cutting head 3 is connected with a laser through an optical path.
Specifically, the X-axis linear transmission mechanism 201 is disposed on the rack 103, the X-axis linear transmission mechanism 201 includes an X-axis driving mechanism 2011 and an X-axis guide rail 2012, the cantilever 104 is in driving connection with the X-axis driving mechanism 2011 and is slidingly connected with the X-axis guide rail 2012, and the X-axis driving mechanism 2011 is capable of driving the cantilever 104 to operate in a direction defined by the X-axis guide rail 2012; the Y-axis linear transmission mechanism 202 is arranged on the cantilever 104, the Y-axis linear transmission mechanism 202 comprises a Y-axis driving mechanism 2021 and a Y-axis guide rail 2022, a mounting seat of the Z-axis linear module 203 is in driving connection with the Y-axis driving mechanism 2021 and in sliding connection with the Y-axis guide rail 2022, and the Y-axis driving mechanism 2021 can drive the mounting seat of the Z-axis linear module 203 to run in the direction limited by the Y-axis guide rail 2022; the Z-axis linear module 203 comprises a Z-axis driving mechanism 2031 and a Z-axis guide rail 2032, a mounting seat with a sliding block is arranged on the Z-axis guide rail 2032, the laser cutting head 3 is fixedly arranged on the mounting seat, the Z-axis driving mechanism 2031 is in driving connection with the mounting seat, and the Z-axis driving mechanism 2031 can drive the laser cutting head 3 to reciprocate along the setting direction of the Z-axis guide rail 2032.
The base 101 is divided into a processing area 1011 and an upper and lower material area 1012 according to different functions, the base 101 between the two side frames 103 is the processing area 1011, and the base 101 extending from the processing area 1011 away from the frame 103 is the upper and lower material area 1012. Two groups of sliding tables 102, namely a left sliding table 1021 and a right sliding table 1022, are arranged on the base 101 in parallel, the left sliding table 1021 and the right sliding table 1022 respectively correspond to the racks 103 on two sides, and the sliding tables 102 on the base 101 can move back and forth between the feeding and discharging area 1012 and the processing area 1011; the sliding table 102 is used for bearing and fixing a workpiece to be processed, the sliding table 102 positions and fixes the workpiece on the sliding table 102 in a manual or automatic mode when the workpiece is fed into the feeding and discharging area 1012, feeding of the workpiece is completed, the sliding table 102 bearing the workpiece is driven by the sliding table driving mechanism to move to the processing area 1011, the workpiece is processed by the laser cutting head 3, after the processing is completed, the sliding table 102 returns to the feeding and discharging area 1012, the workpiece is taken down from the sliding table 102 in a manual or automatic mode, and discharging of the workpiece is completed.
The two laser cutting heads 3 include a left laser cutting head 301 and a right laser cutting head 302, where the left laser cutting head 301 corresponding to the left side sliding table 1021 is capable of cutting a workpiece on the left side sliding table 1021, the right laser cutting head 302 corresponding to the right side sliding table 1022 is capable of cutting a workpiece on the right side sliding table 1022, at this time, the left laser cutting head 301 and the left side sliding table 1021 operate cooperatively and independently, and the right laser cutting head 302 and the right side sliding table 1022 operate cooperatively and independently, i.e. the laser cutting heads 3 and the sliding tables 102 on two sides operate relatively independently and do not affect each other.
The two laser cutting heads 3 can cooperatively cut the workpiece on the two sliding tables 102, especially when the workpiece is large, the two sliding tables 102 jointly bear a large workpiece, the two laser cutting heads 3 simultaneously carry out laser cutting processing on the large workpiece, at the moment, the left laser cutting head 301 and the right laser cutting head 302 cooperatively operate, the left sliding table 1021 and the right sliding table 1022 synchronously operate, and the laser cutting heads 3 and the sliding tables 102 on two sides are mutually associated and cooperatively operate.
The control center of the double-cantilever laser cutting workstation is connected with a driving mechanism on a machine tool body 1 and a driving mechanism in a three-dimensional linear motion system 2, two laser cutting heads 3 and two sliding tables 102 are controlled to cooperatively operate through multi-axis linkage, meanwhile, the control center is connected with a laser, laser performance indexes such as start and stop, output power and frequency of the laser are controlled, and the laser cutting heads 3 perform cutting processing of a preset track on a workpiece through linkage control of the driving mechanism and the laser.
According to the double-cantilever laser cutting workstation, two groups of racks 103 and two groups of cantilevers 104 are arranged, so that the same set of laser cutting workstation can process two different workpieces at the same time, the two groups of cantilevers 103 cannot interfere with each other, and when the two groups of sliding tables 102 alternately run, the function of synchronous processing and feeding and discharging can be realized, and the running efficiency of equipment is improved.
The above embodiments are only for illustrating the technical idea of the present utility model, and the protection scope of the present utility model is not limited by the above embodiments, and any modification made on the basis of the technical scheme according to the technical idea of the present utility model falls within the protection scope of the present utility model; the technology not related to the utility model can be realized by the prior art.
Claims (10)
1. The utility model provides a two cantilever laser cutting workstations, includes lathe body (1) and laser instrument that base (101), slip table (102), frame (103), cantilever (104) constitute, its characterized in that: the sliding table (102) comprises a left sliding table (1021) and a right sliding table (1022), and the left sliding table (1021) and the right sliding table (1022) are arranged on the same base (101); cantilever (104) that left side sideslip platform (1021) top corresponds are installed on frame (103) that are located left side of left side sideslip platform (1021), cantilever (104) that right side slip table (1022) top corresponds are installed on frame (103) that are located right side of right side sideslip platform (1022), install corresponding Z axle straight line module (203) on every cantilever (104), install laser cutting head (3) on the output of Z axle straight line module (203).
2. The dual cantilever laser cutting workstation of claim 1, wherein: the left side sliding table (1021) and the right side sliding table (1022) are arranged in parallel, and the left side sliding table (1021) and the right side sliding table (1022) respectively correspond to the frames (103) on two sides of the base (101).
3. The dual cantilever laser cutting workstation of claim 1, wherein: the cantilever (104) corresponding to the upper part of the left sliding table (1021) and the cantilever (104) corresponding to the upper part of the right sliding table (1022) are arranged in a back way.
4. The dual cantilever laser cutting workstation of claim 1, wherein: the base (101) is divided into a processing area (1011) and an upper and lower material area (1012) according to different functions, the base (101) positioned between the frames (103) is the processing area (1011), the base (101) which extends from the processing area (1011) to be far away from the frames (103) is the upper and lower material area (1012), and the sliding table (102) on the base (101) can move back and forth between the upper and lower material area (1012) and the processing area (1011).
5. The dual cantilever laser cutting station according to any one of claims 1-4, wherein: the laser cutting head (3) is arranged at the output end of the three-dimensional linear motion system (2).
6. The dual cantilever laser cutting workstation of claim 5, wherein: the three-dimensional linear motion system (2) comprises an X-axis linear transmission mechanism (201), a Y-axis linear transmission mechanism (202) and a Z-axis linear module (203), wherein the cantilever (104) is arranged on the frame (103) through the X-axis linear transmission mechanism (201) so that the cantilever (104) can reciprocate along the arrangement direction of the frame (103); the Y-axis linear transmission mechanism (202) is arranged on the cantilever (104), and the Z-axis linear module (203) is arranged on the cantilever (104) through the Y-axis linear transmission mechanism (202), so that the Z-axis linear module (203) can reciprocate along the arrangement direction of the cantilever (104); the laser cutting head (3) is arranged at the output end of the Z-axis linear module (203), so that the laser cutting head (3) can reciprocate along the setting direction of the Z-axis linear module (203).
7. The dual cantilever laser cutting workstation of claim 6, wherein: the X-axis linear transmission mechanism (201) comprises an X-axis driving mechanism (2011) and an X-axis guide rail (2012), the X-axis guide rail (2012) is arranged at the top of the rack (103), a sliding block structure at the bottom of the cantilever (104) is connected with the X-axis guide rail (2012) in a sliding mode, the X-axis driving mechanism (2011) is connected with the cantilever (104) in a driving mode, and the X-axis driving mechanism (2011) can drive the cantilever (104) to operate in the direction limited by the X-axis guide rail (2012).
8. The dual cantilever laser cutting workstation of claim 6, wherein: the Y-axis linear transmission mechanism (202) comprises a Y-axis driving mechanism (2021) and a Y-axis guide rail (2022), the Y-axis guide rail (2022) is arranged on the cantilever (104), a sliding block structure at the bottom of a mounting seat of the Z-axis linear module (203) is slidably connected with the Y-axis guide rail (2022), the Y-axis driving mechanism (2021) is in driving connection with the mounting seat of the Z-axis linear module (203), and the Y-axis driving mechanism (2021) can drive the Z-axis linear module (203) to run in the direction limited by the Y-axis guide rail (2022).
9. The dual cantilever laser cutting workstation of claim 6, wherein: the Z-axis linear module (203) comprises a Z-axis driving mechanism (2031) and a Z-axis guide rail (2032), the Z-axis guide rail (2032) is vertically arranged on the side of a mounting seat of the Z-axis linear module (203) and is in sliding connection with the Z-axis guide rail (2032) through a sliding block structure at the bottom of the mounting seat of the laser cutting head (3), the Z-axis driving mechanism (2031) is in driving connection with the mounting seat of the laser cutting head (3), and the Z-axis driving mechanism (2031) can drive the laser cutting head (3) to operate in the direction limited by the Z-axis guide rail (2032).
10. The dual cantilever laser cutting station according to any one of claims 1-4, wherein: the laser cutting head (3) is a three-dimensional cutting head or a two-dimensional cutting head.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322148408.0U CN220698557U (en) | 2023-08-10 | 2023-08-10 | Double-cantilever laser cutting workstation |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322148408.0U CN220698557U (en) | 2023-08-10 | 2023-08-10 | Double-cantilever laser cutting workstation |
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| CN220698557U true CN220698557U (en) | 2024-04-02 |
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| CN202322148408.0U Active CN220698557U (en) | 2023-08-10 | 2023-08-10 | Double-cantilever laser cutting workstation |
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| CN (1) | CN220698557U (en) |
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2023
- 2023-08-10 CN CN202322148408.0U patent/CN220698557U/en active Active
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